WO2015050099A1 - Wireless communication system, base station device, terminal device, wireless communication method, and integrated circuit - Google Patents
Wireless communication system, base station device, terminal device, wireless communication method, and integrated circuit Download PDFInfo
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- WO2015050099A1 WO2015050099A1 PCT/JP2014/075998 JP2014075998W WO2015050099A1 WO 2015050099 A1 WO2015050099 A1 WO 2015050099A1 JP 2014075998 W JP2014075998 W JP 2014075998W WO 2015050099 A1 WO2015050099 A1 WO 2015050099A1
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- base station
- intermittent reception
- station device
- station apparatus
- reception operation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0212—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
- H04W52/0216—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave using a pre-established activity schedule, e.g. traffic indication frame
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/54—Allocation or scheduling criteria for wireless resources based on quality criteria
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/28—Discontinuous transmission [DTX]; Discontinuous reception [DRX]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/16—Interfaces between hierarchically similar devices
- H04W92/20—Interfaces between hierarchically similar devices between access points
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Definitions
- the present invention relates to a radio communication system, a base station apparatus, and a terminal apparatus, and more particularly to a radio communication system, a base station apparatus, a terminal apparatus, a radio communication method, and an integrated circuit related to data transmission / reception control.
- the W-CDMA system is standardized as a third generation cellular mobile communication system, and services are provided. Also, HSDPA with higher communication speed has been standardized and is being serviced.
- EUTRA Evolved Universal Terrestrial Radio Access
- OFDM Orthogonal Frequency Division Division Multiplexing
- PAPR Peak to Average Power Ratio
- Advanced-EUTRA a further evolution of EUTRA.
- communication at a maximum transmission rate of 1 Gbps or more and uplink 500 Mbps or more is performed using a band up to a maximum of 100 MHz bandwidth in uplink and downlink.
- Advanced-EUTRA it is considered to realize a maximum of 100 MHz band by bundling a plurality of bands compatible with EUTRA so as to accommodate EUTRA mobile station apparatuses.
- one band of 20 MHz or less of EUTRA is called a component carrier (Component Carrier: CC).
- the component carrier is also called a cell.
- bundling a band of 20 MHz or less is called carrier aggregation (Carrier Aggregation: CA) (Non-patent Document 1).
- Non-Patent Document 2 in communication between a base station apparatus and a mobile station apparatus, when the mobile station apparatus connects simultaneously with a macro cell and a small cell, control information (control plane information: Control-plane information) is transmitted by the macro cell. It has been proposed to transmit user information (User-plane information) in a small cell.
- control plane information control-plane information
- the technology for connecting the macro cell, the small cell, and the mobile station apparatus shown in Non-Patent Document 2 at the same time is also referred to as dual connect (or dual connectivity).
- 3GPP TS Technical Specification 36.300, V11.5.0 (2013-03), Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN), Overall description Stage2 3GPP (TR) (Technical Report) 36.842, V0.2.0 (2013-05), Study (on) Small (Cell) Enhancements (for E-UTRA (and E-UTRAN) and Higher layer (aspects) (release 12)
- Non-Patent Document 2 in communication between a base station apparatus and a mobile station apparatus, control information is transmitted and received between the base station apparatus of the macro cell and the mobile station apparatus, and the base station apparatus of the small cell and the mobile station When user information is transmitted and received between devices, control information and user information must be controlled to be transmitted in an appropriate cell.
- each of the macro cell base station apparatus and the small cell base station apparatus moves in consideration of the line delay between the base station apparatuses. It is considered to perform downlink and uplink data scheduling and downlink data transmission independently for a station apparatus.
- both base station apparatuses perform data scheduling independently, they do not know when the other base station apparatus has transmitted data to the mobile station apparatus. For this reason, the intermittent reception operation performed by the mobile station device for one base station device is inefficient as the intermittent reception operation of the mobile station device during dual connection.
- the present invention has been made in view of such circumstances, and a radio communication system, a base station apparatus, a mobile station apparatus, a radio communication method, and a radio communication system for efficiently operating an intermittent reception operation of a mobile station apparatus during dual connection, and
- An object is to provide an integrated circuit.
- a wireless communication system is a wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells.
- the base station apparatus determines a first intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the first base station apparatus, and sends the terminal apparatus to the second base station apparatus.
- the information regarding the intermittent reception operation may be a plurality of types of intermittent reception parameter sets.
- the first base station device receives the second intermittent reception parameter set from the second base station device, and the terminal device receives the first intermittent reception parameter set.
- the reception parameter set and the second intermittent reception parameter set may be notified.
- a base station apparatus is a base station apparatus that communicates with a terminal apparatus via a plurality of cells together with a first base station apparatus, and the first base station apparatus includes: The terminal device transmits information on the intermittent reception operation for performing the intermittent reception operation to the first base station device, and the terminal device transmits the information from the first base station device to the first base station.
- An intermittent reception parameter set for performing an intermittent reception operation on a device is received, and the intermittent reception parameter set for the terminal device and an intermittent operation for the terminal device to perform an intermittent reception operation on its own base station device Notify the reception parameter set.
- the information regarding the intermittent reception operation may be a plurality of types of intermittent reception parameter sets, and a plurality of types of intermittent reception parameter sets may be determined, and the first base station The apparatus may be configured to notify the apparatus of the plural types of intermittent reception parameter sets.
- the base station apparatus which concerns on the other one aspect
- mode of this invention is a base station apparatus which communicates with a terminal device via a several cell with a 1st base station apparatus, Comprising: Said 1st base station
- the terminal device receives information related to the intermittent reception operation for the terminal device to perform the intermittent reception operation on the base station device from the device, and based on the information related to the intermittent reception operation, the terminal device An intermittent reception parameter set for executing the intermittent reception operation is determined, and the intermittent reception parameter set is notified to the first base station apparatus.
- the information related to the intermittent reception operation may be a plurality of types of intermittent reception parameter sets, and one intermittent reception parameter set is selected from the plurality of types of intermittent reception parameter sets. It may be configured to select.
- a terminal apparatus is a terminal apparatus that communicates with a first base station apparatus and a second base station apparatus via a plurality of cells, wherein the first base station When receiving the intermittent reception parameter set for executing the short-term intermittent reception operation and the intermittent reception parameter set for executing the long-term intermittent reception operation from the device, and performing the short-term intermittent reception operation, the first base station device When the intermittent reception operation is different from the intermittent reception operation for the second base station device and the short-term intermittent reception operation is performed, the intermittent reception operation for the first base station device is performed. The same intermittent reception operation is performed in the intermittent reception operation for the second base station apparatus.
- a wireless communication method is a wireless communication method for a wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells.
- the first base station apparatus determines a first intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the first base station apparatus;
- An integrated circuit is an integrated circuit applied to a base station apparatus that communicates with a terminal apparatus through a plurality of cells together with the first base station apparatus, Means for transmitting information related to an intermittent reception operation for the terminal device to perform an intermittent reception operation to the first base station device, and the terminal device from the first base station device.
- Means for receiving an intermittent reception parameter set for performing an intermittent reception operation on the first base station device, the intermittent reception parameter set on the terminal device and the terminal device on the base station device Means for notifying an intermittent reception parameter set for performing the intermittent reception operation.
- An integrated circuit is an integrated circuit applied to a base station apparatus that communicates with a terminal apparatus via a plurality of cells together with a first base station apparatus, Based on the information regarding the intermittent reception operation, the terminal device based on the information regarding the intermittent reception operation for the terminal device to execute the intermittent reception operation for the base station device from the first base station device And a means for determining an intermittent reception parameter set for performing an intermittent reception operation on the own base station apparatus, and a means for notifying the first base station apparatus of the intermittent reception parameter set.
- An integrated circuit is an integrated circuit applied to a terminal device that communicates with a first base station device and a second base station device via a plurality of cells.
- Means for receiving an intermittent reception parameter set for executing a short-term intermittent reception operation and an intermittent reception parameter set for executing a long-term intermittent reception operation from the first base station apparatus, and the short-term intermittent reception operation When performing the intermittent reception operation different for the intermittent reception operation for the first base station device and the intermittent reception operation for the second base station device, and performing the short-term intermittent reception operation, Means for performing the same intermittent reception operation in the intermittent reception operation for the base station device and the intermittent reception operation for the second base station device.
- the base station apparatus can perform efficient data scheduling for the mobile station apparatus.
- the OFDM system is adopted as the downlink of EUTRA. Further, a DFT-spread OFDM single carrier communication system is employed as the uplink of EUTRA.
- FIG. 8 is a diagram showing a physical channel configuration of EUTRA.
- the downlink physical channel includes a physical downlink shared channel PDSCH (Physical Downlink Shared Channel), a physical downlink control channel PDCCH (Physical Downlink Control Channel), and a physical broadcast channel PBCH (Physical Broadcast Channel).
- PDSCH Physical Downlink Shared Channel
- PDCCH Physical Downlink Control Channel
- PBCH Physical Broadcast Channel
- there are physical signals such as downlink synchronization signals and downlink reference signals (Non-Patent Document 1).
- the uplink physical channel is composed of a physical random access channel PRACH (Physical Random Access Channel), a physical uplink shared channel PUSCH (Physical Uplink Shared Channel), and a physical uplink control channel PUCCH (Physical Uplink Control Channel) ( Non-patent document 1).
- PRACH Physical Random Access Channel
- PUSCH Physical Uplink Shared Channel
- PUCCH Physical Uplink Control Channel
- FIG. 9 is a diagram illustrating a downlink channel configuration of EUTRA.
- the downlink channels shown in FIG. 9 are each composed of a logical channel, a transport channel, and a physical channel.
- the logical channel defines the type of data transmission service that is transmitted and received in a medium access control (MAC) layer.
- the transport channel defines what characteristics the data transmitted over the air interface has and how it is transmitted.
- a physical channel is a physical channel that carries data conveyed to the physical layer by a transport channel.
- the downlink logical channels include broadcast control channel BCCH (Broadcast Control Channel), paging control channel PCCH (Paging Control Channel), common control channel CCCH (Common Control Channel), dedicated control channel DCCH (Dedicated Control Channel), and dedicated traffic.
- BCCH Broadcast Control Channel
- PCCH Paging Control Channel
- CCCH Common Control Channel
- DCCH dedicated Control Channel
- a channel DTCH Dedicated Traffic Channel
- the downlink transport channels include a broadcast channel BCH (Broadcast Channel), a paging channel PCH (Paging Channel), and a downlink shared channel DL-SCH (Downlink Shared Channel).
- BCH Broadcast Channel
- PCH paging channel
- DL-SCH Downlink Shared Channel
- the downlink physical channels include a physical broadcast channel PBCH (Physical Broadcast Channel), a physical downlink control channel PDCCH (Physical Downlink Control Channel), and a physical downlink shared channel PDSCH (Physical Downlink Shared Channel). These channels are transmitted and received between the base station apparatus and the mobile station apparatus.
- PBCH Physical Broadcast Channel
- PDCCH Physical Downlink Control Channel
- PDSCH Physical Downlink Shared Channel
- Broadcast control channel BCCH is a downlink channel used to broadcast system control information.
- the paging control channel PCCH is a downlink channel used for transmitting paging information, and is used when the network does not know the cell position of the mobile station apparatus.
- the common control channel CCCH is a channel used for transmitting control information between the mobile station apparatus and the network, and is used by a mobile station apparatus that does not have a radio resource control (RRC) connection with the network. Is done.
- RRC radio resource control
- the dedicated control channel DCCH is a one-to-one (point-to-point) bidirectional channel and is a channel used for transmitting individual control information between the mobile station apparatus and the network.
- the dedicated control channel DCCH is used by a mobile station apparatus having an RRC connection.
- the dedicated traffic channel DTCH is a one-to-one bidirectional channel, is a channel dedicated to one mobile station apparatus, and is used for transferring user information (unicast data).
- the broadcast channel BCH is broadcast to the entire cell in a fixed and predefined transmission format.
- the downlink shared channel DL-SCH supports HARQ (Hybrid Automatic Repeat Request), dynamic adaptive radio link control, and discontinuous reception (DRX: Discontinuous Reception), and needs to be broadcast to the entire cell. .
- HARQ Hybrid Automatic Repeat Request
- DRX Discontinuous Reception
- the paging channel PCH supports discontinuous reception (DRX) and needs to be broadcast to the entire cell.
- the paging channel PCH is mapped to a physical resource that is dynamically used for a traffic channel and other control channels, that is, a physical downlink shared channel PDSCH.
- the physical broadcast channel PBCH maps the broadcast channel BCH with a period of 40 milliseconds.
- the physical downlink control channel PDCCH includes radio resource assignment (downlink assignment) of the downlink shared channel PDSCH, hybrid automatic repeat request (HARQ) information for downlink data, and radio resources of the physical uplink shared channel PUSCH. It is a channel used to notify the mobile station apparatus of uplink transmission permission (uplink grant) that is an assignment.
- the physical downlink shared channel PDSCH is a channel used for transmitting downlink data or paging information.
- the physical downlink control channel PDCCH is arranged in the 1 to 3 symbol OFDM of the resource block from the head of one subframe, and the downlink shared channel PDSCH is arranged in the remaining OFDM symbols.
- One resource block is composed of 12 subcarriers and 7 OFDM symbols.
- One subframe is composed of two resource blocks, and one frame is composed of 10 subframes.
- the base station apparatus when the base station apparatus notifies the mobile station apparatus of radio resource allocation of the physical downlink shared channel PDSCH to the mobile station apparatus using the physical downlink control channel PDCCH, the physical downlink shared channel PDSCH allocated to the mobile station apparatus The region is the physical downlink shared channel PDSCH in the same subframe as the physical downlink control channel PDCCH in which the downlink assignment is notified.
- mapping between the transport channel and the physical channel is performed as follows. Broadcast channel BCH is mapped to physical broadcast channel PBCH. The paging channel PCH and the downlink shared channel DL-SCH are mapped to the physical downlink shared channel PDSCH. The physical downlink control channel PDCCH is used as a physical channel alone.
- mapping between logical channels and transport channels is performed as follows.
- the paging control channel PCCH is mapped to the paging channel PCH.
- Broadcast control channel BCCH is mapped to broadcast channel BCH and downlink shared channel DL-SCH.
- the common control channel CCCH, the dedicated control channel DCCH, and the dedicated traffic channel DTCH are mapped to the downlink shared channel DL-SCH.
- FIG. 10 is a diagram showing an uplink channel configuration of EUTRA.
- the uplink channels shown in FIG. 10 are each composed of a logical channel, a transport channel, and a physical channel. The definition of each channel is the same as the downlink channel.
- the uplink logical channels include a common control channel CCCH (Common Control Channel), a dedicated control channel DCCH (Dedicated Control Channel), and a dedicated traffic channel DTCH (Dedicated Traffic Channel).
- CCCH Common Control Channel
- DCCH dedicated Control Channel
- DTCH dedicated Traffic Channel
- the uplink transport channel includes an uplink shared channel UL-SCH (Uplink Shared Channel) and a random access channel RACH (Random Access Channel).
- UL-SCH Uplink Shared Channel
- RACH Random Access Channel
- the uplink physical channels include a physical uplink control channel PUCCH (Physical Uplink Control Channel), a physical uplink shared channel PUSCH (Physical Uplink Shared Channel) and a physical random access channel PRACH (Physical Random Access Channel). These channels are transmitted and received between the base station apparatus and the mobile station apparatus.
- the physical random access channel PRACH is mainly used for random access preamble transmission for acquiring transmission timing information from the mobile station apparatus to the base station apparatus. Random access preamble transmission is performed in a random access procedure.
- the common control channel CCCH is a channel used for transmitting control information between the mobile station apparatus and the network, and is used by a mobile station apparatus that does not have a radio resource control (RRC) connection with the network. Is done.
- RRC radio resource control
- the dedicated control channel DCCH is a one-to-one (point-to-point) bidirectional channel and is a channel used for transmitting individual control information between the mobile station apparatus and the network.
- the dedicated control channel DCCH is used by a mobile station apparatus having an RRC connection.
- the dedicated traffic channel DTCH is a one-to-one bidirectional channel, is a channel dedicated to one mobile station apparatus, and is used for transferring user information (unicast data).
- the uplink shared channel UL-SCH supports HARQ (Hybrid Automatic Repeat Request), dynamic adaptive radio link control, and discontinuous transmission (DTX). Limited control information is transmitted on the random access channel RACH.
- HARQ Hybrid Automatic Repeat Request
- DTX discontinuous transmission
- the physical uplink control channel PUCCH notifies the base station apparatus of response information (ACK / NACK) for downlink data, downlink radio quality information, and an uplink data transmission request (scheduling request: Scheduling Request: SR). Is the channel used for.
- the physical uplink shared channel PUSCH is a channel used for transmitting uplink data.
- the physical random access channel is a channel used for transmitting a random access preamble.
- mapping between the transport channel and the physical channel is performed as follows.
- the uplink shared channel UL-SCH is mapped to the physical uplink shared channel PUSCH.
- the random access channel RACH is mapped to the physical random access channel PRACH.
- the physical uplink control channel PUCCH is used as a physical channel alone.
- the logical channel and the transport channel are mapped as follows.
- the common control channel CCCH, the dedicated control channel DCCH, and the dedicated traffic channel DTCH are mapped to the uplink shared channel UL-SCH.
- Advanced-EUTRA a further evolution of EUTRA.
- communication at a maximum transmission rate of 1 Gbps or higher and 500 Mbps or higher of the uplink is performed using a band up to a maximum of 100 MHz bandwidth in the uplink and the downlink, respectively.
- Advanced-EUTRA is considering to realize a maximum of 100 MHz band by bundling a plurality of bands below 20 MHz of EUTRA so that EUTRA mobile station devices can be accommodated.
- one band of 20 MHz or less of EUTRA is called a component carrier (Component Carrier: CC) (Non-patent Document 1).
- one cell is configured by combining one downlink component carrier and one uplink component carrier.
- a single cell can be configured with only one downlink component carrier.
- Bundling a plurality of cells and performing communication between the base station apparatus and the mobile station apparatus via the plurality of cells is called carrier aggregation.
- One base station apparatus allocates a plurality of cells that match the communication capability and communication conditions of the mobile station apparatus, and communicates with the mobile station apparatus via the allocated plurality of cells.
- the some cell allocated to the mobile station apparatus is classified into a 1st cell (Primary Cell: PCell) and a cell other than that as a 2nd cell (Secondary Cell: SCell).
- a special function such as allocation of the physical uplink control channel PUCCH is set in the first cell.
- the mobile station apparatus does not perform downlink reception processing on the second cell immediately after allocation (or the radio resource indicated by the physical downlink control channel PDCCH). Does not follow the allocation information). Then, after the mobile station apparatus is instructed to activate the second cell from the base station apparatus, the mobile station apparatus starts downlink reception processing for the second cell instructed to activate (or physically According to the radio resource allocation information indicated by the downlink control channel PDCCH).
- the mobile station apparatus performs downlink reception processing for the second cell instructed to deactivate. It stops (or does not follow the radio resource allocation information indicated by the physical downlink control channel PDCCH).
- the second cell that is instructed to activate by the base station device and is performing downlink reception processing is called an activation cell, and the second cell and deactivation immediately after allocation from the base station device to the mobile station device.
- the second cell that has been instructed and has stopped the downlink reception process is called a deactivated cell.
- the first cell is always an activated cell.
- an enhanced physical downlink control channel EPDCCH (Enhanced-Physical-Downlink-Control-Channel) obtained by extending the physical downlink control channel PDCCH is added.
- FIG. 11 shows a protocol stack that handles control data of the mobile station apparatus and base station apparatus of EUTRA.
- FIG. 12 is a protocol stack for handling user data of EUTRA mobile station apparatuses and base station apparatuses. 11 and 12 will be described below.
- the physical layer (Physical layer: PHY layer) provides a transmission service to an upper layer using a physical channel (Physical layer).
- the PHY layer is connected to an upper medium access control layer (Medium Access Control Layer) via a transport channel. Data moves between the MAC layer, the PHY layer, and the layer (layer) via the transport channel. Data transmission / reception is performed between the mobile station apparatus and the base station apparatus via a physical channel.
- Medium Access Control Layer Medium Access Control Layer
- the MAC layer maps various logical channels to various transport channels.
- the MAC layer is connected to an upper radio link control layer (Radio Link Control Layer: RLC layer) through a logical channel.
- RLC layer Radio Link Control Layer
- the logical channel is roughly classified according to the type of information to be transmitted, and is divided into a control channel for transmitting control information and a traffic channel for transmitting user information.
- the MAC layer has a function of controlling the PHY layer to perform intermittent transmission / reception (DRX / DTX), a function of notifying transmission power information, a function of performing HARQ control, and the like.
- the MAC layer has a function of notifying the data amount of the transmission buffer corresponding to each logical channel. This function is called buffer status report (Buffer Status Report: BSR).
- BSR buffer Status Report
- each logical channel is assigned to a logical channel group (Logical Channel Group: LCG), and the transmission buffer amount for each LCG is notified to the base station apparatus as a MAC layer message.
- LCG Logical Channel Group
- the BSR is triggered to notify the BSR when one periodic timer expires.
- the MAC layer when performing carrier aggregation, also has a function of controlling the PHY layer in order to activate / deactivate cells and a function of controlling the PHY layer in order to manage uplink transmission timing. ing.
- the RLC layer divides and concatenates the data received from the upper layer, and adjusts the data size so that the lower layer can transmit data appropriately.
- the RLC layer also has a function for guaranteeing QoS (Quality of Service) required by each data. That is, the RLC layer has functions such as data retransmission control.
- the packet data convergence protocol layer (Packet Data Convergence Protocol layer: PDCP layer) has a header compression function that compresses unnecessary control information in order to efficiently transmit IP packets as user data in a wireless section.
- the PDCP layer also has a data encryption function.
- the radio resource control layer defines only control information.
- the RRC layer sets and resets a radio bearer (RB) and controls a logical channel, a transport channel, and a physical channel.
- the RB is divided into a signal radio bearer (Signaling Radio Bearer: SRB) and a data radio bearer (Data Radio Bearer: DRB), and the SRB is used as a path for transmitting an RRC message as control information.
- DRB is used as a route for transmitting user information.
- Each RB is set between the RRC layers of the base station apparatus and the mobile station apparatus.
- the PHY layer corresponds to the first physical layer in the hierarchical structure of the generally known Open Systems Interconnection (OSI) model, and the MAC layer, RLC layer, and PDCP layer are OSI.
- the RRC layer corresponds to the data link layer, which is the second layer of the model, and the network layer, which is the third layer of the OSI model.
- DRX Discontinuous reception
- DTX discontinuous transmission
- the intermittent reception control is managed using a plurality of types of timers.
- the mobile station apparatus receives a discontinuous reception (DRX) parameter set (intermittent reception start offset, intermittent reception period (DRX cycle), intermittent reception period timer (on Duration timer), reception extension period timer (Inactivity timer), re-transmission from the base station apparatus.
- DRX discontinuous reception
- DRX discontinuous reception
- Fig. 13 shows an example of the operation of the mobile station device during intermittent reception.
- the intermittent reception cycle is a cycle in which intermittent reception is performed, and indicates the length of a period from the start position of the intermittent reception period to the start position of the next intermittent reception period.
- the intermittent reception period is a period for monitoring the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH in one intermittent reception cycle (physical downlink in one intermittent reception cycle). A period during which reception processing of the link control channel PDCCH or the extended physical downlink control channel EPDCCH is performed).
- the intermittent reception period timer is started at the start position of the intermittent reception period.
- the retransmission period is a period in which downlink data reception on the physical downlink shared channel PDSCH fails and retransmission data may be transmitted from the base station apparatus.
- the mobile station apparatus monitors the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH during the retransmission period.
- the reception extension period is the physical downlink control channel PDCCH when the downlink assignment / uplink grant addressed to the mobile station apparatus is detected on the physical downlink control channel PDCCH, or the extended physical downlink control channel EPDCCH, or This is a period for extending the monitoring of the extended physical downlink control channel EPDCCH.
- the reception extension period timer starts in the subframe next to the subframe in which the downlink allocation / uplink grant addressed to the mobile station apparatus is detected on the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH. Is done.
- the intermittent reception start offset is information regarding the start position of the intermittent reception period, and the start position of the intermittent reception period is determined based on the intermittent reception start offset.
- the timer value of each timer may be represented by the number of subframes.
- the intermittent reception cycle includes a long-term intermittent reception cycle (Long DRX cycle) and a short-term intermittent reception cycle (Short DRX cycle).
- Long DRX cycle long-term intermittent reception cycle
- Short DRX cycle short-term intermittent reception cycle
- the mobile station device first performs intermittent reception control with a short-term intermittent reception cycle, and after a certain period (short-term intermittent reception cycle period), it is intermittent for a long time. Performs intermittent reception control of the reception cycle.
- the short period intermittent reception cycle period is again within the period indicated by the short period intermittent reception cycle period after the mobile station apparatus receives the physical downlink control channel PDCCH during the intermittent reception operation in the short period intermittent reception cycle. This is a period for shifting to the intermittent reception operation in the long-term intermittent reception cycle when the physical downlink control channel PDCCH is not received.
- the length of the short-term intermittent reception cycle period may be represented by the number of short-term intermittent reception cycles.
- the mobile station apparatus monitors the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH during the active time (Active time).
- the active time indicates a period such as an intermittent reception period, a retransmission period, or a reception extension period given by the DRX parameter.
- the active time indicates a period determined by the state of the mobile station apparatus other than the period set by the DRX parameter.
- the mobile station apparatus that is performing carrier aggregation performs the same intermittent reception operation for all cells. That is, as shown in FIG. 14, the mobile station apparatus that is performing carrier aggregation monitors the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH in the same intermittent reception cycle and intermittent reception period.
- the mobile station apparatus When the mobile station apparatus receives a downlink assignment / uplink grant addressed to the mobile station apparatus on the physical downlink control channel PDCCH of one cell or the extended physical downlink control channel EPDCCH, all of the carrier aggregations are performed. In this cell, the monitoring period of the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH is extended by the set reception extension period.
- a mobile station apparatus performs dual connection with two base station apparatuses and simultaneously communicates with both base station apparatuses.
- Dual connect is not a high-speed backbone line (also referred to as a backhaul) that can be regarded as non-delayed like an optical fiber between a macro cell base station apparatus and a small cell base station apparatus, but uses a low-speed backbone line with a delay.
- the mobile station device is connected to the macro cell base station device and the small cell base station device, and the mobile station device and both base station devices transmit and receive data via multiple cells.
- dual connect communication may be performed between a mobile station apparatus and a base station apparatus with a macro cell as a first cell (PCell) and a small cell as a second cell (SCell).
- control data may be transmitted and received between the macro cell base station apparatus and the mobile station apparatus
- user data may be transmitted and received between the small cell base station apparatus and the mobile station apparatus.
- the base station apparatus that transmits / receives data may be changed based on the type of data (for example, QoS or logical channel) instead of the distinction between control data and user data.
- the MAC layer of the mobile station device also has a function of controlling the PHY layer in order to manage transmission timing groups.
- the base station devices are connected by a low-speed line with a delay, so that the macro cell base station device and the small cell base station device are each considered in consideration of the line delay between the base station devices.
- downlink and uplink data scheduling and downlink data transmission are performed independently for the mobile station apparatus.
- both base station apparatuses perform data scheduling independently, they do not know when the other base station apparatus has transmitted data to the mobile station apparatus. For this reason, when the base station apparatus transmits data to the mobile station apparatus that is performing the intermittent reception operation, it can recognize that the mobile station apparatus extends the reception period, but the other base station apparatus Cannot recognize the extension of the reception period due to data transmission from. Therefore, if the conventional intermittent reception operation performed by the mobile station device for one base station device is applied as it is as the intermittent reception operation at the time of dual connection, the efficiency is deteriorated.
- FIG. 1 is a diagram illustrating a configuration of a mobile station apparatus according to an embodiment of the present invention.
- the mobile station apparatuses 1-1 to 1-3 include a data generation unit 101, a transmission data storage unit 103, a transmission HARQ processing unit 105, a transmission processing unit 107, a radio unit 109, a reception processing unit 111, a reception HARQ processing unit 113, and a MAC.
- the information extraction unit 115, the PHY control unit 117, the MAC control unit 119, the data processing unit 121, and the RRC control unit 123 are configured.
- the data generation unit 101 has functions of a PDCP layer and an RLC layer.
- the data generation unit 101 performs processing such as header compression of the IP packet of user data, data encryption, data division and combination, and adjusts the data size.
- the data generation unit 101 outputs the processed data to the transmission data storage unit 103.
- the transmission data storage unit 103 accumulates the data input from the data generation unit 101, and outputs the instructed data to the transmission HARQ processing unit 105 by the instructed data amount based on the instruction from the MAC control unit 119. . In addition, the transmission data storage unit 103 outputs information on the amount of accumulated data to the MAC control unit 119.
- the transmission HARQ processing unit 105 encodes input data and performs puncture processing on the encoded data. Then, transmission HARQ processing section 105 outputs the punctured data to transmission processing section 107, and stores the encoded data.
- the transmission HARQ processing unit 105 when instructed to retransmit data from the MAC control unit 119, performs a puncture process different from the previously performed puncture from the stored encoded data, and transmits the punctured data to the transmission processing unit 107. Output to.
- the transmission processing unit 107 modulates and encodes the data input from the transmission HARQ processing unit 105.
- the transmission processing unit 107 performs DFT (Discrete Fourier Transform (Discrete Fourier Transform))-IFFT (Inverse Fast Fourier Transform (Inverse Fast Fourier Transform)) processing of the modulated and encoded data, and after processing, CP (Cyclic prefix) Is inserted into the physical uplink shared channel (PUSCH) of each uplink component carrier (cell) and output to the radio section 109.
- DFT Discrete Fourier Transform
- IFFT Inverse Fast Fourier Transform
- CP Cyclic prefix
- the transmission processing unit 107 when there is a response instruction for received data from the PHY control unit 117, the transmission processing unit 107 generates an ACK or NACK signal, places the generated signal in the physical uplink control channel (PUCCH), and transmits the radio unit 109. Output to.
- the transmission processing unit 107 When there is a random access preamble transmission instruction from the PHY control unit 117, the transmission processing unit 107 generates a random access preamble, places the generated signal in a physical random access channel (PRACH), and outputs the generated signal to the radio unit 109.
- PRACH physical random access channel
- the radio unit 109 up-converts the data input from the transmission processing unit 107 to the radio frequency of the transmission position information (transmission cell information) instructed from the PHY control unit 117, adjusts the transmission power, and transmits the data from the transmission antenna. Send.
- Radio section 109 down-converts the radio signal received from the reception antenna and outputs the result to reception processing section 111.
- the reception processing unit 111 performs FFT (Fast Fourier Transform) processing, decoding, demodulation processing, and the like on the signal input from the wireless unit 109.
- FFT Fast Fourier Transform
- the reception processing unit 111 demodulates the physical downlink control channel PDCCH or the physical extended downlink control channel EPDCCH and detects the downlink allocation information of the mobile station apparatus, the reception processing unit 111 determines the physical downlink based on the downlink allocation information.
- the shared channel PDSCH is demodulated and the fact that downlink allocation information has been acquired is output to the MAC control unit 119.
- the reception processing unit 111 outputs the demodulated physical downlink shared channel PDSCH data to the reception HARQ processing unit 113.
- the reception processing unit 111 demodulates the physical downlink control channel PDCCH or the physical extended downlink control channel EPDCCH, uplink transmission permission information (Uplink grant: uplink grant), and uplink transmission data response information (ACK / NACK). ) Is detected, the acquired response information is output to the MAC control unit 119.
- the uplink transmission permission information includes data modulation / coding scheme, data size information, HARQ information, transmission position information, and the like.
- the reception HARQ processing unit 113 performs a decoding process on the input data from the reception processing unit 111, and outputs the data to the MAC information extraction unit 115 when the decoding process is successful.
- the reception HARQ processing unit 113 stores the data that has failed in the decoding process when the decoding process of the input data has failed.
- the reception HARQ processing unit 113 When receiving the retransmission data, the reception HARQ processing unit 113 combines the stored data and the retransmission data and performs a decoding process. Further, the reception HARQ processing unit 113 notifies the MAC control unit 119 of success or failure of the input data decoding process.
- the MAC information extraction unit 115 extracts the control data of the MAC layer (Medium Access Access Control layer) from the data input from the reception HARQ processing unit 113, and outputs the extracted MAC control information to the MAC control unit 119.
- the MAC information extraction unit 115 outputs the remaining data to the data processing unit 121.
- the data processing unit 121 has functions of a PDCP layer and an RLC layer, performs a decompression function of a compressed IP header, a decryption function of encrypted data, a data division and combination, and the like, and converts the data into an original form Return to.
- the data processing unit 121 divides the RRC message and user data, outputs the RRC message to the RRC control unit 123, and outputs the user data to the upper layer.
- the PHY control unit 117 controls the transmission processing unit 107, the radio unit 109, and the reception processing unit 111 according to an instruction from the MAC control unit 119.
- the PHY control unit 117 notifies the transmission processing unit 107 of the modulation / coding scheme and transmission position from the modulation / coding scheme, transmission power information and transmission position information (transmission cell information) notified from the MAC control unit 119,
- the radio unit 109 is notified of the frequency information and transmission power information of the transmission cell.
- the PHY control unit 117 performs power ON / OFF control of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111 according to an instruction from the MAC control unit 119.
- the MAC control unit 119 has a MAC layer function, and controls the MAC layer based on information acquired from the RRC control unit 123 or a lower layer.
- the MAC control unit 119 determines the data transmission destination based on the data transmission control setting specified from the RRC control unit 123, the data amount information acquired from the transmission data storage unit 103, and the uplink transmission permission information acquired from the reception processing unit 111.
- the data transmission priority order is determined, and information about data to be transmitted is notified to the transmission data storage unit 103.
- the MAC control unit 119 notifies the transmission HARQ processing unit 105 of HARQ information, and outputs the modulation / coding scheme and transmission position information (transmission cell information) to the PHY control unit 117.
- the MAC control unit 119 obtains response information for the uplink transmission data from the reception processing unit 111, and when the response information indicates NACK (non-response), retransmits to the transmission HARQ processing unit 105 and the PHY control unit 117. Instruct.
- the MAC control unit 119 instructs the PHY control unit 117 to transmit an ACK or NACK signal.
- the MAC control unit 119 When the MAC control unit 119 acquires activation / deactivation instruction information and discontinuous reception (DRX) control information of a cell (or component carrier) from the MAC control information input from the MAC information extraction unit 115, the MAC control unit 119 is activated. To perform activation / deactivation control and intermittent reception control, the PHY control unit 117 is controlled to perform operation start / operation stop control of the radio unit 109, the transmission processing unit 107, and the reception processing unit 111.
- DRX discontinuous reception
- the MAC control unit 119 applies each timer of the intermittent reception parameter acquired from the RRC control 123 to each cell (or each base station device).
- the MAC control unit 119 determines an intermittent reception start frame based on the intermittent reception start offset and the intermittent reception cycle.
- the MAC control unit 119 starts an intermittent reception period timer and instructs the PHY control unit 117 to start operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
- the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
- the MAC control unit 119 In the dual connection state, when the MAC control unit 119 acquires the downlink assignment / uplink grant information from the reception processing unit 111 while the intermittent reception period timer is operating, the MAC control unit 119 performs the downlink assignment / uplink grant. An appropriate cell reception extension period timer is started in consideration of which base station apparatus the downlink allocation / uplink grant information is from.
- the MAC control unit 119 When not in the dual connect state, when the MAC control unit 119 acquires downlink assignment / uplink grant information from the reception processing unit 111 while the intermittent reception period timer is operating, the reception extension period timer for all cells is started and PHY control is performed. The unit 117 is instructed to start operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111. When the intermittent reception period timer expires, the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
- the MAC control unit 119 stops the operation of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111 in the PHY control unit 117 when either the reception extension period timer or the intermittent reception period timer is operating. Do not instruct. When both the reception extension period timer and the intermittent reception timer expire, the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
- a retransmission period timer is set.
- the PHY control unit 117 is instructed to start operation of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
- the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
- the MAC control unit 119 outputs transmission timing information among the MAC control information input from the MAC information extraction unit 115 to the PHY control unit 117.
- the MAC control unit 119 manages uplink transmission timing and controls the PHY control unit 117.
- the MAC control unit 119 manages validity / invalidity of uplink transmission timing using a transmission timing timer.
- the MAC control unit 119 has a transmission timing timer for each cell or transmission timing group, and starts or restarts a transmission timing timer corresponding to the case where transmission timing information is applied for each cell or transmission timing group.
- the MAC control unit 119 creates a buffer status report (BSR) that is data amount information stored in the transmission data storage unit 103 and outputs the buffer status report (BSR) to the transmission data storage unit 103. Further, the MAC control unit 119 creates a power headroom report (PHR) that is transmission power information for each cell, and outputs it to the transmission data storage unit 103.
- BSR buffer status report
- PHR power headroom report
- the RRC control unit 123 includes a base station device 3-1 and a base station device, such as connection / disconnection processing with the base station device 3-1, carrier aggregation setting, dual connect setting, control data and user data data transmission control setting, etc. Make various settings for communication with 3-2.
- the RRC control unit 123 exchanges information with an upper layer associated with various settings, and controls a lower layer associated with the various settings.
- the RRC control unit 123 creates an RRC message and outputs the created RRC message to the data generation unit 101.
- the RRC control unit 123 analyzes the RRC message input from the data processing unit 121.
- the RRC control unit 123 creates a message indicating the transmission capability of the mobile station apparatus and outputs the message to the data generation unit 101. Further, the RRC control unit 123 outputs information necessary for the MAC layer to the MAC control unit 119 and outputs information necessary for the physical layer to the PHY control unit 117.
- the RRC control unit 123 includes an intermittent reception parameter set (intermittent reception start offset, intermittent reception period (DRX cycle), intermittent reception period timer (on Duration timer), reception extension period timer (Inactivity timer), and retransmission period timer (Retransmission timer). ) Etc.), the intermittent reception parameters are output to the MAC control unit 119. Further, when the RRC control unit 123 recognizes that the base station apparatus 3-1 and the base station apparatus 3-2 perform communication in the dual connect, the RRC control unit 123 notifies the MAC control unit 119 of the dual connect state.
- an intermittent reception parameter set intermittent reception start offset, intermittent reception period (DRX cycle), intermittent reception period timer (on Duration timer), reception extension period timer (Inactivity timer), and retransmission period timer (Retransmission timer).
- the transmission processing unit 107, the radio unit 109, the reception processing unit 111, and the PHY control unit 117 perform operations of the physical layer, and transmit data storage unit 103, transmission HARQ processing unit 105, reception HARQ processing unit 113, MAC information extraction.
- 115 and MAC control unit 119 operate in the MAC layer
- data generation unit 101 and data processing unit 121 operate in the RLC layer and PDCP layer
- RRC control unit 123 operates in the RRC layer.
- FIG. 2 is a diagram showing a configuration of the base station apparatus according to the embodiment of the present invention.
- the base station device 3-1 or the base station device 3-2 includes a data generation unit 201, a transmission data storage unit 203, a transmission HARQ processing unit 205, a transmission processing unit 207, a radio unit 209, a reception processing unit 211, and a reception HARQ.
- the data generation unit 201 has functions of a PDCP layer and an RLC layer, and performs processing such as header compression of the IP packet of user data, data encryption, data division and combination, and adjusts the data size.
- the data generation unit 201 outputs the processed data and the logical channel information of the data to the transmission data storage unit 203.
- the transmission data storage unit 203 accumulates the data input from the data generation unit 201 for each user, and transmits the user data instructed based on the instruction from the MAC control unit 219 for the specified data amount. The data is output to the unit 205. Also, the transmission data storage unit 203 outputs information on the amount of accumulated data to the MAC control unit 219.
- the transmission HARQ processing unit 205 encodes input data and performs puncture processing on the encoded data. Then, the transmission HARQ processing unit 205 outputs the punctured data to the transmission processing unit 207, and stores the encoded data. The transmission HARQ processing unit 205, when instructed to retransmit data from the MAC control unit 219, performs a puncture process different from the previously performed puncture from the stored encoded data, and transmits the punctured data to the transmission processing unit 207. Output to.
- the transmission processing unit 207 modulates and encodes the data input from the transmission HARQ processing unit 205.
- the transmission processing unit 207 maps the modulated and encoded data to signals such as physical downlink control channel PDCCH, downlink synchronization signal, physical broadcast channel PBCH, physical downlink shared channel PDSCH and the like of each cell,
- the mapped data is subjected to OFDM signal processing such as serial / parallel conversion, IFFT (Inverse Fourier Transform (Inverse Fast Fourier Transform)) conversion, and CP insertion to generate an OFDM signal.
- OFDM signal processing such as serial / parallel conversion, IFFT (Inverse Fourier Transform (Inverse Fast Fourier Transform)) conversion, and CP insertion to generate an OFDM signal.
- the transmission processing unit 207 outputs the generated OFDM signal to the wireless unit 209.
- the transmission processing unit 207 when there is a response instruction for received data from the MAC control unit 219, the transmission processing unit 207 generates an ACK or NACK signal, places the generated signal in the physical downlink control channel PDCCH, and outputs it to the radio unit 209. To do.
- the radio unit 209 up-converts data input from the transmission processing unit 207 to a radio frequency, adjusts transmission power, and transmits data from the transmission antenna.
- the radio unit 209 down-converts the radio signal received from the reception antenna and outputs it to the reception processing unit 211.
- the reception processing unit 211 performs FFT (Fast Fourier Transform (fast Fourier transform)) processing, decoding, demodulation processing, and the like on the signal input from the wireless unit 209.
- FFT Fast Fourier Transform
- the reception processing unit 211 outputs the data of the physical uplink shared channel PUSCH among the demodulated data to the reception HARQ processing unit 213. Further, the reception processing unit 211 receives response information (ACK / NACK), downlink radio quality information (CQI), and uplink radio quality information (CQI) of control data acquired from the physical uplink control channel PUCCH among the demodulated data. Transmission request information (scheduling request) is output to the MAC control unit 219.
- the reception HARQ processing unit 213 performs a decoding process on the input data from the reception processing unit 211 and outputs the data to the MAC information extraction unit 215 when the decoding process is successful.
- the reception HARQ processing unit 213 stores the data that has failed in the decoding process when the decoding process of the input data has failed.
- the reception HARQ processing unit 213 When receiving the retransmission data, the reception HARQ processing unit 213 combines the stored data and the retransmission data and performs a decoding process. Also, the reception HARQ processing unit 213 notifies the MAC control unit 219 of the success or failure of the input data decoding process.
- the MAC information extraction unit 215 extracts the MAC layer control data from the data input from the reception HARQ processing unit 213, and outputs the extracted control information to the MAC control unit 219.
- the MAC information extraction unit 215 outputs the remaining data to the data processing unit 221.
- the data processing unit 221 has functions of a PDCP layer and an RLC layer, and performs processing such as a decompression function of a compressed IP header, a decryption function of encrypted data, and a division and combination of data. Return to.
- the data processing unit 221 divides the RRC message and user data, outputs the RRC message to the RRC control unit 223, and outputs the user data to the upper layer.
- the MAC control unit 219 has a MAC layer function, and controls the MAC layer based on information acquired from the RRC control unit 223 and lower layers.
- the MAC control unit 219 performs downlink and uplink scheduling processing.
- the MAC control unit 219 includes downlink transmission data response information (ACK / NACK), downlink radio quality information (CQI) and uplink transmission request information (scheduling request) input from the reception processing unit 211, and a MAC information extraction unit. Downlink and uplink scheduling processing is performed based on the control information input from 215, the data amount information for each user acquired from the transmission data storage unit 203, and the reception operation state of the mobile station apparatus 1-1.
- the MAC control unit 219 outputs the schedule result to the transmission processing unit 207.
- the MAC control unit 219 acquires response information for the uplink transmission data from the reception processing unit 211, and resends to the transmission HARQ processing unit 205 and the transmission processing unit 207 when the response information indicates NACK (non-response). Instruct.
- the MAC control unit 219 instructs the transmission processing unit 207 to transmit an ACK or NACK signal.
- the MAC control unit 219 performs activation / deactivation processing of the cell (or component carrier) assigned to the mobile station apparatus 1-1, management of uplink transmission timing, and the like.
- the reception operation state of the mobile station apparatus 1-1 is determined from the intermittent reception parameters acquired from the RRC control unit 223.
- the RRC control unit 223 performs connection / disconnection processing with the mobile station apparatus 1-1, carrier aggregation setting, dual connect setting, control data of the mobile station apparatus 1-1, and data on which cell the user data is transmitted / received.
- Various settings for communication with the mobile station apparatus 1-1 such as transmission control settings, are performed, information is exchanged with an upper layer according to the various settings, and lower layer control is performed according to the various settings.
- the RRC control unit 223 creates various RRC messages and outputs the created RRC messages to the data generation unit 201.
- the RRC control unit 223 analyzes the RRC message input from the data processing unit 221.
- the RRC control unit 223 acquires a message indicating the transmission / reception capability of the mobile station device from the mobile station device 1-1
- the RRC control unit 223 performs carrier aggregation suitable for the mobile station device 1-1 based on the transmission / reception capability information of the mobile station device. Configure settings or dual connect settings.
- the RRC control unit 223 outputs information necessary for the MAC layer to the MAC control unit 219, and outputs information necessary for the physical layer to the PHY control unit 217. Further, the RRC control unit 223 notifies the necessary information to the inter-base station communication unit 225 and the MME communication unit 227 when performing handover or dual connection. When dual connection is performed, information regarding the intermittent reception operation performed by the mobile station device 1-1 is also notified to the inter-base station communication unit 225.
- the inter-base station apparatus communication unit 225 communicates with another base station apparatus, and transmits a control message between base station apparatuses input from the RRC control unit 223 to the other base station apparatus. Further, the inter-base station apparatus communication unit 225 receives a control message between base station apparatuses from other base station apparatuses, and outputs the received control message to the RRC control unit 223. Control messages between base station apparatuses include a control message related to handover and a control message related to dual connection.
- the MME communication unit 227 communicates with an MME (Mobility Management Entity) and transmits a control message between the base station apparatus and the MME input from the RRC control unit 223 to the MME. Further, the MME communication unit 227 receives a control message between the base station apparatus and the MME from the MME, and outputs the received control message to the RRC control unit 223. Control messages between the base station apparatus and the MME include a path switch request message and a path switch request response message.
- MME Mobility Management Entity
- the GW communication unit 229 communicates with the GW, receives the user data of the mobile station apparatus sent from the GW, and outputs the received data to the data generation unit 201. In addition, the GW communication unit 229 transmits user data of the mobile station apparatus input from the data processing unit 221 to the GW.
- the transmission processing unit 207, the radio unit 209, and the reception processing unit 211 perform operations of the PHY layer, and transmit data storage unit 203, transmission HARQ processing unit 205, reception HARQ processing unit 213, MAC information extraction unit 215, MAC control.
- the unit 219 performs operations of the MAC layer
- the data generation unit 201 and the data processing unit 221 perform operations of the RLC layer and the PDCP layer
- the RRC control unit 223 performs operations of the RRC layer.
- a wireless communication system as described with reference to FIGS. 8 to 14 is assumed. Then, as shown in FIG. 8, the base station device 3-1 and the plurality of mobile station devices 1-1, 1-2, 1-3 communicate. Further, a wireless communication system is assumed in which the macro cell base station device 3-1, the small cell base station device 3-2, and the mobile station device 1-1 described in FIG. 15 communicate via a plurality of cells. ing.
- the mobile station apparatus 1-1 is connected to the base station apparatus 3-1 and the base station apparatus 3-2 by using a dual connect (dual connect connection).
- At least control information (Control-plane information) of the mobile station apparatus 1-1 is transmitted and received between the base station apparatus 3-1 of the macro cell and the MME (Mobility Management Entity).
- At least user information (User-plane information) of the mobile station device 1-1 is transmitted and received between the small cell base station device 3-2 and the GW (Gateway).
- Control information for controlling the mobile station apparatus 1-1 is transmitted and received between the macro cell base station apparatus 3-1 and the small cell base station apparatus 3-2.
- At least control information (Control-plane information) of the mobile station apparatus 1-1 is transmitted and received between the base station apparatus 3-1 and MME (Mobility Management Entity) of the macro cell. Done. At least user information (User-plane information) of the mobile station apparatus 1-1 is transmitted and received between the base station apparatus 3-1 and GW (Gateway) in the macro cell.
- MME Mobility Management Entity
- User-plane information is transmitted and received between the base station apparatus 3-1 and GW (Gateway) in the macro cell.
- the macro cell base station apparatus 3-1 transfers the user information received from the GW to the small cell base station apparatus 3-2.
- the small cell base station apparatus 3-2 transfers the user information received from the mobile station apparatus 1-1 to the base station apparatus 3-1.
- transmission / reception of control information for controlling the mobile station apparatus 1-1 is performed between the base station apparatus 3-1 of the macro cell and the base station apparatus 3-2 of the small cell.
- the procedure for the base station device 3-1 and the base station device 3-2 to determine the intermittent reception parameter for the mobile station device 1-1 to perform the intermittent reception operation is described below.
- the macro cell base station apparatus 3-1 communicates with the mobile station apparatus 1-1 using the cell 1
- the small cell base station apparatus 3-2 communicates with the mobile station apparatus 1-1 using the cell 2. . That is, an example is shown in which mobile station apparatus 1-1 communicates with base station apparatus 3-1 and base station apparatus 3-2 using cell 1 and cell 2 simultaneously.
- the base station device 3-1 determines the communication with the mobile station device 1-1 in the dual connection with the base station device 3-2, and then requests the base station device 3-2 to connect with the dual connection. Send a request message.
- the dual connect request message includes information on the mobile station device 1-1.
- the base station device 3-2 transmits to the base station device 3-1 a dual connect request response message indicating a response to the connection request with dual connect.
- the dual connect request response message includes the setting information of the cell 2 of the base station device 3-2 (FIG. 5).
- the base station device 3-1 transmits an intermittent reception parameter (for intermittent reception operation for the mobile station device 1-1 to the base station device before the dual connect request message is transmitted or after the dual connect request response message is received).
- An intermittent reception start offset, an intermittent reception cycle (DRX cycle), an intermittent reception period timer (on Duration timer), a reception extension period timer (Inactivity timer), a retransmission period timer (Retransmission timer), and the like are determined.
- the base station apparatus 3-1 determines several types of intermittent reception parameter candidates for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2.
- the base station apparatus 3-1 notifies the base station apparatus 3-2 of several types of determined intermittent reception parameter candidates.
- the base station apparatus 3-1 determines several types of candidates for all the intermittent reception parameters of the intermittent reception start offset, the intermittent reception period, the intermittent reception period timer, the reception extension period timer, and the retransmission period timer.
- the base station apparatus 3-2 may be notified.
- the base station apparatus 3-1 may determine several types of candidates for some parameters such as the intermittent reception start offset and the intermittent reception cycle, and notify the base station apparatus 3-2 of them.
- the base station apparatus 3-1 considers the intermittent reception parameters for the mobile station apparatus 1-1 determined earlier to perform the intermittent reception operation on the base station apparatus, and the mobile station apparatus 1-1 You may determine the candidate of the intermittent reception parameter for performing intermittent reception operation
- the base station device 3-2 selects an optimum intermittent reception parameter that the base station device provides to the mobile station device 1-1 from the candidates for the intermittent reception parameter acquired from the base station device 3-1.
- the base station device 3-2 notifies the information regarding the selected intermittent reception parameter to the base station device 3-1.
- the base station apparatus 3-2 When the base station apparatus 3-2 acquires several types of candidates for the intermittent reception parameter from the base station apparatus 3-1, the base station apparatus 3-2 determines an optimum parameter from the several types of candidates. If some of the intermittent reception parameters are not notified from the base station device 3-1, the parameters not notified are determined by the own base station device.
- the base station device 3-2 when the base station device 3-2 receives the intermittent reception start offset A, the set of the intermittent reception cycle A and the intermittent reception start offset B, and the set of the intermittent reception cycle B from the base station device 3-1, the base station device 3-2 starts the intermittent reception.
- One of the set of offset A, intermittent reception cycle A or intermittent reception start offset B, and intermittent reception cycle B is selected.
- the base station apparatus 3-2 determines the parameters of the intermittent reception period timer C, the reception extension period timer C, and the retransmission period timer C at its own base station apparatus.
- the base station apparatus 3-2 includes either the selected intermittent reception start offset A, the intermittent reception period A set or the intermittent reception start offset B, the intermittent reception period B set, the intermittent reception period timer C, or the reception extension period timer.
- C, the retransmission period timer C is determined as an intermittent reception parameter, and the determined intermittent reception parameter is notified to the base station apparatus 3-1.
- the base station apparatus 3-1 includes the intermittent reception parameter candidate notified to the base station apparatus 3-2 by the base station apparatus 3-1 in the dual connect request message for setting the dual connect. 2 may be notified. Further, the base station device 3-2 may notify the discontinuous reception parameter selected by the base station device 3-2 in a dual connect request response message.
- the base station device 3-2 provides the base station device 3-1 with several types of intermittent reception parameter candidates for the mobile station device 1-1 to perform an intermittent reception operation on the base station device 3-2.
- the base station apparatus 3-1 may determine intermittent reception parameters for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2 from several types of intermittent reception parameter candidates. .
- the mobile station apparatus 1-1 selects several types of intermittent reception parameter candidates for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2. decide.
- the base station apparatus 3-2 includes several types of intermittent reception parameter candidates in the dual connect request response message, and notifies the base station apparatus 3-1 of them.
- the base station apparatus 3-1 selects an intermittent reception parameter for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2 from among several types of intermittent reception parameter candidates.
- the base station device 3-1 notifies the selected intermittent reception parameter to the base station device 3-2.
- the mobile station device 1-1 1 When the base station device 3-1 acquires from the base station device 3-2 intermittent reception parameters for the mobile station device 1-1 to perform an intermittent reception operation on the base station device 3-2, the mobile station device 1-1 1 notifies the mobile station apparatus 1-1 of intermittent reception parameters and target cell identification information for performing an intermittent reception operation on each base station apparatus.
- the base station device 3-1 identifies the cell 1 identification information and the intermittent reception parameters (intermittent reception start offset, intermittent reception) for the mobile station device 1-1 to perform an intermittent reception operation on the base station device 3-1.
- the mobile station apparatus 1-1 is notified of the reception parameter set.
- the cell identification information includes information on a plurality of cells. Further, the cell identification information may be transmission timing group information. Further, the cell identification information may be indicated by information on a group in which the base station apparatus newly sets the same intermittent reception operation.
- the mobile station apparatus 1-1 When the mobile station apparatus 1-1 acquires the cell identification information and the intermittent reception parameter received from the base station apparatus 3-1, the mobile station apparatus 1-1 sets the intermittent reception parameter for the corresponding cell and performs intermittent reception for each cell. Perform the action.
- the base station device 3-1 notifies the base station device 3-2 of the data information of the mobile station device 1-1 (such as data quality of service (QoS)), and the base station device 3-2 is notified.
- the mobile station apparatus 1-1 may determine the intermittent reception parameters for the intermittent reception operation to the base station apparatus 3-2.
- the base station apparatus 3-1 determines intermittent reception parameters for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2 in consideration of data information, and the base station apparatus You may make it notify to 3-2.
- the base station apparatus 3-2 performs data scheduling for the mobile station apparatus 1-1 in consideration of the intermittent reception parameter notified from the base station apparatus 3-1.
- the base station device 3-1 sends to the mobile station device 1-1 the short-term intermittent reception parameter set A (cell identification information (cell 1 identification information), short-term intermittent reception cycle A, Intermittent reception start offset A, intermittent reception period timer A, extended reception period timer A, retransmission period timer A, short period intermittent reception period period timer A) and long-term intermittent reception parameter set B (long-term intermittent reception period B, intermittent Notification of reception start offset B, intermittent reception period timer B, reception extension period timer B, and retransmission period timer B).
- the short-term intermittent reception parameter set A cell identification information (cell 1 identification information), short-term intermittent reception cycle A, Intermittent reception start offset A, intermittent reception period timer A, extended reception period timer A, retransmission period timer A, short period intermittent reception period period timer A
- long-term intermittent reception parameter set B long-term intermittent reception period B, intermittent Notification of reception start offset B, intermittent reception period timer B, reception extension period timer B, and retransmission period timer B.
- the base station apparatus 3-1 sends to the mobile station apparatus 1-1 a short-term intermittent reception parameter set C (cell identification information (cell 2 identification information), short-period intermittent reception cycle C, Intermittent reception start offset C, intermittent reception period timer C, extended reception period timer C, retransmission period timer C, short period intermittent reception period period timer C) and long-term intermittent reception parameter set D (long-term intermittent reception period D, intermittent A reception start offset D, an intermittent reception period timer D, a reception extension period timer D, and a retransmission period timer D) are notified.
- a short-term intermittent reception parameter set C cell identification information (cell 2 identification information), short-period intermittent reception cycle C, Intermittent reception start offset C, intermittent reception period timer C, extended reception period timer C, retransmission period timer C, short period intermittent reception period period timer C
- long-term intermittent reception parameter set D long-term intermittent reception period D, intermittent A reception start offset D, an intermittent reception period timer D, a reception extension period time
- the mobile station apparatus 1-1 performs a short-term intermittent reception operation and a long-term intermittent reception operation for each cell (or each base station apparatus) using intermittent reception parameters set separately.
- each base station apparatus determines the short-term intermittent reception cycle (Short DRX cycle) of the intermittent reception cycle, and the base station device 3-1 for the long-term intermittent reception cycle (Long DRX cycle). May be determined.
- the base station device 3-1 includes an intermittent reception parameter for the mobile station device 1-1 to perform intermittent reception operation for a short period of time on the base station device 3-1, and the mobile station device 1-1 And the intermittent reception parameter for performing the long-term intermittent reception operation for the base station apparatus 3-2 is determined.
- the base station apparatus 3-1 determines the intermittent reception parameter candidates for the mobile station apparatus 1-1 to perform the short-term intermittent reception operation with respect to the base station apparatus 3-2, and the base station apparatus 3-2 Short-term intermittent reception parameter candidates and long-term intermittent reception parameters are notified.
- the mobile station device 1-1 performs short-term intermittent reception operation on the base station device 3-2 from the short-term intermittent reception parameter candidates notified from the base station device 3-1. Select the intermittent reception parameter to perform.
- the mobile station device 1-1 performs an intermittent reception operation with the intermittent reception cycle set separately for each cell (or each base station device).
- the mobile station apparatus 1-1 performs the intermittent reception operation at the same intermittent reception cycle for all the cells.
- the base station device 3-1 has the short-term intermittent reception parameter set A (cell identification information (cell 1 identification information), short-period intermittent reception cycle A, intermittent reception start offset A, intermittent reception period timer in cell 1.
- A reception extended period timer A, retransmission period timer A, short period intermittent reception cycle period timer A
- short period intermittent reception parameter set B in cell 2 cell identification information (cell 2 identification information)
- Short period intermittent reception cycle B intermittent reception start offset B
- intermittent reception period timer B extended reception period timer B
- retransmission period timer B short period intermittent reception period period timer B
- long-term intermittent reception parameter set Long-term intermittent reception cycle C, intermittent reception start offset C, intermittent reception period timer C, reception extended period timer C, retransmission period timer C
- the mobile station apparatus 1-1 performs an intermittent reception operation on the cell 1 using the intermittent reception parameters of the short-term intermittent reception parameter set A from the time T1 and The intermittent reception operation is performed using the intermittent reception parameters of the short-term intermittent reception parameter set B from T1.
- the mobile station apparatus 1-1 performs the intermittent reception operation using the long-term intermittent reception parameter set after the short-period intermittent reception cycle period specified by each short-period intermittent reception parameter set.
- the mobile station device 1-1 When the short-term intermittent reception cycle period timer A expires for the cell 1 at time T2, the mobile station device 1-1 performs an intermittent reception operation using the long-term intermittent reception parameter set. Further, when the short-term intermittent reception cycle period timer B expires for the cell 2 at time T3, the mobile station apparatus 1-1 performs an intermittent reception operation using the long-term intermittent reception parameter set.
- the mobile station apparatus 1-1 starts the long-term intermittent reception operation for one of the cells, and the long-term intermittent reception for the other cell.
- the operation may be started.
- the base station apparatus 3-1 includes a long-term intermittent reception parameter set, a long-term intermittent reception cycle A, an intermittent reception start offset A, an intermittent reception period timer A, a reception extension period timer A, and a retransmission period timer A.
- the cell identification information (cell 1 identification information), the short period intermittent reception cycle B and the short period intermittent reception cycle period B as the short period intermittent reception parameter set in cell 1, and the short period in cell 2 Cell identification information (cell 2 identification information) and short-term intermittent reception cycle C are notified as an intermittent reception parameter set.
- the base station apparatus 3-1 notifies the long-term intermittent reception cycle A, the intermittent reception start offset A, the intermittent reception period timer A, the reception extension period timer A, and the retransmission period timer A, and the short-term in the cell 1 Cell identification information (cell 1 identification information), short-term intermittent reception cycle B, and short-term intermittent reception cycle period timer B are determined as the intermittent reception parameter set, and the base station apparatus 3-2 determines that the short-term intermittent reception cycle C To decide.
- the mobile station apparatus 1-1 receives, for cell 1, a short-term intermittent reception cycle B, a short-period intermittent reception cycle period timer B, an intermittent reception start offset A, an intermittent reception period timer A, a reception Using the extension period timer A and the retransmission period timer A, the intermittent reception operation is performed from time T4, and the short period intermittent reception period C, the short period intermittent reception period period timer B, and the intermittent reception start offset A are performed for the cell 2. Using the intermittent reception period timer A, the reception extension period timer A, and the retransmission period timer A, the intermittent reception operation is performed from time T4.
- the mobile station device 1-1 makes a long-term intermittent reception cycle A, an intermittent reception start offset A, an intermittent reception period timer A, Using the reception extension period timer A and the retransmission period timer A, the intermittent reception operation is performed from time T5.
- the mobile station apparatus 1-1 uses the intermittent reception start offset A, the intermittent reception period timer A, the reception extension period timer A, the retransmission period timer A, and the short period intermittent reception cycle period B as parameters of the common intermittent reception operation. use.
- the operation of the reception extension period timer and the retransmission period timer may be performed for each target cell.
- the mobile station apparatus 1-1 may operate so that the start position of the intermittent reception period is the same frame regardless of the system frame number (System frame number, SFN) of the cell 1 and the cell 2. good. That is, the mobile station apparatus 1-1 may apply the start position of the intermittent reception period of the cell 1 determined by the intermittent reception start offset A to the cell 2 as well.
- system frame number System frame number, SFN
- the mobile station apparatus 1-1 performs different operations for each base station apparatus during dual connection, the amount of information is reduced by sharing each parameter such as a timer among the base station apparatuses. be able to.
- the base station apparatus 3-1 notifies the mobile station apparatus 1-1 of only one set of timers (retransmission timer, period timer) for notifying the buffer status report (BSR), and the mobile station apparatus 1-1
- the timer notified to each base station apparatus is set, and transmission control of the buffer status report is performed for each base station apparatus unit.
- PHR power headroom report
- each base station device provides one cell, but the same applies to the case where each base station device provides a plurality of cells.
- the base station device 3-1 notifies the mobile station device 1-1 of the identification information of the plurality of cells and the intermittent reception parameter set.
- the mobile station apparatus 1-1 sets the intermittent reception parameter indicated by the cell identification information, and performs an intermittent reception operation for each base station apparatus.
- the base station device 3-1 may be a cell other than the macro cell, for example, a small cell.
- the base station apparatus 3-2 may be a cell other than the small cell, for example, a macro cell.
- a mobile station device is described as an example of a terminal device or a communication device, but the present invention is not limited to this, and is a stationary or non-movable electronic device installed indoors and outdoors.
- terminal devices or communication devices such as AV equipment, kitchen equipment, cleaning / washing equipment, air conditioning equipment, office equipment, vending machines, and other daily life equipment.
- the mobile station apparatus 1-1, the base station apparatus 3-1 and the base station apparatus 3-2 of the embodiment have been described using functional block diagrams.
- the function of each part of the station apparatus 3-1 and the base station apparatus 3-2 or a program for realizing a part of these functions is recorded on a computer-readable recording medium, and the program recorded on the recording medium is recorded.
- the mobile station apparatus and the base station apparatus may be controlled by being read and executed by a computer system.
- the “computer system” here includes an OS and hardware such as peripheral devices.
- the “computer-readable recording medium” means a storage device such as a flexible disk, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system.
- the “computer-readable recording medium” means that a program is dynamically held for a short time, like a communication line when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In this case, it is intended to include those that hold a program for a certain period of time, such as a volatile memory inside a computer system serving as a server or a client in that case.
- the program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system. .
- each functional block used in each of the above embodiments may be realized as an LSI that is typically an integrated circuit.
- Each functional block may be individually formed into chips, or a part or all of them may be integrated into a chip.
- the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor.
- an integrated circuit based on the technology can also be used.
- the present invention can be applied to mobile phones, personal computers, tablet computers, and the like.
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Abstract
Provided is a wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells, wherein: the first base station device determines a first intermittent reception parameter-set used by a terminal device for executing an intermittent reception operation with respect to the first base station device, and the first base station device notifies the second base station device of information relating to the intermittent reception operation used by the terminal device for executing an intermittent reception operation with respect to the second base station device; and the second base station device, on the basis of the information relating to the intermittent reception operation, determines a second intermittent reception parameter-set used by the terminal device for executing an intermittent reception operation with respect to the second base station device, and the second base station device notifies the first base station device of the second intermittent reception parameter-set.
Description
本発明は、無線通信システム、基地局装置および端末装置に関連し、より詳細には、データの送受信制御に関する無線通信システム、基地局装置、端末装置、無線通信方法および集積回路に関する。
本願は、2013年10月4日に、日本に出願された特願2013-208721号に基づき優先権を主張し、その内容をここに援用する。 The present invention relates to a radio communication system, a base station apparatus, and a terminal apparatus, and more particularly to a radio communication system, a base station apparatus, a terminal apparatus, a radio communication method, and an integrated circuit related to data transmission / reception control.
This application claims priority based on Japanese Patent Application No. 2013-208721 filed in Japan on October 4, 2013, the contents of which are incorporated herein by reference.
本願は、2013年10月4日に、日本に出願された特願2013-208721号に基づき優先権を主張し、その内容をここに援用する。 The present invention relates to a radio communication system, a base station apparatus, and a terminal apparatus, and more particularly to a radio communication system, a base station apparatus, a terminal apparatus, a radio communication method, and an integrated circuit related to data transmission / reception control.
This application claims priority based on Japanese Patent Application No. 2013-208721 filed in Japan on October 4, 2013, the contents of which are incorporated herein by reference.
3GPP(3rd Generation Partnership Project)では、W-CDMA方式が第三世代セルラー移動通信方式として標準化され、サービスが行われている。また、通信速度を更に上げたHSDPAも標準化され、サービスが行われている。
In 3GPP (3rd Generation Partnership Project), the W-CDMA system is standardized as a third generation cellular mobile communication system, and services are provided. Also, HSDPA with higher communication speed has been standardized and is being serviced.
一方、3GPPでは、第三世代無線アクセスの進化(Evolved Universal Terrestrial Radio Access;以下、「EUTRA」と呼称する。)の標準化も行なわれ、サービスが開始されている。EUTRAの下りリンクの通信方式として、マルチパス干渉に強く、高速伝送に適したOFDM(Orthogonal Frequency Division Multiplexing)方式が採用されている。また、上りリンクの通信方式として、移動局装置のコストと消費電力を考慮し、送信信号のピーク電力対平均電力比PAPR(Peak to Average Power Ratio)を低減できるシングルキャリア周波数分割多重方式SC-FDMA(Single Carrier-Frequency Division Multiple Access)のDFT(Discrete Fourier Transform(離散フーリエ変換))-spread OFDM方式が採用されている。
On the other hand, in 3GPP, the evolution of third generation wireless access (Evolved Universal Terrestrial Radio Access; hereinafter referred to as “EUTRA”) has also been standardized, and the service has started. As an EUTRA downlink communication method, an OFDM (Orthogonal Frequency Division Division Multiplexing) method that is resistant to multipath interference and suitable for high-speed transmission is employed. In addition, as an uplink communication method, considering the cost and power consumption of the mobile station apparatus, a single carrier frequency division multiplexing SC-FDMA that can reduce the peak power to average power ratio PAPR (Peak to Average Power Ratio) of the transmission signal. (Single Carrier-Frequency Division Multiple Access) DFT (Discrete Fourier Transform) -spread OFDM system is adopted.
また、3GPPでは、EUTRAの更なる進化のAdvanced-EUTRAの議論も開始されている。Advanced-EUTRAでは、上りリンクおよび下りリンクでそれぞれ最大100MHz帯域幅までの帯域を使用して、最大で下りリンク1Gbps以上、上りリンク500Mbps以上の伝送レートの通信を行なうことが想定されている。
Also, 3GPP has begun discussions on Advanced-EUTRA, a further evolution of EUTRA. In Advanced-EUTRA, it is assumed that communication at a maximum transmission rate of 1 Gbps or more and uplink 500 Mbps or more is performed using a band up to a maximum of 100 MHz bandwidth in uplink and downlink.
Advanced-EUTRAでは、EUTRAの移動局装置も収容できるようにEUTRAと互換性のある帯域を複数個束ねることで、最大100MHz帯域を実現することが考えられている。尚、Advanced-EUTRAでは、EUTRAの1つの20MHz以下の帯域をコンポーネントキャリア(Component Carrier : CC)と呼ばれている。コンポーネントキャリアは、セル(Cell)とも呼ばれている。また、20MHz以下の帯域を束ねることをキャリアアグリゲーション(Carrier Aggregation:CA)と呼ばれている(非特許文献1)。
In Advanced-EUTRA, it is considered to realize a maximum of 100 MHz band by bundling a plurality of bands compatible with EUTRA so as to accommodate EUTRA mobile station apparatuses. In Advanced-EUTRA, one band of 20 MHz or less of EUTRA is called a component carrier (Component Carrier: CC). The component carrier is also called a cell. Further, bundling a band of 20 MHz or less is called carrier aggregation (Carrier Aggregation: CA) (Non-patent Document 1).
また、Advanced-EUTRAでは、マクロセル(Macro Cell)とマクロセルの範囲内にあるスモールセル(Small Cell)、またはスモールセル同士でキャリアアグリゲーションと同様の技術を用いて同時に接続することを検討している。マクロセルの範囲内にあるとは、周波数が異なることも含む。非特許文献2では、基地局装置と移動局装置間の通信において、移動局装置がマクロセルとスモールセルと同時に接続する場合に、マクロセルで制御情報(制御平面情報:Control-plane information)を送信し、スモールセルでユーザー情報(ユーザー平面情報:User-plane information)を送信することが提案されている。非特許文献2で示されているマクロセルとスモールセルと移動局装置が同時に接続する技術のことをデュアルコネクト(Dual Connect(またはデュアルコネクティビティ(Dual Connectivity))とも言う。
Further, in Advanced-EUTRA, it is considered that a macro cell and a small cell (Small cell) within the range of the macro cell, or a connection between the small cells at the same time using a technique similar to carrier aggregation. Being within the range of a macro cell includes a difference in frequency. In Non-Patent Document 2, in communication between a base station apparatus and a mobile station apparatus, when the mobile station apparatus connects simultaneously with a macro cell and a small cell, control information (control plane information: Control-plane information) is transmitted by the macro cell. It has been proposed to transmit user information (User-plane information) in a small cell. The technology for connecting the macro cell, the small cell, and the mobile station apparatus shown in Non-Patent Document 2 at the same time is also referred to as dual connect (or dual connectivity).
しかしながら、非特許文献2で示されたように基地局装置と移動局装置間の通信において、マクロセルの基地局装置と移動局装置間で制御情報を送受信し、スモールセルの基地局装置と移動局装置間でユーザー情報を送受信する場合、制御情報とユーザー情報を適切なセルで送信するように制御しなければならない。
However, as shown in Non-Patent Document 2, in communication between a base station apparatus and a mobile station apparatus, control information is transmitted and received between the base station apparatus of the macro cell and the mobile station apparatus, and the base station apparatus of the small cell and the mobile station When user information is transmitted and received between devices, control information and user information must be controlled to be transmitted in an appropriate cell.
また、基地局装置間が遅延のある低速の回線で接続されているため、基地局装置間の回線の遅延を考慮して、マクロセルの基地局装置およびスモールセルの基地局装置のそれぞれが、移動局装置に対して独立して下りリンク及び上りリンクのデータのスケジューリング及び下りリンクデータの送信を行うことが考えられている。
In addition, since the base station apparatuses are connected by a low-speed line with a delay, each of the macro cell base station apparatus and the small cell base station apparatus moves in consideration of the line delay between the base station apparatuses. It is considered to perform downlink and uplink data scheduling and downlink data transmission independently for a station apparatus.
両基地局装置は、データスケジューリングが独立して行われるために、もう一方の基地局装置が移動局装置にいつデータ送信を行ったかわからない。このために、1つの基地局装置に対して移動局装置が行っていた間欠受信動作は、デュアルコネクト時の移動局装置の間欠受信動作としては効率が悪い。
Since both base station apparatuses perform data scheduling independently, they do not know when the other base station apparatus has transmitted data to the mobile station apparatus. For this reason, the intermittent reception operation performed by the mobile station device for one base station device is inefficient as the intermittent reception operation of the mobile station device during dual connection.
本発明は、このような事情に鑑みてなされたものであり、デュアルコネクト時に移動局装置の間欠受信動作を効率良く動作させるための無線通信システム、基地局装置、移動局装置、無線通信方法及び集積回路を提供することを一目的とする。
The present invention has been made in view of such circumstances, and a radio communication system, a base station apparatus, a mobile station apparatus, a radio communication method, and a radio communication system for efficiently operating an intermittent reception operation of a mobile station apparatus during dual connection, and An object is to provide an integrated circuit.
(1)上記の目的を達成するために、本発明は、以下のような手段を講じた。すなわち、本発明の一態様に係る無線通信システムは、第一の基地局装置と第二の基地局装置とが複数セルを介して端末装置と通信を行う無線通信システムであって、前記第一の基地局装置は、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための第一の間欠受信パラメータセットを決定し、前記第二の基地局装置に前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を通知し、前記第二の基地局装置は、前記間欠受信動作に関する情報に基づいて、前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための第二の間欠受信パラメータセットを決定し、前記第二の間欠受信パラメータセットを前記第一の基地局装置に通知する。
(1) In order to achieve the above object, the present invention has taken the following measures. That is, a wireless communication system according to an aspect of the present invention is a wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells. The base station apparatus determines a first intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the first base station apparatus, and sends the terminal apparatus to the second base station apparatus. Notifies the second base station device of information related to the intermittent reception operation for executing the intermittent reception operation, and the second base station device uses the terminal device based on the information related to the intermittent reception operation. Determines a second intermittent reception parameter set for performing an intermittent reception operation on the second base station apparatus, and notifies the first base station apparatus of the second intermittent reception parameter set.
(2)また、上述の無線通信システムにおいて、前記間欠受信動作に関する情報は、複数種類の間欠受信パラメータセットであってもよい。
(2) In the above-described wireless communication system, the information regarding the intermittent reception operation may be a plurality of types of intermittent reception parameter sets.
(3)また、上述の無線通信システムにおいて、前記第一の基地局装置は、前記第二の基地局装置から前記第二の間欠受信パラメータセットを受信し、前記端末装置に前記第一の間欠受信パラメータセットと前記第二の間欠受信パラメータセットを通知するように構成されていてもよい。
(3) In the wireless communication system described above, the first base station device receives the second intermittent reception parameter set from the second base station device, and the terminal device receives the first intermittent reception parameter set. The reception parameter set and the second intermittent reception parameter set may be notified.
(4)本発明の他の一態様に係る基地局装置は、第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置であって、前記第一の基地局装置に前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を送信し、前記第一の基地局装置から、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを受信し、前記端末装置に前記間欠受信パラメータセットおよび前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを通知する。
(4) A base station apparatus according to another aspect of the present invention is a base station apparatus that communicates with a terminal apparatus via a plurality of cells together with a first base station apparatus, and the first base station apparatus includes: The terminal device transmits information on the intermittent reception operation for performing the intermittent reception operation to the first base station device, and the terminal device transmits the information from the first base station device to the first base station. An intermittent reception parameter set for performing an intermittent reception operation on a device is received, and the intermittent reception parameter set for the terminal device and an intermittent operation for the terminal device to perform an intermittent reception operation on its own base station device Notify the reception parameter set.
(5)また、上述の基地局装置は、前記間欠受信動作に関する情報は、複数種類の間欠受信パラメータセットであってもよく、複数種類の間欠受信パラメータセットを決定し、前記第一の基地局装置に前記複数種類の間欠受信パラメータセットを通知するように構成されていてもよい。
(5) In the base station apparatus described above, the information regarding the intermittent reception operation may be a plurality of types of intermittent reception parameter sets, and a plurality of types of intermittent reception parameter sets may be determined, and the first base station The apparatus may be configured to notify the apparatus of the plural types of intermittent reception parameter sets.
(6)また、本発明の他の一態様に係る基地局装置は、第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置であって、前記第一の基地局装置から前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を受信し、前記間欠受信動作に関する情報に基づいて、前記端末装置に自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを決定し、前記間欠受信パラメータセットを前記第一の基地局装置に通知する。
(6) Moreover, the base station apparatus which concerns on the other one aspect | mode of this invention is a base station apparatus which communicates with a terminal device via a several cell with a 1st base station apparatus, Comprising: Said 1st base station The terminal device receives information related to the intermittent reception operation for the terminal device to perform the intermittent reception operation on the base station device from the device, and based on the information related to the intermittent reception operation, the terminal device An intermittent reception parameter set for executing the intermittent reception operation is determined, and the intermittent reception parameter set is notified to the first base station apparatus.
(7)また、上述の基地局装置は、前記間欠受信動作に関する情報は、複数種類の間欠受信パラメータセットであってもよく、複数種類の間欠受信パラメータセットの中から1つの間欠受信パラメータセットを選択するように構成されていてもよい。
(7) In the base station apparatus described above, the information related to the intermittent reception operation may be a plurality of types of intermittent reception parameter sets, and one intermittent reception parameter set is selected from the plurality of types of intermittent reception parameter sets. It may be configured to select.
(8)本発明の他の一態様に係る端末装置は、第一の基地局装置および第二の基地局装置と複数セルを介して通信を行う端末装置であって、前記第一の基地局装置から短期間欠受信動作を実行するための間欠受信パラメータセットおよび長期間間欠受信動作を実行するための間欠受信パラメータセットを受信し、前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で異なる間欠受信動作を行い、前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で同じ間欠受信動作を行う。
(8) A terminal apparatus according to another aspect of the present invention is a terminal apparatus that communicates with a first base station apparatus and a second base station apparatus via a plurality of cells, wherein the first base station When receiving the intermittent reception parameter set for executing the short-term intermittent reception operation and the intermittent reception parameter set for executing the long-term intermittent reception operation from the device, and performing the short-term intermittent reception operation, the first base station device When the intermittent reception operation is different from the intermittent reception operation for the second base station device and the short-term intermittent reception operation is performed, the intermittent reception operation for the first base station device is performed. The same intermittent reception operation is performed in the intermittent reception operation for the second base station apparatus.
(9)本発明の他の一態様に係る無線通信方法は、第一の基地局装置と第二の基地局装置とが複数セルを介して端末装置と通信を行う無線通信システムの無線通信方法であって、前記第一の基地局装置は、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための第一の間欠受信パラメータセットを決定するステップと、前記第二の基地局装置に前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を通知するステップと、前記第二の基地局装置は、前記間欠受信動作に関する情報に基づいて、前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための第二の間欠受信パラメータセットを決定し、前記第二の間欠受信パラメータセットを前記第一の基地局装置に通知するステップと、を含む。
(9) A wireless communication method according to another aspect of the present invention is a wireless communication method for a wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells. The first base station apparatus determines a first intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the first base station apparatus; A step of notifying the second base station device of information related to the intermittent reception operation for the terminal device to perform an intermittent reception operation to the second base station device; and Based on the information related to the reception operation, the terminal device determines a second intermittent reception parameter set for performing the intermittent reception operation on the second base station device, and the second intermittent reception parameter set is determined. The first Comprising a step of notifying the Chikyoku device.
(10)本発明の他の一態様に係る集積回路は、第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置に適用される集積回路であって、前記第一の基地局装置に前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を送信する手段と、前記第一の基地局装置から、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを受信する手段と、前記端末装置に前記間欠受信パラメータセットおよび前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを通知する手段と、を有する。
(10) An integrated circuit according to another aspect of the present invention is an integrated circuit applied to a base station apparatus that communicates with a terminal apparatus through a plurality of cells together with the first base station apparatus, Means for transmitting information related to an intermittent reception operation for the terminal device to perform an intermittent reception operation to the first base station device, and the terminal device from the first base station device. Means for receiving an intermittent reception parameter set for performing an intermittent reception operation on the first base station device, the intermittent reception parameter set on the terminal device and the terminal device on the base station device Means for notifying an intermittent reception parameter set for performing the intermittent reception operation.
(11)また、本発明の他の一態様に係る集積回路は、第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置に適用される集積回路であって、前記第一の基地局装置から前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を受信する手段と、前記間欠受信動作に関する情報に基づいて、前記端末装置に自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを決定する手段と、前記間欠受信パラメータセットを前記第一の基地局装置に通知する手段と、を有する。
(11) An integrated circuit according to another aspect of the present invention is an integrated circuit applied to a base station apparatus that communicates with a terminal apparatus via a plurality of cells together with a first base station apparatus, Based on the information regarding the intermittent reception operation, the terminal device based on the information regarding the intermittent reception operation for the terminal device to execute the intermittent reception operation for the base station device from the first base station device And a means for determining an intermittent reception parameter set for performing an intermittent reception operation on the own base station apparatus, and a means for notifying the first base station apparatus of the intermittent reception parameter set.
(12)また、本発明の他の一態様に係る集積回路は、第一の基地局装置および第二の基地局装置と複数セルを介して通信を行う端末装置に適用される集積回路であって、前記第一の基地局装置から短期間欠受信動作を実行するための間欠受信パラメータセットおよび長期間間欠受信動作を実行するための間欠受信パラメータセットを受信する手段と、前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で異なる間欠受信動作を行い、前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で同じ間欠受信動作を行う手段と、を有する。
(12) An integrated circuit according to another aspect of the present invention is an integrated circuit applied to a terminal device that communicates with a first base station device and a second base station device via a plurality of cells. Means for receiving an intermittent reception parameter set for executing a short-term intermittent reception operation and an intermittent reception parameter set for executing a long-term intermittent reception operation from the first base station apparatus, and the short-term intermittent reception operation When performing the intermittent reception operation different for the intermittent reception operation for the first base station device and the intermittent reception operation for the second base station device, and performing the short-term intermittent reception operation, Means for performing the same intermittent reception operation in the intermittent reception operation for the base station device and the intermittent reception operation for the second base station device.
本発明の態様によれば、デュアルコネクト時に移動局装置で効率のよい間欠受信動作を行うことが可能となる。また、基地局装置は移動局装置に対して効率のよいデータスケジューリングを行うことができる。
According to the aspect of the present invention, it is possible to perform an efficient intermittent reception operation in the mobile station apparatus during dual connection. In addition, the base station apparatus can perform efficient data scheduling for the mobile station apparatus.
EUTRAの下りリンクとして、OFDM方式が採用されている。また、EUTRAの上りリンクとして、DFT-spread OFDM方式のシングルキャリア通信方式が採用されている。
The OFDM system is adopted as the downlink of EUTRA. Further, a DFT-spread OFDM single carrier communication system is employed as the uplink of EUTRA.
図8は、EUTRAの物理チャネル構成を示す図である。下りリンクの物理チャネルは、物理下りリンク共用チャネルPDSCH(Physical Downlink Shared Channel)、物理下りリンク制御チャネルPDCCH(Physical Downlink Control Channel)、物理報知チャネルPBCH(Physical Broadcast Channel)により構成されている。この他に下りリンク同期信号、下りリンク参照信号の物理信号がある(非特許文献1)。
FIG. 8 is a diagram showing a physical channel configuration of EUTRA. The downlink physical channel includes a physical downlink shared channel PDSCH (Physical Downlink Shared Channel), a physical downlink control channel PDCCH (Physical Downlink Control Channel), and a physical broadcast channel PBCH (Physical Broadcast Channel). In addition, there are physical signals such as downlink synchronization signals and downlink reference signals (Non-Patent Document 1).
上りリンクの物理チャネルは、物理ランダムアクセスチャネルPRACH(Physical Random Access Channel)、物理上りリンク共用チャネルPUSCH(Physical Uplink Shared Channel)、物理上りリンク制御チャネルPUCCH(Physical Uplink Control Channel)により構成されている(非特許文献1)。
The uplink physical channel is composed of a physical random access channel PRACH (Physical Random Access Channel), a physical uplink shared channel PUSCH (Physical Uplink Shared Channel), and a physical uplink control channel PUCCH (Physical Uplink Control Channel) ( Non-patent document 1).
図9は、EUTRAの下りリンクのチャネル構成を示す図である。図9に示す下りリンクのチャネルは、それぞれ論理チャネル、トランスポートチャネル、物理チャネルから構成されている。論理チャネルは、媒体アクセス制御(MAC:Medium Access Control)層で送受信されるデータ送信サービスの種類を定義する。トランスポートチャネルは、無線インターフェースで送信されるデータがどのような特性をもち、そのデータがどのように送信されるのかを定義する。物理チャネルは、トランスポートチャネルによって物理層に伝達されたデータを運ぶ物理的なチャネルである。
FIG. 9 is a diagram illustrating a downlink channel configuration of EUTRA. The downlink channels shown in FIG. 9 are each composed of a logical channel, a transport channel, and a physical channel. The logical channel defines the type of data transmission service that is transmitted and received in a medium access control (MAC) layer. The transport channel defines what characteristics the data transmitted over the air interface has and how it is transmitted. A physical channel is a physical channel that carries data conveyed to the physical layer by a transport channel.
下りリンクの論理チャネルには、報知制御チャネルBCCH(Broadcast Control Channel)、ページング制御チャネルPCCH(Paging Control Channel)、共通制御チャネルCCCH(Common Control Channel)、専用制御チャネルDCCH(Dedicated Control Channel)、専用トラフィックチャネルDTCH(Dedicated Traffic Channel)が含まれる。
The downlink logical channels include broadcast control channel BCCH (Broadcast Control Channel), paging control channel PCCH (Paging Control Channel), common control channel CCCH (Common Control Channel), dedicated control channel DCCH (Dedicated Control Channel), and dedicated traffic. A channel DTCH (Dedicated Traffic Channel) is included.
下りリンクのトランスポートチャネルには、報知チャネルBCH(Broadcast Channel)、ページングチャネルPCH(Paging Channel)、下りリンク共用チャネルDL-SCH(Downlink Shared Channel)が含まれる。
The downlink transport channels include a broadcast channel BCH (Broadcast Channel), a paging channel PCH (Paging Channel), and a downlink shared channel DL-SCH (Downlink Shared Channel).
下りリンクの物理チャネルには、物理報知チャネルPBCH(Physical Broadcast Channel)、物理下りリンク制御チャネルPDCCH(Physical Downlink Control Channel)、物理下りリンク共用チャネルPDSCH(Physical Downlink Shared Channel)が含まれる。これらのチャネルは、基地局装置と移動局装置の間で送受信される。
The downlink physical channels include a physical broadcast channel PBCH (Physical Broadcast Channel), a physical downlink control channel PDCCH (Physical Downlink Control Channel), and a physical downlink shared channel PDSCH (Physical Downlink Shared Channel). These channels are transmitted and received between the base station apparatus and the mobile station apparatus.
次に、論理チャネルについて説明する。報知制御チャネルBCCHは、システム制御情報を報知するために使用される下りリンクチャネルである。ページング制御チャネルPCCHは、ページング情報を送信するために使用される下りリンクチャネルであり、ネットワークが移動局装置のセル位置を知らないときに使用される。共通制御チャネルCCCHは、移動局装置とネットワーク間の制御情報を送信するために使用されるチャネルであり、ネットワークと無線リソース制御(RRC:Radio Resource Control)接続を有していない移動局装置によって使用される。
Next, the logical channel will be described. Broadcast control channel BCCH is a downlink channel used to broadcast system control information. The paging control channel PCCH is a downlink channel used for transmitting paging information, and is used when the network does not know the cell position of the mobile station apparatus. The common control channel CCCH is a channel used for transmitting control information between the mobile station apparatus and the network, and is used by a mobile station apparatus that does not have a radio resource control (RRC) connection with the network. Is done.
専用制御チャネルDCCHは、1対1(point-to-point)の双方向チャネルであり、移動局装置とネットワーク間で個別の制御情報を送信するために利用するチャネルである。専用制御チャネルDCCHは、RRC接続を有している移動局装置によって使用される。専用トラフィックチャネルDTCHは、1対1の双方向チャネルであり、1つの移動局装置専用のチャネルであって、ユーザー情報(ユニキャストデータ)の転送のために利用される。
The dedicated control channel DCCH is a one-to-one (point-to-point) bidirectional channel and is a channel used for transmitting individual control information between the mobile station apparatus and the network. The dedicated control channel DCCH is used by a mobile station apparatus having an RRC connection. The dedicated traffic channel DTCH is a one-to-one bidirectional channel, is a channel dedicated to one mobile station apparatus, and is used for transferring user information (unicast data).
次に、トランスポートチャネルについて説明する。報知チャネルBCHは、固定かつ事前に定義された送信形式によって、セル全体に報知される。下りリンク共用チャネルDL-SCHでは、HARQ(Hybrid Automatic Repeat Request:ハイブリッド自動再送要求)、動的適応無線リンク制御、間欠受信(DRX:Discontinuous Reception)がサポートされ、セル全体に報知される必要がある。
Next, the transport channel will be described. The broadcast channel BCH is broadcast to the entire cell in a fixed and predefined transmission format. The downlink shared channel DL-SCH supports HARQ (Hybrid Automatic Repeat Request), dynamic adaptive radio link control, and discontinuous reception (DRX: Discontinuous Reception), and needs to be broadcast to the entire cell. .
ページングチャネルPCHでは、間欠受信(DRX)がサポートされ、セル全体に報知される必要がある。また、ページングチャネルPCHは、トラフィックチャネルや他の制御チャネルに対して動的に使用される物理リソース、すなわち物理下りリンク共用チャネルPDSCHにマッピングされる。
The paging channel PCH supports discontinuous reception (DRX) and needs to be broadcast to the entire cell. The paging channel PCH is mapped to a physical resource that is dynamically used for a traffic channel and other control channels, that is, a physical downlink shared channel PDSCH.
次に、物理チャネルについて説明する。物理報知チャネルPBCHは、40ミリ秒周期で報知チャネルBCHをマッピングする。物理下りリンク制御チャネルPDCCHは、下りリンク共用チャネルPDSCHの無線リソース割り当て(下りリンク割り当て:Downlink assignment)、下りリンクデータに対するハイブリッド自動再送要求(HARQ)情報、および、物理上りリンク共用チャネルPUSCHの無線リソース割り当てである上りリンク送信許可(上りリンクグラント:Uplink grant)を移動局装置に通知するために使用されるチャネルである。物理下りリンク共用チャネルPDSCHは、下りリンクデータまたはページング情報を送信するために使用されるチャネルである。
Next, the physical channel will be described. The physical broadcast channel PBCH maps the broadcast channel BCH with a period of 40 milliseconds. The physical downlink control channel PDCCH includes radio resource assignment (downlink assignment) of the downlink shared channel PDSCH, hybrid automatic repeat request (HARQ) information for downlink data, and radio resources of the physical uplink shared channel PUSCH. It is a channel used to notify the mobile station apparatus of uplink transmission permission (uplink grant) that is an assignment. The physical downlink shared channel PDSCH is a channel used for transmitting downlink data or paging information.
尚、物理下りリンク制御チャネルPDCCHは、1サブフレームの先頭からリソースブロックの1~3シンボルOFDMに配置され、下りリンク共用チャネルPDSCHは、残りのOFDMシンボルに配置される。1リソースブロックは、12本のサブキャリアと7つのOFDMシンボルから構成される。1サブフレームは、2つのリソースブロックから構成され、1フレームは、10サブフレームで構成される。
Note that the physical downlink control channel PDCCH is arranged in the 1 to 3 symbol OFDM of the resource block from the head of one subframe, and the downlink shared channel PDSCH is arranged in the remaining OFDM symbols. One resource block is composed of 12 subcarriers and 7 OFDM symbols. One subframe is composed of two resource blocks, and one frame is composed of 10 subframes.
また、基地局装置が物理下りリンク制御チャネルPDCCHで移動局装置に物理下りリンク共用チャネルPDSCHの無線リソース割り当てを移動局装置に通知した場合、移動局装置に割り当てられた物理下りリンク共用チャネルPDSCHの領域は、下りリンク割り当てが通知された物理下りリンク制御チャネルPDCCHと同じサブフレーム内の物理下りリンク共用チャネルPDSCHである。
In addition, when the base station apparatus notifies the mobile station apparatus of radio resource allocation of the physical downlink shared channel PDSCH to the mobile station apparatus using the physical downlink control channel PDCCH, the physical downlink shared channel PDSCH allocated to the mobile station apparatus The region is the physical downlink shared channel PDSCH in the same subframe as the physical downlink control channel PDCCH in which the downlink assignment is notified.
次に、チャネルマッピングについて説明する。図9に示されるように、下りリンクでは、次のようにトランスポートチャネルと物理チャネルのマッピングが行われる。報知チャネルBCHは、物理報知チャネルPBCHにマッピングされる。ページングチャネルPCHおよび下りリンク共用チャネルDL-SCHは、物理下りリンク共用チャネルPDSCHにマッピングされる。物理下りリンク制御チャネルPDCCHは、物理チャネル単独で使用される。
Next, channel mapping will be described. As shown in FIG. 9, in the downlink, mapping between the transport channel and the physical channel is performed as follows. Broadcast channel BCH is mapped to physical broadcast channel PBCH. The paging channel PCH and the downlink shared channel DL-SCH are mapped to the physical downlink shared channel PDSCH. The physical downlink control channel PDCCH is used as a physical channel alone.
また、下りリンクにおいて、次のように論理チャネルとトランスポートチャネルのマッピングが行われる。ページング制御チャネルPCCHは、ページングチャネルPCHにマッピングされる。報知制御チャネルBCCHは、報知チャネルBCHと下りリンク共用チャネルDL-SCHにマッピングされる。共通制御チャネルCCCH、専用制御チャネルDCCH、専用トラフィックチャネルDTCHは、下りリンク共用チャネルDL-SCHにマッピングされる。
Also, in the downlink, mapping between logical channels and transport channels is performed as follows. The paging control channel PCCH is mapped to the paging channel PCH. Broadcast control channel BCCH is mapped to broadcast channel BCH and downlink shared channel DL-SCH. The common control channel CCCH, the dedicated control channel DCCH, and the dedicated traffic channel DTCH are mapped to the downlink shared channel DL-SCH.
図10は、EUTRAの上りリンクのチャネル構成を示す図である。図10に示す上りリンクのチャネルは、それぞれ論理チャネル、トランスポートチャネル、物理チャネルから構成されている。各チャネルの定義は下りリンクのチャネルと同じである。
FIG. 10 is a diagram showing an uplink channel configuration of EUTRA. The uplink channels shown in FIG. 10 are each composed of a logical channel, a transport channel, and a physical channel. The definition of each channel is the same as the downlink channel.
上りリンクの論理チャネルには、共通制御チャネルCCCH(Common Control Channel)、専用制御チャネルDCCH(Dedicated Control Channel)、専用トラフィックチャネルDTCH(Dedicated Traffic Channel)が含まれる。
The uplink logical channels include a common control channel CCCH (Common Control Channel), a dedicated control channel DCCH (Dedicated Control Channel), and a dedicated traffic channel DTCH (Dedicated Traffic Channel).
上りリンクのトランスポートチャネルには、上りリンク共用チャネルUL-SCH(Uplink Shared Channel)とランダムアクセスチャネルRACH(Random Access Channel)が含まれる。
The uplink transport channel includes an uplink shared channel UL-SCH (Uplink Shared Channel) and a random access channel RACH (Random Access Channel).
上りリンクの物理チャネルには、物理上りリンク制御チャネルPUCCH(Physical Uplink Control Channel)、物理上りリンク共用チャネルPUSCH(Physical Uplink Shared Channel)と物理ランダムアクセスチャネルPRACH(Physical Random Access Channel)が含まれる。これらのチャネルは、基地局装置と移動局装置の間で送受信される。尚、物理ランダムアクセスチャネルPRACHは、主に移動局装置から基地局装置への送信タイミング情報を取得するためのランダムアクセスプリアンブル送信に使用される。ランダムアクセスプリアンブル送信はランダムアクセス手順の中で行なわれる。
The uplink physical channels include a physical uplink control channel PUCCH (Physical Uplink Control Channel), a physical uplink shared channel PUSCH (Physical Uplink Shared Channel) and a physical random access channel PRACH (Physical Random Access Channel). These channels are transmitted and received between the base station apparatus and the mobile station apparatus. The physical random access channel PRACH is mainly used for random access preamble transmission for acquiring transmission timing information from the mobile station apparatus to the base station apparatus. Random access preamble transmission is performed in a random access procedure.
次に、論理チャネルについて説明する。共通制御チャネルCCCHは、移動局装置とネットワーク間の制御情報を送信するために使用されるチャネルであり、ネットワークと無線リソース制御(RRC:Radio Resource Control)接続を有していない移動局装置によって使用される。
Next, the logical channel will be described. The common control channel CCCH is a channel used for transmitting control information between the mobile station apparatus and the network, and is used by a mobile station apparatus that does not have a radio resource control (RRC) connection with the network. Is done.
専用制御チャネルDCCHは、1対1(point-to-point)の双方向チャネルであり、移動局装置とネットワーク間で個別の制御情報を送信するために利用するチャネルである。専用制御チャネルDCCHは、RRC接続を有している移動局装置によって使用される。専用トラフィックチャネルDTCHは、1対1の双方向チャネルであり、1つの移動局装置専用のチャネルであって、ユーザー情報(ユニキャストデータ)の転送のために利用される。
The dedicated control channel DCCH is a one-to-one (point-to-point) bidirectional channel and is a channel used for transmitting individual control information between the mobile station apparatus and the network. The dedicated control channel DCCH is used by a mobile station apparatus having an RRC connection. The dedicated traffic channel DTCH is a one-to-one bidirectional channel, is a channel dedicated to one mobile station apparatus, and is used for transferring user information (unicast data).
次に、トランスポートチャネルについて説明する。上りリンク共用チャネルUL-SCHでは、HARQ(Hybrid Automatic Repeat Request:ハイブリッド自動再送要求)、動的適応無線リンク制御、間欠送信(DTX:Discontinuous Transmission)がサポートされる。ランダムアクセスチャネルRACHでは、制限された制御情報が送信される。
Next, the transport channel will be described. The uplink shared channel UL-SCH supports HARQ (Hybrid Automatic Repeat Request), dynamic adaptive radio link control, and discontinuous transmission (DTX). Limited control information is transmitted on the random access channel RACH.
次に、物理チャネルについて説明する。物理上りリンク制御チャネルPUCCHは、下りリンクデータに対する応答情報(ACK/NACK)、下りリンクの無線品質情報および、上りリンクデータの送信要求(スケジューリングリクエスト:Scheduling Request:SR)を基地局装置に通知するために使用されるチャネルである。物理上りリンク共用チャネルPUSCHは、上りリンクデータを送信するために使用されるチャネルである。物理ランダムアクセスチャネルは、ランダムアクセスプリアンブルを送信するために使用されるチャネルである。
Next, the physical channel will be described. The physical uplink control channel PUCCH notifies the base station apparatus of response information (ACK / NACK) for downlink data, downlink radio quality information, and an uplink data transmission request (scheduling request: Scheduling Request: SR). Is the channel used for. The physical uplink shared channel PUSCH is a channel used for transmitting uplink data. The physical random access channel is a channel used for transmitting a random access preamble.
次に、チャネルマッピングについて説明する。図10に示されるように、上りリンクでは、次のようにトランスポートチャネルと物理チャネルのマッピングが行われる。上りリンク共用チャネルUL-SCHは、物理上りリンク共用チャネルPUSCHにマッピングされる。ランダムアクセスチャネルRACHは、物理ランダムアクセスチャネルPRACHにマッピングされる。物理上りリンク制御チャネルPUCCHは、物理チャネル単独で使用される。
Next, channel mapping will be described. As shown in FIG. 10, in the uplink, mapping between the transport channel and the physical channel is performed as follows. The uplink shared channel UL-SCH is mapped to the physical uplink shared channel PUSCH. The random access channel RACH is mapped to the physical random access channel PRACH. The physical uplink control channel PUCCH is used as a physical channel alone.
また、上りリンクにおいて、次のように論理チャネルとトランスポートチャネルのマッピングが行われる。共通制御チャネルCCCH、専用制御チャネルDCCH、専用トラフィックチャネルDTCHは、上りリンク共用チャネルUL-SCHにマッピングされる。
Also, in the uplink, the logical channel and the transport channel are mapped as follows. The common control channel CCCH, the dedicated control channel DCCH, and the dedicated traffic channel DTCH are mapped to the uplink shared channel UL-SCH.
3GPPでは、EUTRAの更なる進化のAdvanced-EUTRAの議論も行われている。Advanced-EUTRAでは、上りリンクおよび下りリンクでそれぞれ最大100MHz帯域幅までの帯域を使用して、最大で下りリンク1Gbps以上、上りリンク500Mbps以上の伝送レートの通信を行なうことを想定している。
3GPP is also discussing Advanced-EUTRA, a further evolution of EUTRA. In Advanced-EUTRA, it is assumed that communication at a maximum transmission rate of 1 Gbps or higher and 500 Mbps or higher of the uplink is performed using a band up to a maximum of 100 MHz bandwidth in the uplink and the downlink, respectively.
Advanced-EUTRAでは、EUTRAの移動局装置も収容できるようにEUTRAの20MHz以下の帯域を複数個束ねることで、最大で100MHz帯域を実現することを考えている。尚、Advanced-EUTRAでは、EUTRAの1つの20MHz以下の帯域をコンポーネントキャリア(Component Carrier : CC)と呼んでいる(非特許文献1)。また、1つの下りリンクのコンポーネントキャリアと1つの上りリンクのコンポーネントキャリアを組み合わせて1つのセルを構成する。尚、1つの下りリンクコンポーネントキャリアのみでも1つのセルを構成できる。複数セルを束ねて、複数セルを介して基地局装置と移動局装置が通信を行うことをキャリアアグリゲーションと言う。
Advanced-EUTRA is considering to realize a maximum of 100 MHz band by bundling a plurality of bands below 20 MHz of EUTRA so that EUTRA mobile station devices can be accommodated. In Advanced-EUTRA, one band of 20 MHz or less of EUTRA is called a component carrier (Component Carrier: CC) (Non-patent Document 1). Further, one cell is configured by combining one downlink component carrier and one uplink component carrier. A single cell can be configured with only one downlink component carrier. Bundling a plurality of cells and performing communication between the base station apparatus and the mobile station apparatus via the plurality of cells is called carrier aggregation.
1つの基地局装置が、移動局装置の通信能力や通信条件にあった複数のセルを割り当て、割り当てた複数のセルを介して移動局装置と通信を行なうようにしている。尚、移動局装置に割り当てられた複数のセルは、1つのセルを第一セル(Primary Cell:PCell)とそれ以外のセルを第二セル(Secondary Cell:SCell)とに分類される。第一セルには、物理上りリンク制御チャネルPUCCHの割り当てなど特別な機能が設定されている。
One base station apparatus allocates a plurality of cells that match the communication capability and communication conditions of the mobile station apparatus, and communicates with the mobile station apparatus via the allocated plurality of cells. In addition, the some cell allocated to the mobile station apparatus is classified into a 1st cell (Primary Cell: PCell) and a cell other than that as a 2nd cell (Secondary Cell: SCell). A special function such as allocation of the physical uplink control channel PUCCH is set in the first cell.
また、移動局装置の消費電力を少なくするために、割り当て直後の第二セルに対し、移動局装置は下りリンクの受信処理を行わない(または、物理下りリンク制御チャネルPDCCHで指示された無線リソース割り当て情報に従わない)。そして、移動局装置は、基地局装置から第二セルに対してアクティベート(Activate)を指示された後、アクティベートを指示された第二セルに対して下りリンクの受信処理を開始する(または、物理下りリンク制御チャネルPDCCHで指示された無線リソース割り当て情報に従う)ようにしている。
Also, in order to reduce the power consumption of the mobile station apparatus, the mobile station apparatus does not perform downlink reception processing on the second cell immediately after allocation (or the radio resource indicated by the physical downlink control channel PDCCH). Does not follow the allocation information). Then, after the mobile station apparatus is instructed to activate the second cell from the base station apparatus, the mobile station apparatus starts downlink reception processing for the second cell instructed to activate (or physically According to the radio resource allocation information indicated by the downlink control channel PDCCH).
また、移動局装置は、基地局装置からアクティベートしている第二セルに対してデアクティベート(deactivate)を指示された後、デアクティベートを指示された第二セルに対して下りリンクの受信処理を停止する(または、物理下りリンク制御チャネルPDCCHで指示された無線リソース割り当て情報に従わない)ようにしている。尚、基地局装置からアクティベートを指示され、下りリンクの受信処理を行っている第二セルをアクティベートセルと言い、また、基地局装置から移動局装置への割り当て直後の第二セル及びデアクティベートを指示され、下りリンクの受信処理を停止している第二セルをデアクティベートセルと言う。また、第一セルは、常にアクティベートセルである。
In addition, after the mobile station apparatus is instructed to deactivate the second cell activated by the base station apparatus, the mobile station apparatus performs downlink reception processing for the second cell instructed to deactivate. It stops (or does not follow the radio resource allocation information indicated by the physical downlink control channel PDCCH). The second cell that is instructed to activate by the base station device and is performing downlink reception processing is called an activation cell, and the second cell and deactivation immediately after allocation from the base station device to the mobile station device The second cell that has been instructed and has stopped the downlink reception process is called a deactivated cell. The first cell is always an activated cell.
尚、Advanced-EUTRAでは、物理下りリンク制御チャネルPDCCHを拡張させた拡張物理下りリンク制御チャネルEPDCCH(Enhanced Physical Downlink Control Channel)が追加されている。
In Advanced-EUTRA, an enhanced physical downlink control channel EPDCCH (Enhanced-Physical-Downlink-Control-Channel) obtained by extending the physical downlink control channel PDCCH is added.
図11は、EUTRAの移動局装置及び基地局装置の制御データを扱うプロトコルスタック(Protocol stack)である。図12は、EUTRAの移動局装置及び基地局装置のユーザーデータを扱うプロトコルスタックである。図11及び図12について以下で説明する。
FIG. 11 shows a protocol stack that handles control data of the mobile station apparatus and base station apparatus of EUTRA. FIG. 12 is a protocol stack for handling user data of EUTRA mobile station apparatuses and base station apparatuses. 11 and 12 will be described below.
物理層(Physical layer:PHY層)は、物理チャネル(Physical Channel)を利用して上位層に伝送サービスを提供する。PHY層は、上位の媒体アクセス制御層(Medium Access Control layer:MAC層)とトランスポートチャネルで接続される。トランスポートチャネルを介して、MAC層とPHY層とレイヤ(layer:層)間でデータが移動する。移動局装置と基地局装置のPHY層間において、物理チャネルを介してデータの送受信が行われる。
The physical layer (Physical layer: PHY layer) provides a transmission service to an upper layer using a physical channel (Physical layer). The PHY layer is connected to an upper medium access control layer (Medium Access Control Layer) via a transport channel. Data moves between the MAC layer, the PHY layer, and the layer (layer) via the transport channel. Data transmission / reception is performed between the mobile station apparatus and the base station apparatus via a physical channel.
MAC層は、多様な論理チャネルを多様なトランスポートチャネルにマッピングを行う。MAC層は、上位の無線リンク制御層(Radio Link Control layer:RLC層)とは論理チャネルで接続される。論理チャネルは、伝送される情報の種類によって大きく分けられ、制御情報を伝送する制御チャネルとユーザー情報を伝送するトラフィックチャネルに分けられる。MAC層は、間欠受送信(DRX・DTX)を行うためにPHY層の制御を行う機能、送信電力の情報を通知する機能、HARQ制御を行う機能等を持っている。
The MAC layer maps various logical channels to various transport channels. The MAC layer is connected to an upper radio link control layer (Radio Link Control Layer: RLC layer) through a logical channel. The logical channel is roughly classified according to the type of information to be transmitted, and is divided into a control channel for transmitting control information and a traffic channel for transmitting user information. The MAC layer has a function of controlling the PHY layer to perform intermittent transmission / reception (DRX / DTX), a function of notifying transmission power information, a function of performing HARQ control, and the like.
また、MAC層は、各論理チャネルに対応する送信バッファのデータ量を通知する機能を持っている。この機能をバッファステータスレポート(Buffer Status Report:BSR)と言う。BSRでは、各論理チャネルを論理チャネルグループ(Logical Channel Group:LCG)に割り当て、各LCGに対する送信バッファ量をMAC層のメッセージとして基地局装置に通知する。BSRがトリガされる条件の例として、1つの定期的なタイマーが満了した場合にBSRがトリガされ、BSRを通知する。
Also, the MAC layer has a function of notifying the data amount of the transmission buffer corresponding to each logical channel. This function is called buffer status report (Buffer Status Report: BSR). In BSR, each logical channel is assigned to a logical channel group (Logical Channel Group: LCG), and the transmission buffer amount for each LCG is notified to the base station apparatus as a MAC layer message. As an example of a condition that triggers a BSR, the BSR is triggered to notify the BSR when one periodic timer expires.
また、MAC層は、キャリアアグリゲーションを行う場合、セルのアクティベーション/デアクティベーションを行うためにPHY層の制御を行う機能及び上りリンクの送信タイミングを管理するためにPHY層の制御を行う機能も持っている。
In addition, when performing carrier aggregation, the MAC layer also has a function of controlling the PHY layer in order to activate / deactivate cells and a function of controlling the PHY layer in order to manage uplink transmission timing. ing.
RLC層は、上位層から受信したデータを分割(Segmentation)及び連結(Concatenation)し、下位層が適切にデータ送信できるようにデータサイズを調節する。また、RLC層は、各データが要求するQoS(Quality of Service)を保証するための機能も持つ。すなわち、RLC層は、データの再送制御等の機能を持つ。
The RLC layer divides and concatenates the data received from the upper layer, and adjusts the data size so that the lower layer can transmit data appropriately. The RLC layer also has a function for guaranteeing QoS (Quality of Service) required by each data. That is, the RLC layer has functions such as data retransmission control.
パケットデータコンバージェンスプロトコル層(Packet Data Convergence Protocol layer:PDCP層)は、ユーザーデータであるIPパケットを無線区間で効率的に伝送するために、不要な制御情報の圧縮を行うヘッダ圧縮機能を持つ。また、PDCP層は、データの暗号化の機能も持つ。
The packet data convergence protocol layer (Packet Data Convergence Protocol layer: PDCP layer) has a header compression function that compresses unnecessary control information in order to efficiently transmit IP packets as user data in a wireless section. The PDCP layer also has a data encryption function.
無線リソース制御層(Radio Resource Control layer:RRC層)は、制御情報のみ定義される。RRC層は、無線ベアラ(Radio Bearer:RB)の設定・再設定を行い、論理チャネル、トランスポートチャネル及び物理チャネルの制御を行う。RBは、シグナリグ無線ベアラ(Signaling Radio Bearer:SRB)とデータ無線ベアラ(Data Radio Bearer:DRB)とに分けられ、SRBは、制御情報であるRRCメッセージを送信する経路として利用される。DRBは、ユーザー情報を送信する経路として利用される。基地局装置と移動局装置のRRC層間で各RBの設定が行われる。
The radio resource control layer (Radio Resource Control layer: RRC layer) defines only control information. The RRC layer sets and resets a radio bearer (RB) and controls a logical channel, a transport channel, and a physical channel. The RB is divided into a signal radio bearer (Signaling Radio Bearer: SRB) and a data radio bearer (Data Radio Bearer: DRB), and the SRB is used as a path for transmitting an RRC message as control information. DRB is used as a route for transmitting user information. Each RB is set between the RRC layers of the base station apparatus and the mobile station apparatus.
尚、PHY層は一般的に知られる開放型システム間相互接続(Open Systems Interconnection:OSI)モデルの階層構造の中で第一層の物理層に対応し、MAC層、RLC層及びPDCP層はOSIモデルの第二層であるデータリンク層に対応し、RRC層はOSIモデルの第三層であるネットワーク層に対応する。
The PHY layer corresponds to the first physical layer in the hierarchical structure of the generally known Open Systems Interconnection (OSI) model, and the MAC layer, RLC layer, and PDCP layer are OSI. The RRC layer corresponds to the data link layer, which is the second layer of the model, and the network layer, which is the third layer of the OSI model.
間欠受信(DRX:Discontinuous Reception)制御/間欠送信(DTX:Discontinuous Transmission)制御について以下に説明する。EUTRAにおいて、基地局装置による各移動局装置への無線リソース割り当て(無線リソーススケジューリング)を効率的に行うため、また、移動局装置の消費電力低減などのために間欠受信制御/間欠送信制御が行われる。間欠受信制御は、複数種類のタイマーを用いて管理される。移動局装置は、基地局装置から間欠受信(DRX)パラメータセット(間欠受信開始オフセット、間欠受信周期(DRX cycle)、間欠受信期間タイマー(on Duration timer)、受信延長期間タイマー(Inactivity timer)、再送信期間タイマー(Retransmission timer)等)を受信すると各タイマーを用いて間欠受信制御を開始する。
Discontinuous reception (DRX) control / discontinuous transmission (DTX) control will be described below. In EUTRA, intermittent reception control / intermittent transmission control is performed in order to efficiently perform radio resource allocation (radio resource scheduling) to each mobile station apparatus by the base station apparatus and to reduce power consumption of the mobile station apparatus. Is called. The intermittent reception control is managed using a plurality of types of timers. The mobile station apparatus receives a discontinuous reception (DRX) parameter set (intermittent reception start offset, intermittent reception period (DRX cycle), intermittent reception period timer (on Duration timer), reception extension period timer (Inactivity timer), re-transmission from the base station apparatus. When a transmission period timer (Retransmission timer, etc.) is received, intermittent reception control is started using each timer.
図13に移動局装置の間欠受信時の動作例を示す。間欠受信周期とは、間欠受信を行う周期であり、間欠受信期間の開始位置から次の間欠受信期間の開始位置までの期間の長さを示す。間欠受信期間とは、1つの間欠受信周期の中で物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHを監視(モニタ:monitor)する期間(1つの間欠受信周期の中で物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHの受信処理を行う期間)である。間欠受信期間タイマーは、間欠受信期間の開始位置でスタートされる。
Fig. 13 shows an example of the operation of the mobile station device during intermittent reception. The intermittent reception cycle is a cycle in which intermittent reception is performed, and indicates the length of a period from the start position of the intermittent reception period to the start position of the next intermittent reception period. The intermittent reception period is a period for monitoring the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH in one intermittent reception cycle (physical downlink in one intermittent reception cycle). A period during which reception processing of the link control channel PDCCH or the extended physical downlink control channel EPDCCH is performed). The intermittent reception period timer is started at the start position of the intermittent reception period.
再送信期間とは、物理下りリンク共用チャネルPDSCHにおいての下りリンクデータ受信に失敗し、基地局装置から再送信データが送信される可能性のある期間である。移動局装置は再送信期間に物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHを監視する。
The retransmission period is a period in which downlink data reception on the physical downlink shared channel PDSCH fails and retransmission data may be transmitted from the base station apparatus. The mobile station apparatus monitors the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH during the retransmission period.
受信延長期間とは、物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHで自移動局装置宛ての下りリンク割り当て/上りリンクグラントを検出した場合に物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHの監視を延長する期間である。
The reception extension period is the physical downlink control channel PDCCH when the downlink assignment / uplink grant addressed to the mobile station apparatus is detected on the physical downlink control channel PDCCH, or the extended physical downlink control channel EPDCCH, or This is a period for extending the monitoring of the extended physical downlink control channel EPDCCH.
尚、受信延長期間タイマーは、物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHで自移動局装置宛ての下りリンク割り当て/上りリンクグラントを検出したサブフレームの次のサブフレームでスタートされる。間欠受信開始オフセットは間欠受信期間の開始位置に関する情報であり、間欠受信開始オフセットに基づいて、間欠受信期間の開始位置が決定される。また、各タイマーのタイマー値は、サブフレームの数で表わされてもよい。
The reception extension period timer starts in the subframe next to the subframe in which the downlink allocation / uplink grant addressed to the mobile station apparatus is detected on the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH. Is done. The intermittent reception start offset is information regarding the start position of the intermittent reception period, and the start position of the intermittent reception period is determined based on the intermittent reception start offset. In addition, the timer value of each timer may be represented by the number of subframes.
また、間欠受信周期には、長期間間欠受信周期(Long DRX cycle)と短期間間欠受信周期(Short DRX cycle)がある。基地局装置から両方の間欠受信周期が設定された場合、移動局装置は、最初に短期間間欠受信周期で間欠受信制御を行い、一定期間(短期間間欠受信周期期間)の後、長期間間欠受信周期の間欠受信制御を行う。
The intermittent reception cycle includes a long-term intermittent reception cycle (Long DRX cycle) and a short-term intermittent reception cycle (Short DRX cycle). When both intermittent reception cycles are set from the base station device, the mobile station device first performs intermittent reception control with a short-term intermittent reception cycle, and after a certain period (short-term intermittent reception cycle period), it is intermittent for a long time. Performs intermittent reception control of the reception cycle.
尚、短期間間欠受信周期期間は、短期間間欠受信周期での間欠受信動作中に移動局装置が物理下りリンク制御チャネルPDCCHを受信後から短期間間欠受信周期期間で示された期間内に再度、物理下りリンク制御チャネルPDCCHを受信しない場合に長期間間欠受信周期での間欠受信動作に移行するための期間である。短期間間欠受信周期期間の長さは、短期間間欠受信周期の数で表わすようにしても良い。
The short period intermittent reception cycle period is again within the period indicated by the short period intermittent reception cycle period after the mobile station apparatus receives the physical downlink control channel PDCCH during the intermittent reception operation in the short period intermittent reception cycle. This is a period for shifting to the intermittent reception operation in the long-term intermittent reception cycle when the physical downlink control channel PDCCH is not received. The length of the short-term intermittent reception cycle period may be represented by the number of short-term intermittent reception cycles.
間欠受信制御中、移動局装置は、アクティブタイム(Active time)の間、物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHを監視する。尚、アクティブタイムとは、DRXパラメータで与えられた間欠受信期間、再送信期間、受信延長期間等の期間を示す。また、アクティブタイムは、DRXパラメータで設定された期間以外に移動局装置の状態によって決定される期間を示す。
During the intermittent reception control, the mobile station apparatus monitors the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH during the active time (Active time). The active time indicates a period such as an intermittent reception period, a retransmission period, or a reception extension period given by the DRX parameter. The active time indicates a period determined by the state of the mobile station apparatus other than the period set by the DRX parameter.
キャリアアグリゲーション中の移動局装置は、全てのセルに対して同じ間欠受信動作を行う。つまり、図14に示すようにキャリアアグリゲーション中の移動局装置は、同じ間欠受信周期、間欠受信期間で物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHを監視する。
The mobile station apparatus that is performing carrier aggregation performs the same intermittent reception operation for all cells. That is, as shown in FIG. 14, the mobile station apparatus that is performing carrier aggregation monitors the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH in the same intermittent reception cycle and intermittent reception period.
そして、移動局装置が1つのセルの物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHで自移動局装置宛ての下りリンク割り当て/上りリンクグラントを受信した場合、キャリアアグリゲーション中の全てのセルで物理下りリンク制御チャネルPDCCH、または、拡張物理下りリンク制御チャネルEPDCCHの監視期間を設定された受信延長期間分だけ監視を延長する。
When the mobile station apparatus receives a downlink assignment / uplink grant addressed to the mobile station apparatus on the physical downlink control channel PDCCH of one cell or the extended physical downlink control channel EPDCCH, all of the carrier aggregations are performed. In this cell, the monitoring period of the physical downlink control channel PDCCH or the extended physical downlink control channel EPDCCH is extended by the set reception extension period.
また、Advanced-EUTRAでは、図15のように移動局装置が、2つの基地局装置とデュアルコネクト(Dual Connect)して同時に両基地局装置と通信を行うことも検討している。デュアルコネクトとは、マクロセルの基地局装置とスモールセルの基地局装置との間が光ファイバーのような無遅延とみなせる高速なバックボーン回線(backhaulとも称する)ではなく、遅延のある低速なバックボーン回線を用いて接続されているときに、移動局装置がマクロセルの基地局装置とスモールセルの基地局装置と接続し、移動局装置と両基地局装置が複数セルを介してデータの送受信を行うことを想定している(非特許文献2)。
Further, in Advanced-EUTRA, as shown in FIG. 15, it is also considered that a mobile station apparatus performs dual connection with two base station apparatuses and simultaneously communicates with both base station apparatuses. Dual connect is not a high-speed backbone line (also referred to as a backhaul) that can be regarded as non-delayed like an optical fiber between a macro cell base station apparatus and a small cell base station apparatus, but uses a low-speed backbone line with a delay. The mobile station device is connected to the macro cell base station device and the small cell base station device, and the mobile station device and both base station devices transmit and receive data via multiple cells. (Non-Patent Document 2).
キャリアアグリゲーションと同様に、デュアルコネクトでは、マクロセルを第一セル(PCell)、スモールセルを第二セル(SCell)として、移動局装置と基地局装置間で通信が行ってもよい。また、デュアルコネクトでは、マクロセルの基地局装置と移動局装置間で制御データの送受信を行い、スモールセルの基地局装置と移動局装置間でユーザーデータの送受信を行ってもよい。さらに、制御データおよびユーザーデータという区別ではなく、データの種類(例えば、QoSまたは論理チャネル等)に基づいて、データ送受信する基地局装置を変更してもよい。
Similarly to carrier aggregation, in dual connect, communication may be performed between a mobile station apparatus and a base station apparatus with a macro cell as a first cell (PCell) and a small cell as a second cell (SCell). In dual connect, control data may be transmitted and received between the macro cell base station apparatus and the mobile station apparatus, and user data may be transmitted and received between the small cell base station apparatus and the mobile station apparatus. Furthermore, the base station apparatus that transmits / receives data may be changed based on the type of data (for example, QoS or logical channel) instead of the distinction between control data and user data.
尚、各基地局装置の配置関係により移動局装置での下りリンクコンポーネントキャリア毎の受信タイミングと、上りリンクコンポーネントキャリア毎の基地局装置への送信タイミングの両方または一方がセル毎に異なる場合、上りリンクの送信タイミングが同じとなるセルをグループ化して通信を行う。この送信タイミングが同じとなるセルをグループ化することを送信タイミンググループ(Timing Advance Group)という。移動局装置のMAC層は、送信タイミンググループを管理するためにPHY層の制御を行う機能も持っている。
In addition, when both or one of the reception timing for each downlink component carrier in the mobile station device and the transmission timing to the base station device for each uplink component carrier is different for each cell due to the arrangement relationship of each base station device, Communication is performed by grouping cells having the same link transmission timing. Grouping cells having the same transmission timing is called a transmission timing group (Timing Advance Group). The MAC layer of the mobile station device also has a function of controlling the PHY layer in order to manage transmission timing groups.
デュアルコネクトでは、基地局装置間が遅延のある低速の回線で接続されているため、基地局装置間の回線の遅延を考慮して、マクロセルの基地局装置およびスモールセルの基地局装置のそれぞれが、移動局装置に対して独立して下りリンク及び上りリンクのデータスケジューリング及び下りリンクデータの送信を行う。
In dual connect, the base station devices are connected by a low-speed line with a delay, so that the macro cell base station device and the small cell base station device are each considered in consideration of the line delay between the base station devices. In addition, downlink and uplink data scheduling and downlink data transmission are performed independently for the mobile station apparatus.
両基地局装置は、データスケジューリングが独立して行われるために、もう一方の基地局装置が移動局装置にいつデータ送信を行ったかわからない。このために、間欠受信動作中の移動局装置に対して自基地局装置がデータ送信を行った場合には、移動局装置が受信期間を延長することを認識できるが、もう一方の基地局装置からのデータ送信による受信期間延長を認識することができない。そのため、1つの基地局装置に対して移動局装置が行っていた従来の間欠受信動作をデュアルコネクト時の間欠受信動作としてそのまま適用すると、効率が悪くなる。
Since both base station apparatuses perform data scheduling independently, they do not know when the other base station apparatus has transmitted data to the mobile station apparatus. For this reason, when the base station apparatus transmits data to the mobile station apparatus that is performing the intermittent reception operation, it can recognize that the mobile station apparatus extends the reception period, but the other base station apparatus Cannot recognize the extension of the reception period due to data transmission from. Therefore, if the conventional intermittent reception operation performed by the mobile station device for one base station device is applied as it is as the intermittent reception operation at the time of dual connection, the efficiency is deteriorated.
(実施形態)
[構成説明]
図1は、本発明の実施形態に係る移動局装置の構成を示す図である。移動局装置1-1~1-3は、データ生成部101、送信データ記憶部103、送信HARQ処理部105、送信処理部107、無線部109、受信処理部111、受信HARQ処理部113、MAC情報抽出部115、PHY制御部117、MAC制御部119、データ処理部121、および、RRC制御部123から構成される。 (Embodiment)
[Configuration explanation]
FIG. 1 is a diagram illustrating a configuration of a mobile station apparatus according to an embodiment of the present invention. The mobile station apparatuses 1-1 to 1-3 include adata generation unit 101, a transmission data storage unit 103, a transmission HARQ processing unit 105, a transmission processing unit 107, a radio unit 109, a reception processing unit 111, a reception HARQ processing unit 113, and a MAC. The information extraction unit 115, the PHY control unit 117, the MAC control unit 119, the data processing unit 121, and the RRC control unit 123 are configured.
[構成説明]
図1は、本発明の実施形態に係る移動局装置の構成を示す図である。移動局装置1-1~1-3は、データ生成部101、送信データ記憶部103、送信HARQ処理部105、送信処理部107、無線部109、受信処理部111、受信HARQ処理部113、MAC情報抽出部115、PHY制御部117、MAC制御部119、データ処理部121、および、RRC制御部123から構成される。 (Embodiment)
[Configuration explanation]
FIG. 1 is a diagram illustrating a configuration of a mobile station apparatus according to an embodiment of the present invention. The mobile station apparatuses 1-1 to 1-3 include a
上位層からのユーザーデータおよびRRC制御部123からの制御データは、データ生成部101に入力される。データ生成部101は、PDCP層、RLC層の機能を持つ。データ生成部101は、ユーザーデータのIPパケットのヘッダ圧縮やデータの暗号化、データの分割及び結合等の処理を行い、データサイズを調節する。データ生成部101は、処理を行ったデータを送信データ記憶部103に出力する。
User data from the upper layer and control data from the RRC control unit 123 are input to the data generation unit 101. The data generation unit 101 has functions of a PDCP layer and an RLC layer. The data generation unit 101 performs processing such as header compression of the IP packet of user data, data encryption, data division and combination, and adjusts the data size. The data generation unit 101 outputs the processed data to the transmission data storage unit 103.
送信データ記憶部103は、データ生成部101から入力されたデータを蓄積し、MAC制御部119からの指示に基づいて指示されたデータを指示されたデータ量分だけ送信HARQ処理部105に出力する。また、送信データ記憶部103は、蓄積されたデータのデータ量の情報をMAC制御部119に出力する。
The transmission data storage unit 103 accumulates the data input from the data generation unit 101, and outputs the instructed data to the transmission HARQ processing unit 105 by the instructed data amount based on the instruction from the MAC control unit 119. . In addition, the transmission data storage unit 103 outputs information on the amount of accumulated data to the MAC control unit 119.
送信HARQ処理部105は、入力データに符号化を行い、符号化したデータにパンクチャ処理を行う。そして、送信HARQ処理部105は、パンクチャしたデータを送信処理部107に出力し、符号化したデータを保存する。送信HARQ処理部105は、MAC制御部119からデータの再送を指示された場合、保存してある符号化したデータから前回に行なったパンクチャと異なるパンクチャ処理を行い、パンクチャしたデータを送信処理部107に出力する。
The transmission HARQ processing unit 105 encodes input data and performs puncture processing on the encoded data. Then, transmission HARQ processing section 105 outputs the punctured data to transmission processing section 107, and stores the encoded data. The transmission HARQ processing unit 105, when instructed to retransmit data from the MAC control unit 119, performs a puncture process different from the previously performed puncture from the stored encoded data, and transmits the punctured data to the transmission processing unit 107. Output to.
送信処理部107は、送信HARQ処理部105から入力されたデータに変調・符号化を行なう。送信処理部107は、変調・符号化されたデータをDFT(Discrete Fourier Transform(離散フーリエ変換))-IFFT(Inverse Fast Fourier Transform(逆高速フーリエ変換))処理し、処理後、CP(Cyclic prefix)を挿入し、CP挿入後のデータを上りリンクの各コンポーネントキャリア(セル)の物理上りリンク共用チャネル(PUSCH)に配置し、無線部109に出力する。
The transmission processing unit 107 modulates and encodes the data input from the transmission HARQ processing unit 105. The transmission processing unit 107 performs DFT (Discrete Fourier Transform (Discrete Fourier Transform))-IFFT (Inverse Fast Fourier Transform (Inverse Fast Fourier Transform)) processing of the modulated and encoded data, and after processing, CP (Cyclic prefix) Is inserted into the physical uplink shared channel (PUSCH) of each uplink component carrier (cell) and output to the radio section 109.
また、送信処理部107は、PHY制御部117から受信データの応答指示があった場合、ACKまたはNACK信号を生成し、生成した信号を物理上りリンク制御チャネル(PUCCH)に配置し、無線部109に出力する。送信処理部107は、PHY制御部117からランダムアクセスプリアンブルの送信指示があった場合、ランダムアクセスプリアンブルを生成し、生成した信号を物理ランダムアクセスチャネル(PRACH)に配置し、無線部109に出力する。
In addition, when there is a response instruction for received data from the PHY control unit 117, the transmission processing unit 107 generates an ACK or NACK signal, places the generated signal in the physical uplink control channel (PUCCH), and transmits the radio unit 109. Output to. When there is a random access preamble transmission instruction from the PHY control unit 117, the transmission processing unit 107 generates a random access preamble, places the generated signal in a physical random access channel (PRACH), and outputs the generated signal to the radio unit 109. .
無線部109は、送信処理部107から入力されたデータをPHY制御部117から指示された送信位置情報(送信セル情報)の無線周波数にアップコンバートし、送信電力を調整して送信アンテナからデータを送信する。また、無線部109は、受信アンテナより受信した無線信号をダウンコンバートし、受信処理部111に出力する。
The radio unit 109 up-converts the data input from the transmission processing unit 107 to the radio frequency of the transmission position information (transmission cell information) instructed from the PHY control unit 117, adjusts the transmission power, and transmits the data from the transmission antenna. Send. Radio section 109 down-converts the radio signal received from the reception antenna and outputs the result to reception processing section 111.
受信処理部111は、無線部109から入力された信号をFFT(Fast Fourier Transform(高速フーリエ変換))処理、復号化、復調処理等を行なう。受信処理部111は、物理下りリンク制御チャネルPDCCHまたは物理拡張下りリンク制御チャネルEPDCCHの復調を行い、自移動局装置の下りリンク割り当て情報を検出した場合、下りリンク割り当て情報にもとづいて、物理下りリンク共用チャネルPDSCHの復調を行い、下りリンク割り当て情報を取得したことをMAC制御部119に出力する。
The reception processing unit 111 performs FFT (Fast Fourier Transform) processing, decoding, demodulation processing, and the like on the signal input from the wireless unit 109. When the reception processing unit 111 demodulates the physical downlink control channel PDCCH or the physical extended downlink control channel EPDCCH and detects the downlink allocation information of the mobile station apparatus, the reception processing unit 111 determines the physical downlink based on the downlink allocation information. The shared channel PDSCH is demodulated and the fact that downlink allocation information has been acquired is output to the MAC control unit 119.
受信処理部111は、復調した物理下りリンク共用チャネルPDSCHのデータを受信HARQ処理部113に出力する。受信処理部111は、物理下りリンク制御チャネルPDCCHまたは物理拡張下りリンク制御チャネルEPDCCHの復調を行い、上りリンク送信許可情報(Uplink grant:上りリンクグラント)、上りリンク送信データの応答情報(ACK/NACK)を検出した場合、取得した応答情報をMAC制御部119に出力する。尚、上りリンク送信許可情報は、データの変調・符号化方式、データサイズ情報、HARQ情報、送信位置情報などがある。
The reception processing unit 111 outputs the demodulated physical downlink shared channel PDSCH data to the reception HARQ processing unit 113. The reception processing unit 111 demodulates the physical downlink control channel PDCCH or the physical extended downlink control channel EPDCCH, uplink transmission permission information (Uplink grant: uplink grant), and uplink transmission data response information (ACK / NACK). ) Is detected, the acquired response information is output to the MAC control unit 119. The uplink transmission permission information includes data modulation / coding scheme, data size information, HARQ information, transmission position information, and the like.
受信HARQ処理部113は、受信処理部111からの入力データの復号処理を行い、復号処理に成功した場合、データをMAC情報抽出部115に出力する。受信HARQ処理部113は、入力データの復号処理に失敗した場合、復号処理に失敗したデータを保存する。受信HARQ処理部113は、再送データを受信した場合、保存してあるデータと再送データを合成し、復号処理を行う。また、受信HARQ処理部113は、入力データの復号処理の成否をMAC制御部119に通知する。
The reception HARQ processing unit 113 performs a decoding process on the input data from the reception processing unit 111, and outputs the data to the MAC information extraction unit 115 when the decoding process is successful. The reception HARQ processing unit 113 stores the data that has failed in the decoding process when the decoding process of the input data has failed. When receiving the retransmission data, the reception HARQ processing unit 113 combines the stored data and the retransmission data and performs a decoding process. Further, the reception HARQ processing unit 113 notifies the MAC control unit 119 of success or failure of the input data decoding process.
MAC情報抽出部115は、受信HARQ処理部113から入力されたデータからMAC層(Medium Access Control layer)の制御データを抽出し、抽出したMAC制御情報をMAC制御部119に出力する。MAC情報抽出部115は、残りのデータをデータ処理部121に出力する。データ処理部121は、PDCP層、RLC層の機能を持ち、圧縮されたIPヘッダの解凍機能や暗号化されたデータの復号機能、データの分割及び結合等の処理を行い、データを元の形に戻す。データ処理部121は、RRCメッセージとユーザーデータに分け、RRCメッセージをRRC制御部123に出力し、ユーザーデータを上位層に出力する。
The MAC information extraction unit 115 extracts the control data of the MAC layer (Medium Access Access Control layer) from the data input from the reception HARQ processing unit 113, and outputs the extracted MAC control information to the MAC control unit 119. The MAC information extraction unit 115 outputs the remaining data to the data processing unit 121. The data processing unit 121 has functions of a PDCP layer and an RLC layer, performs a decompression function of a compressed IP header, a decryption function of encrypted data, a data division and combination, and the like, and converts the data into an original form Return to. The data processing unit 121 divides the RRC message and user data, outputs the RRC message to the RRC control unit 123, and outputs the user data to the upper layer.
PHY制御部117は、MAC制御部119からの指示により送信処理部107、無線部109、および、受信処理部111を制御する。PHY制御部117は、MAC制御部119から通知された変調・符号化方式、送信電力情報および送信位置情報(送信セル情報)から変調・符号化方式および送信位置を送信処理部107に通知し、送信セルの周波数情報および送信電力情報を無線部109に通知する。また、PHY制御部117は、MAC制御部119の指示により、送信処理部107、無線部109および受信処理部111の電源ON/OFF制御を行う。
The PHY control unit 117 controls the transmission processing unit 107, the radio unit 109, and the reception processing unit 111 according to an instruction from the MAC control unit 119. The PHY control unit 117 notifies the transmission processing unit 107 of the modulation / coding scheme and transmission position from the modulation / coding scheme, transmission power information and transmission position information (transmission cell information) notified from the MAC control unit 119, The radio unit 109 is notified of the frequency information and transmission power information of the transmission cell. In addition, the PHY control unit 117 performs power ON / OFF control of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111 according to an instruction from the MAC control unit 119.
MAC制御部119は、MAC層の機能を持ち、RRC制御部123や下位層などから取得した情報をもとにMAC層の制御を行う。MAC制御部119は、RRC制御部123から指定されたデータ送信制御設定および送信データ記憶部103から取得したデータ量情報および受信処理部111から取得した上りリンク送信許可情報をもとにデータ送信先およびデータ送信優先順位を決定し、送信するデータに関する情報を送信データ記憶部103に通知する。また、MAC制御部119は、送信HARQ処理部105にHARQ情報を通知し、PHY制御部117に変調・符号化方式および送信位置情報(送信セル情報)を出力する。
The MAC control unit 119 has a MAC layer function, and controls the MAC layer based on information acquired from the RRC control unit 123 or a lower layer. The MAC control unit 119 determines the data transmission destination based on the data transmission control setting specified from the RRC control unit 123, the data amount information acquired from the transmission data storage unit 103, and the uplink transmission permission information acquired from the reception processing unit 111. The data transmission priority order is determined, and information about data to be transmitted is notified to the transmission data storage unit 103. Also, the MAC control unit 119 notifies the transmission HARQ processing unit 105 of HARQ information, and outputs the modulation / coding scheme and transmission position information (transmission cell information) to the PHY control unit 117.
また、MAC制御部119は、受信処理部111から上りリンク送信データに対する応答情報を取得し、応答情報がNACK(否応答)を示していた場合、送信HARQ処理部105とPHY制御部117に再送を指示する。MAC制御部119は、受信HARQ処理部113からデータの復号処理の成否情報を取得した場合、PHY制御部117にACKまたはNACK信号を送信するように指示する。
Further, the MAC control unit 119 obtains response information for the uplink transmission data from the reception processing unit 111, and when the response information indicates NACK (non-response), retransmits to the transmission HARQ processing unit 105 and the PHY control unit 117. Instruct. When acquiring the success / failure information of the data decoding process from the reception HARQ processing unit 113, the MAC control unit 119 instructs the PHY control unit 117 to transmit an ACK or NACK signal.
MAC制御部119は、MAC情報抽出部115から入力されたMAC制御情報の中でセル(または、コンポーネントキャリア)のアクティベーション/デアクティベーション指示情報及び間欠受信(DRX)制御情報を取得した場合、アクティベーション/デアクティベーション制御及び間欠受信制御を行うために無線部109、送信処理部107及び受信処理部111の動作開始/動作停止制御を行うためにPHY制御部117を制御する。
When the MAC control unit 119 acquires activation / deactivation instruction information and discontinuous reception (DRX) control information of a cell (or component carrier) from the MAC control information input from the MAC information extraction unit 115, the MAC control unit 119 is activated. To perform activation / deactivation control and intermittent reception control, the PHY control unit 117 is controlled to perform operation start / operation stop control of the radio unit 109, the transmission processing unit 107, and the reception processing unit 111.
MAC制御部119は、RRC制御123から取得した間欠受信パラメータの各タイマーを各セル(または各基地局装置)に適用する。MAC制御部119は、間欠受信開始オフセットと間欠受信周期にもとづいて、間欠受信開始フレームを決定する。MAC制御部119は、間欠受信開始フレームになった場合、間欠受信期間タイマーをスタートして、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作開始を指示する。間欠受信期間タイマーが満了すると、MAC制御部119は、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作停止を指示する。
The MAC control unit 119 applies each timer of the intermittent reception parameter acquired from the RRC control 123 to each cell (or each base station device). The MAC control unit 119 determines an intermittent reception start frame based on the intermittent reception start offset and the intermittent reception cycle. When the intermittent control start frame is reached, the MAC control unit 119 starts an intermittent reception period timer and instructs the PHY control unit 117 to start operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111. When the intermittent reception period timer expires, the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
デュアルコネクト状態の場合、間欠受信期間タイマーが動作中にMAC制御部119が受信処理部111から下りリンク割り当て/上りリンクグラント情報を取得した場合、MAC制御部119は、下りリンク割り当て/上りリンクグラント情報がどの基地局装置からの下りリンク割り当て/上りリンクグラント情報かを考慮して、適切なセルの受信延長期間タイマーをスタートする。
In the dual connection state, when the MAC control unit 119 acquires the downlink assignment / uplink grant information from the reception processing unit 111 while the intermittent reception period timer is operating, the MAC control unit 119 performs the downlink assignment / uplink grant. An appropriate cell reception extension period timer is started in consideration of which base station apparatus the downlink allocation / uplink grant information is from.
デュアルコネクト状態でない場合、間欠受信期間タイマーが動作中にMAC制御部119が受信処理部111から下りリンク割り当て/上りリンクグラント情報を取得した場合、全セルの受信延長期間タイマーをスタートし、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作開始を指示する。間欠受信期間タイマーが満了すると、MAC制御部119は、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作停止を指示する。
When not in the dual connect state, when the MAC control unit 119 acquires downlink assignment / uplink grant information from the reception processing unit 111 while the intermittent reception period timer is operating, the reception extension period timer for all cells is started and PHY control is performed. The unit 117 is instructed to start operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111. When the intermittent reception period timer expires, the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
尚、MAC制御部119は、受信延長期間タイマーまたは間欠受信期間タイマーのどちらかのタイマーが動作中の場合、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作停止を指示しない。MAC制御部119は、受信延長期間タイマーおよび間欠受信タイマーの両方のタイマーが満了した場合、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作停止を指示する。
The MAC control unit 119 stops the operation of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111 in the PHY control unit 117 when either the reception extension period timer or the intermittent reception period timer is operating. Do not instruct. When both the reception extension period timer and the intermittent reception timer expire, the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
MAC制御部119は、下りリンクデータの受信に失敗し、基地局装置3-1または基地局装置3-2から再送信データが送信される可能性があると判断した場合、再送信期間タイマーをスタートし、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作開始を指示する。再送信期間タイマーが満了すると、MAC制御部119は、PHY制御部117に送信処理部107、無線部109、受信処理部111の動作停止を指示する。
When the MAC control unit 119 determines that there is a possibility that retransmission data may be transmitted from the base station device 3-1 or the base station device 3-2 due to failure to receive downlink data, a retransmission period timer is set. The PHY control unit 117 is instructed to start operation of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111. When the retransmission period timer expires, the MAC control unit 119 instructs the PHY control unit 117 to stop the operations of the transmission processing unit 107, the radio unit 109, and the reception processing unit 111.
MAC制御部119は、MAC情報抽出部115から入力されたMAC制御情報の中で送信タイミング情報をPHY制御部117へ出力する。MAC制御部119は、上りリンク送信タイミングを管理し、PHY制御部117を制御する。
The MAC control unit 119 outputs transmission timing information among the MAC control information input from the MAC information extraction unit 115 to the PHY control unit 117. The MAC control unit 119 manages uplink transmission timing and controls the PHY control unit 117.
MAC制御部119は、送信タイミングタイマーを用いて上りリンクの送信タイミングを有効・無効を管理する。MAC制御部119は、セル毎または送信タイミンググループ毎に送信タイミングタイマーを持ち、セル毎または送信タイミンググループ毎に送信タイミング情報を適用した場合に対応する送信タイミングタイマーをスタートまたはリスタートさせる。
The MAC control unit 119 manages validity / invalidity of uplink transmission timing using a transmission timing timer. The MAC control unit 119 has a transmission timing timer for each cell or transmission timing group, and starts or restarts a transmission timing timer corresponding to the case where transmission timing information is applied for each cell or transmission timing group.
MAC制御部119は、送信データ記憶部103に蓄積されているデータ量情報であるバッファステータスレポート(BSR)を作成し、送信データ記憶部103に出力する。また、MAC制御部119は、セル毎の送信電力情報であるパワーヘッドルームレポート(Power Headroom Report:PHR)を作成し、送信データ記憶部103に出力する。
The MAC control unit 119 creates a buffer status report (BSR) that is data amount information stored in the transmission data storage unit 103 and outputs the buffer status report (BSR) to the transmission data storage unit 103. Further, the MAC control unit 119 creates a power headroom report (PHR) that is transmission power information for each cell, and outputs it to the transmission data storage unit 103.
RRC制御部123は、基地局装置3-1との接続・切断処理、キャリアアグリゲーションの設定、デュアルコネクトの設定、制御データおよびユーザーデータのデータ送信制御設定など基地局装置3-1及び基地局装置3-2と通信を行うための各種設定を行う。RRC制御部123は、各種設定に伴う上位層との情報のやり取りを行い、前記各種設定に伴う下位層の制御を行う。
The RRC control unit 123 includes a base station device 3-1 and a base station device, such as connection / disconnection processing with the base station device 3-1, carrier aggregation setting, dual connect setting, control data and user data data transmission control setting, etc. Make various settings for communication with 3-2. The RRC control unit 123 exchanges information with an upper layer associated with various settings, and controls a lower layer associated with the various settings.
RRC制御部123は、RRCメッセージを作成し、作成したRRCメッセージをデータ生成部101に出力する。RRC制御部123は、データ処理部121から入力されたRRCメッセージを解析する。RRC制御部123は、自移動局装置の送信能力を示したメッセージを作成し、データ生成部101に出力する。また、RRC制御部123は、MAC層に必要な情報をMAC制御部119に出力し、物理層に必要な情報をPHY制御部117に出力する。
The RRC control unit 123 creates an RRC message and outputs the created RRC message to the data generation unit 101. The RRC control unit 123 analyzes the RRC message input from the data processing unit 121. The RRC control unit 123 creates a message indicating the transmission capability of the mobile station apparatus and outputs the message to the data generation unit 101. Further, the RRC control unit 123 outputs information necessary for the MAC layer to the MAC control unit 119 and outputs information necessary for the physical layer to the PHY control unit 117.
RRC制御部123は、間欠受信パラメータセット(間欠受信開始オフセット、間欠受信周期(DRX cycle)、間欠受信期間タイマー(on Duration timer)、受信延長期間タイマー(Inactivity timer)、再送信期間タイマー(Retransmission timer)等)を取得した場合、MAC制御部119に間欠受信パラメータを出力する。また、RRC制御部123は、基地局装置3-1と基地局装置3-2とのデュアルコネクトでの通信を行うと認識した場合、デュアルコネクト状態をMAC制御部119に通知する。
The RRC control unit 123 includes an intermittent reception parameter set (intermittent reception start offset, intermittent reception period (DRX cycle), intermittent reception period timer (on Duration timer), reception extension period timer (Inactivity timer), and retransmission period timer (Retransmission timer). ) Etc.), the intermittent reception parameters are output to the MAC control unit 119. Further, when the RRC control unit 123 recognizes that the base station apparatus 3-1 and the base station apparatus 3-2 perform communication in the dual connect, the RRC control unit 123 notifies the MAC control unit 119 of the dual connect state.
尚、送信処理部107、無線部109、受信処理部111、PHY制御部117は、物理層の動作を行い、送信データ記憶部103、送信HARQ処理部105、受信HARQ処理部113、MAC情報抽出部115、MAC制御部119は、MAC層の動作を行い、データ生成部101及びデータ処理部121は、RLC層及びPDCP層の動作を行い、RRC制御部123はRRC層の動作を行う。
The transmission processing unit 107, the radio unit 109, the reception processing unit 111, and the PHY control unit 117 perform operations of the physical layer, and transmit data storage unit 103, transmission HARQ processing unit 105, reception HARQ processing unit 113, MAC information extraction. 115 and MAC control unit 119 operate in the MAC layer, data generation unit 101 and data processing unit 121 operate in the RLC layer and PDCP layer, and RRC control unit 123 operates in the RRC layer.
図2は、本発明の実施形態に係る基地局装置の構成を示す図である。基地局装置3-1、または、基地局装置3-2は、データ生成部201、送信データ記憶部203、送信HARQ処理部205、送信処理部207、無線部209、受信処理部211、受信HARQ処理部213、MAC情報抽出部215、PHY制御部217、MAC制御部219、データ処理部221、RRC制御部223、基地局装置間通信部225、MME通信部227、および、GW通信部229から構成される。
FIG. 2 is a diagram showing a configuration of the base station apparatus according to the embodiment of the present invention. The base station device 3-1 or the base station device 3-2 includes a data generation unit 201, a transmission data storage unit 203, a transmission HARQ processing unit 205, a transmission processing unit 207, a radio unit 209, a reception processing unit 211, and a reception HARQ. From the processing unit 213, the MAC information extraction unit 215, the PHY control unit 217, the MAC control unit 219, the data processing unit 221, the RRC control unit 223, the base station inter-device communication unit 225, the MME communication unit 227, and the GW communication unit 229 Composed.
GW通信部229からのユーザーデータおよびRRC制御223からの制御データは、データ生成部201に入力される。データ生成部201は、PDCP層、RLC層の機能を持ち、ユーザーデータのIPパケットのヘッダ圧縮やデータの暗号化、データの分割及び結合等の処理を行い、データサイズを調節する。データ生成部201は、処理を行ったデータとデータの論理チャネル情報を送信データ記憶部203に出力する。
User data from the GW communication unit 229 and control data from the RRC control 223 are input to the data generation unit 201. The data generation unit 201 has functions of a PDCP layer and an RLC layer, and performs processing such as header compression of the IP packet of user data, data encryption, data division and combination, and adjusts the data size. The data generation unit 201 outputs the processed data and the logical channel information of the data to the transmission data storage unit 203.
送信データ記憶部203は、データ生成部201から入力されたデータをユーザー毎に蓄積し、MAC制御部219からの指示に基づいて指示されたユーザーのデータを指示されたデータ量分だけ送信HARQ処理部205に出力する。また、送信データ記憶部203は、蓄積されたデータのデータ量の情報をMAC制御部219に出力する。
The transmission data storage unit 203 accumulates the data input from the data generation unit 201 for each user, and transmits the user data instructed based on the instruction from the MAC control unit 219 for the specified data amount. The data is output to the unit 205. Also, the transmission data storage unit 203 outputs information on the amount of accumulated data to the MAC control unit 219.
送信HARQ処理部205は、入力データに符号化を行い、符号化したデータにパンクチャ処理を行う。そして、送信HARQ処理部205は、パンクチャしたデータを送信処理部207に出力し、符号化したデータを保存する。送信HARQ処理部205は、MAC制御部219からデータの再送を指示された場合、保存してある符号化したデータから前回に行なったパンクチャと異なるパンクチャ処理を行い、パンクチャしたデータを送信処理部207に出力する。
The transmission HARQ processing unit 205 encodes input data and performs puncture processing on the encoded data. Then, the transmission HARQ processing unit 205 outputs the punctured data to the transmission processing unit 207, and stores the encoded data. The transmission HARQ processing unit 205, when instructed to retransmit data from the MAC control unit 219, performs a puncture process different from the previously performed puncture from the stored encoded data, and transmits the punctured data to the transmission processing unit 207. Output to.
送信処理部207は、送信HARQ処理部205から入力されたデータに変調・符号化を行なう。送信処理部207は、変調・符号化されたデータを各セルの物理下りリンク制御チャネルPDCCH、下りリンク同期信号、物理報知チャネルPBCH、物理下りリンク共用チャネルPDSCHなどの信号及び各チャネルにマッピングし、マッピングしたデータを直列/並列変換、IFFT(Inverse Fast Fourier Transform(逆高速フーリエ変換))変換、CP挿入などのOFDM信号処理を行い、OFDM信号を生成する。
The transmission processing unit 207 modulates and encodes the data input from the transmission HARQ processing unit 205. The transmission processing unit 207 maps the modulated and encoded data to signals such as physical downlink control channel PDCCH, downlink synchronization signal, physical broadcast channel PBCH, physical downlink shared channel PDSCH and the like of each cell, The mapped data is subjected to OFDM signal processing such as serial / parallel conversion, IFFT (Inverse Fourier Transform (Inverse Fast Fourier Transform)) conversion, and CP insertion to generate an OFDM signal.
そして、送信処理部207は、生成したOFDM信号を無線部209に出力する。また、送信処理部207は、MAC制御部219から受信データの応答指示があった場合、ACKまたはNACK信号を生成し、生成した信号を物理下りリンク制御チャネルPDCCHに配置し、無線部209に出力する。
Then, the transmission processing unit 207 outputs the generated OFDM signal to the wireless unit 209. In addition, when there is a response instruction for received data from the MAC control unit 219, the transmission processing unit 207 generates an ACK or NACK signal, places the generated signal in the physical downlink control channel PDCCH, and outputs it to the radio unit 209. To do.
無線部209は、送信処理部207から入力されたデータを無線周波数にアップコンバートし、送信電力を調整して送信アンテナからデータを送信する。また、無線部209は、受信アンテナより受信した無線信号をダウンコンバートし、受信処理部211に出力する。受信処理部211は、無線部209から入力された信号をFFT(Fast Fourier Transform(高速フーリエ変換))処理、復号化、復調処理等を行なう。
The radio unit 209 up-converts data input from the transmission processing unit 207 to a radio frequency, adjusts transmission power, and transmits data from the transmission antenna. The radio unit 209 down-converts the radio signal received from the reception antenna and outputs it to the reception processing unit 211. The reception processing unit 211 performs FFT (Fast Fourier Transform (fast Fourier transform)) processing, decoding, demodulation processing, and the like on the signal input from the wireless unit 209.
受信処理部211は、復調したデータの中で物理上りリンク共用チャネルPUSCHのデータを受信HARQ処理部213に出力する。また、受信処理部211は、復調したデータの中で物理上りリンク制御チャネルPUCCHから取得した制御データの下りリンク送信データの応答情報(ACK/NACK)、下りリンク無線品質情報(CQI)及び上りリンク送信要求情報(スケジューリングリクエスト)をMAC制御部219に出力する。
The reception processing unit 211 outputs the data of the physical uplink shared channel PUSCH among the demodulated data to the reception HARQ processing unit 213. Further, the reception processing unit 211 receives response information (ACK / NACK), downlink radio quality information (CQI), and uplink radio quality information (CQI) of control data acquired from the physical uplink control channel PUCCH among the demodulated data. Transmission request information (scheduling request) is output to the MAC control unit 219.
受信HARQ処理部213は、受信処理部211からの入力データの復号処理を行い、復号処理に成功した場合、データをMAC情報抽出部215に出力する。受信HARQ処理部213は、入力データの復号処理に失敗した場合、復号処理に失敗したデータを保存する。受信HARQ処理部213は、再送データを受信した場合、保存してあるデータと再送データを合成し、復号処理を行う。また、受信HARQ処理部213は、入力データの復号処理の成否をMAC制御部219に通知する。
The reception HARQ processing unit 213 performs a decoding process on the input data from the reception processing unit 211 and outputs the data to the MAC information extraction unit 215 when the decoding process is successful. The reception HARQ processing unit 213 stores the data that has failed in the decoding process when the decoding process of the input data has failed. When receiving the retransmission data, the reception HARQ processing unit 213 combines the stored data and the retransmission data and performs a decoding process. Also, the reception HARQ processing unit 213 notifies the MAC control unit 219 of the success or failure of the input data decoding process.
MAC情報抽出部215は、受信HARQ処理部213から入力されたデータからMAC層の制御データを抽出し、抽出した制御情報をMAC制御部219に出力する。MAC情報抽出部215は、残りのデータをデータ処理部221に出力する。データ処理部221は、PDCP層、RLC層の機能を持ち、圧縮されたIPヘッダの解凍機能や暗号化されたデータの復号機能、データの分割及び結合等の処理を行い、データを元の形に戻す。データ処理部221は、RRCメッセージとユーザーデータに分け、RRCメッセージをRRC制御部223に出力し、ユーザーデータを上位層に出力する。
The MAC information extraction unit 215 extracts the MAC layer control data from the data input from the reception HARQ processing unit 213, and outputs the extracted control information to the MAC control unit 219. The MAC information extraction unit 215 outputs the remaining data to the data processing unit 221. The data processing unit 221 has functions of a PDCP layer and an RLC layer, and performs processing such as a decompression function of a compressed IP header, a decryption function of encrypted data, and a division and combination of data. Return to. The data processing unit 221 divides the RRC message and user data, outputs the RRC message to the RRC control unit 223, and outputs the user data to the upper layer.
MAC制御部219は、MAC層の機能を持ち、RRC制御部223や下位層などから取得した情報をもとにMAC層の制御を行う。MAC制御部219は、下りリンクおよび上りリンクのスケジューリング処理を行う。MAC制御部219は、受信処理部211から入力された下りリンク送信データの応答情報(ACK/NACK)、下りリンク無線品質情報(CQI)及び上りリンク送信要求情報(スケジューリングリクエスト)、MAC情報抽出部215から入力された制御情報及び送信データ記憶部203から取得したユーザー毎のデータ量情報、および、移動局装置1-1の受信動作状態から下りリンク及び上りリンクのスケジューリング処理を行う。MAC制御部219は、スケジュール結果を送信処理部207に出力する。
The MAC control unit 219 has a MAC layer function, and controls the MAC layer based on information acquired from the RRC control unit 223 and lower layers. The MAC control unit 219 performs downlink and uplink scheduling processing. The MAC control unit 219 includes downlink transmission data response information (ACK / NACK), downlink radio quality information (CQI) and uplink transmission request information (scheduling request) input from the reception processing unit 211, and a MAC information extraction unit. Downlink and uplink scheduling processing is performed based on the control information input from 215, the data amount information for each user acquired from the transmission data storage unit 203, and the reception operation state of the mobile station apparatus 1-1. The MAC control unit 219 outputs the schedule result to the transmission processing unit 207.
また、MAC制御部219は、受信処理部211から上りリンク送信データに対する応答情報を取得し、応答情報がNACK(否応答)を示していた場合、送信HARQ処理部205と送信処理部207に再送を指示する。MAC制御部219は、受信HARQ処理部213からデータの復号処理の成否情報を取得した場合、送信処理部207にACKまたはNACK信号を送信するように指示する。
Further, the MAC control unit 219 acquires response information for the uplink transmission data from the reception processing unit 211, and resends to the transmission HARQ processing unit 205 and the transmission processing unit 207 when the response information indicates NACK (non-response). Instruct. When acquiring the success / failure information of the data decoding process from the reception HARQ processing unit 213, the MAC control unit 219 instructs the transmission processing unit 207 to transmit an ACK or NACK signal.
また、MAC制御部219は、移動局装置1-1に割り当てたセル(または、コンポーネントキャリア)のアクティベーション/デアクティベーション処理や上りリンク送信タイミングの管理等を行う。RRC制御部223から取得した間欠受信パラメータから移動局装置1-1の受信動作状態を判断する。
Also, the MAC control unit 219 performs activation / deactivation processing of the cell (or component carrier) assigned to the mobile station apparatus 1-1, management of uplink transmission timing, and the like. The reception operation state of the mobile station apparatus 1-1 is determined from the intermittent reception parameters acquired from the RRC control unit 223.
RRC制御部223は、移動局装置1-1との接続・切断処理、キャリアアグリゲーションの設定、デュアルコネクトの設定、移動局装置1-1の制御データおよびユーザーデータをどのセルで送受信するかのデータ送信制御設定など移動局装置1-1と通信を行うための各種設定を行い、前記各種設定に伴う上位層との情報のやり取りを行い、前記各種設定に伴う下位層の制御を行う。
The RRC control unit 223 performs connection / disconnection processing with the mobile station apparatus 1-1, carrier aggregation setting, dual connect setting, control data of the mobile station apparatus 1-1, and data on which cell the user data is transmitted / received. Various settings for communication with the mobile station apparatus 1-1, such as transmission control settings, are performed, information is exchanged with an upper layer according to the various settings, and lower layer control is performed according to the various settings.
RRC制御部223は、各種RRCメッセージを作成し、作成したRRCメッセージをデータ生成部201に出力する。RRC制御部223は、データ処理部221から入力されたRRCメッセージを解析する。RRC制御部223は、移動局装置1-1から移動局装置の送受信能力を示したメッセージを取得した場合、移動局装置の送受信能力情報に基づいて移動局装置1-1に適したキャリアアグリゲーションの設定、またはデュアルコネクトの設定を行う。
The RRC control unit 223 creates various RRC messages and outputs the created RRC messages to the data generation unit 201. The RRC control unit 223 analyzes the RRC message input from the data processing unit 221. When the RRC control unit 223 acquires a message indicating the transmission / reception capability of the mobile station device from the mobile station device 1-1, the RRC control unit 223 performs carrier aggregation suitable for the mobile station device 1-1 based on the transmission / reception capability information of the mobile station device. Configure settings or dual connect settings.
また、RRC制御部223は、MAC層に必要な情報をMAC制御部219に出力し、物理層に必要な情報をPHY制御部217に出力する。また、RRC制御部223は、ハンドオーバー、または、デュアルコネクトを行う場合、基地局装置間通信部225およびMME通信部227に必要な情報を通知する。デュアルコネクトを行う場合、移動局装置1-1が行う間欠受信動作に関する情報も基地局装置間通信部225に通知する。
Also, the RRC control unit 223 outputs information necessary for the MAC layer to the MAC control unit 219, and outputs information necessary for the physical layer to the PHY control unit 217. Further, the RRC control unit 223 notifies the necessary information to the inter-base station communication unit 225 and the MME communication unit 227 when performing handover or dual connection. When dual connection is performed, information regarding the intermittent reception operation performed by the mobile station device 1-1 is also notified to the inter-base station communication unit 225.
基地局装置間通信部225は、他の基地局装置と通信し、RRC制御部223から入力された基地局装置間の制御メッセージを他の基地局装置に送信する。また、基地局装置間通信部225は、他の基地局装置からの基地局装置間の制御メッセージを受信し、受信した制御メッセージをRRC制御部223に出力する。基地局装置間の制御メッセージは、ハンドオーバーに関する制御メッセージ、デュアルコネクトに関する制御メッセージなどがある。
The inter-base station apparatus communication unit 225 communicates with another base station apparatus, and transmits a control message between base station apparatuses input from the RRC control unit 223 to the other base station apparatus. Further, the inter-base station apparatus communication unit 225 receives a control message between base station apparatuses from other base station apparatuses, and outputs the received control message to the RRC control unit 223. Control messages between base station apparatuses include a control message related to handover and a control message related to dual connection.
MME通信部227は、MME(Mobility Management Entity)と通信し、RRC制御部223から入力された基地局装置-MME間の制御メッセージをMMEに送信する。また、MME通信部227は、MMEからの基地局装置-MME間の制御メッセージを受信し、受信した制御メッセージをRRC制御部223に出力する。基地局装置-MME間の制御メッセージには、パススイッチ要求メッセージ、パススイッチ要求応答メッセージなどがある。
The MME communication unit 227 communicates with an MME (Mobility Management Entity) and transmits a control message between the base station apparatus and the MME input from the RRC control unit 223 to the MME. Further, the MME communication unit 227 receives a control message between the base station apparatus and the MME from the MME, and outputs the received control message to the RRC control unit 223. Control messages between the base station apparatus and the MME include a path switch request message and a path switch request response message.
GW通信部229は、GWと通信し、GWから送られる移動局装置のユーザーデータを受信し、受信したデータをデータ生成部201に出力する。また、GW通信部229は、データ処理部221から入力された移動局装置のユーザーデータをGWに送信する。
The GW communication unit 229 communicates with the GW, receives the user data of the mobile station apparatus sent from the GW, and outputs the received data to the data generation unit 201. In addition, the GW communication unit 229 transmits user data of the mobile station apparatus input from the data processing unit 221 to the GW.
尚、送信処理部207、無線部209、受信処理部211は、PHY層の動作を行い、送信データ記憶部203、送信HARQ処理部205、受信HARQ処理部213、MAC情報抽出部215、MAC制御部219は、MAC層の動作を行い、データ生成部201及びデータ処理部221は、RLC層及びPDCP層の動作を行い、RRC制御部223はRRC層の動作を行う。
The transmission processing unit 207, the radio unit 209, and the reception processing unit 211 perform operations of the PHY layer, and transmit data storage unit 203, transmission HARQ processing unit 205, reception HARQ processing unit 213, MAC information extraction unit 215, MAC control. The unit 219 performs operations of the MAC layer, the data generation unit 201 and the data processing unit 221 perform operations of the RLC layer and the PDCP layer, and the RRC control unit 223 performs operations of the RRC layer.
[動作説明]
図8~図14で説明したような無線通信システムを想定する。そして、図8が示すように、基地局装置3-1と複数の移動局装置1-1、1-2、1-3とが通信を行なう。また、図15で説明したマクロセルの基地局装置3-1およびスモールセルの基地局装置3-2と移動局装置1-1が複数のセルを介して通信を行なうような無線通信システムを想定している。 [Description of operation]
A wireless communication system as described with reference to FIGS. 8 to 14 is assumed. Then, as shown in FIG. 8, the base station device 3-1 and the plurality of mobile station devices 1-1, 1-2, 1-3 communicate. Further, a wireless communication system is assumed in which the macro cell base station device 3-1, the small cell base station device 3-2, and the mobile station device 1-1 described in FIG. 15 communicate via a plurality of cells. ing.
図8~図14で説明したような無線通信システムを想定する。そして、図8が示すように、基地局装置3-1と複数の移動局装置1-1、1-2、1-3とが通信を行なう。また、図15で説明したマクロセルの基地局装置3-1およびスモールセルの基地局装置3-2と移動局装置1-1が複数のセルを介して通信を行なうような無線通信システムを想定している。 [Description of operation]
A wireless communication system as described with reference to FIGS. 8 to 14 is assumed. Then, as shown in FIG. 8, the base station device 3-1 and the plurality of mobile station devices 1-1, 1-2, 1-3 communicate. Further, a wireless communication system is assumed in which the macro cell base station device 3-1, the small cell base station device 3-2, and the mobile station device 1-1 described in FIG. 15 communicate via a plurality of cells. ing.
図3に示すように移動局装置1-1は、基地局装置3-1と基地局装置3-2とデュアルコネクトを用いることよって接続(デュアルコネクト接続)する。マクロセルの基地局装置3-1とMME(Mobility Management Entity)間では、少なくとも移動局装置1-1の制御情報(Control-plane information)の送受信が行われる。スモールセルの基地局装置3-2とGW(Gateway)間は、少なくとも移動局装置1-1のユーザー情報(User-plane information)の送受信が行われる。マクロセルの基地局装置3-1とスモールセルの基地局装置3-2の間では、移動局装置1-1を制御するための制御情報の送受信が行われる。
As shown in FIG. 3, the mobile station apparatus 1-1 is connected to the base station apparatus 3-1 and the base station apparatus 3-2 by using a dual connect (dual connect connection). At least control information (Control-plane information) of the mobile station apparatus 1-1 is transmitted and received between the base station apparatus 3-1 of the macro cell and the MME (Mobility Management Entity). At least user information (User-plane information) of the mobile station device 1-1 is transmitted and received between the small cell base station device 3-2 and the GW (Gateway). Control information for controlling the mobile station apparatus 1-1 is transmitted and received between the macro cell base station apparatus 3-1 and the small cell base station apparatus 3-2.
また、図4に示すようなデュアルコネクト接続では、マクロセルの基地局装置3-1とMME(Mobility Management Entity)間では、少なくとも移動局装置1-1の制御情報(Control-plane information)の送受信が行われる。マクロセルの基地局装置3-1とGW(Gateway))間では、少なくとも移動局装置1-1のユーザー情報(User-plane information)の送受信が行われる。
In addition, in the dual connect connection as shown in FIG. 4, at least control information (Control-plane information) of the mobile station apparatus 1-1 is transmitted and received between the base station apparatus 3-1 and MME (Mobility Management Entity) of the macro cell. Done. At least user information (User-plane information) of the mobile station apparatus 1-1 is transmitted and received between the base station apparatus 3-1 and GW (Gateway) in the macro cell.
マクロセルの基地局装置3-1は、スモールセルの基地局装置3-2にGWから受信したユーザー情報を転送する。また、スモールセルの基地局装置3-2は、移動局装置1-1から受信したユーザー情報を基地局装置3-1に転送する。また、マクロセルの基地局装置3-1とスモールセルの基地局装置3-2の間では、移動局装置1-1を制御するための制御情報の送受信が行われる。
The macro cell base station apparatus 3-1 transfers the user information received from the GW to the small cell base station apparatus 3-2. The small cell base station apparatus 3-2 transfers the user information received from the mobile station apparatus 1-1 to the base station apparatus 3-1. In addition, transmission / reception of control information for controlling the mobile station apparatus 1-1 is performed between the base station apparatus 3-1 of the macro cell and the base station apparatus 3-2 of the small cell.
基地局装置3-1および基地局装置3-2が、移動局装置1-1が間欠受信動作を行うための間欠受信パラメータを決定するための手順を以下に示す。マクロセルの基地局装置3-1はセル1を用いて移動局装置1-1と通信を行い、スモールセルの基地局装置3-2はセル2を用いて移動局装置1-1と通信を行う。つまり、移動局装置1-1が、セル1およびセル2を同時に用いて、基地局装置3-1および基地局装置3-2と通信を行う場合の例を示す。
The procedure for the base station device 3-1 and the base station device 3-2 to determine the intermittent reception parameter for the mobile station device 1-1 to perform the intermittent reception operation is described below. The macro cell base station apparatus 3-1 communicates with the mobile station apparatus 1-1 using the cell 1, and the small cell base station apparatus 3-2 communicates with the mobile station apparatus 1-1 using the cell 2. . That is, an example is shown in which mobile station apparatus 1-1 communicates with base station apparatus 3-1 and base station apparatus 3-2 using cell 1 and cell 2 simultaneously.
基地局装置3-1は、基地局装置3-2とのデュアルコネクトでの移動局装置1-1との通信を決定後、基地局装置3-2にデュアルコネクトでの接続を要求するデュアルコネクト要求メッセージを送信する。デュアルコネクト要求メッセージには、移動局装置1-1の情報が含まれる。基地局装置3-2は、基地局装置3-1にデュアルコネクトでの接続要求に対する応答を示したデュアルコネクト要求応答メッセージを送信する。デュアルコネクト要求応答メッセージには、基地局装置3-2のセル2の設定情報が含まれる(図5)。
The base station device 3-1 determines the communication with the mobile station device 1-1 in the dual connection with the base station device 3-2, and then requests the base station device 3-2 to connect with the dual connection. Send a request message. The dual connect request message includes information on the mobile station device 1-1. The base station device 3-2 transmits to the base station device 3-1 a dual connect request response message indicating a response to the connection request with dual connect. The dual connect request response message includes the setting information of the cell 2 of the base station device 3-2 (FIG. 5).
基地局装置3-1は、デュアルコネクト要求メッセージの送信前またはデュアルコネクト要求応答メッセージの受信後、移動局装置1-1が自基地局装置に対して間欠受信動作を行うための間欠受信パラメータ(間欠受信開始オフセット、間欠受信周期(DRX cycle)、間欠受信期間タイマー(on Duration timer)、受信延長期間タイマー(Inactivity timer)、再送信期間タイマー(Retransmission timer)等)を決定する。
The base station device 3-1 transmits an intermittent reception parameter (for intermittent reception operation for the mobile station device 1-1 to the base station device before the dual connect request message is transmitted or after the dual connect request response message is received). An intermittent reception start offset, an intermittent reception cycle (DRX cycle), an intermittent reception period timer (on Duration timer), a reception extension period timer (Inactivity timer), a retransmission period timer (Retransmission timer), and the like are determined.
次に基地局装置3-1は、移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための数種類の間欠受信パラメータの候補を決定する。基地局装置3-1は、決定した数種類の間欠受信パラメータの候補を基地局装置3-2に通知する。
Next, the base station apparatus 3-1 determines several types of intermittent reception parameter candidates for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2. The base station apparatus 3-1 notifies the base station apparatus 3-2 of several types of determined intermittent reception parameter candidates.
尚、基地局装置3-1は、間欠受信開始オフセット、間欠受信周期、間欠受信期間タイマー、受信延長期間タイマー、再送信期間タイマーの全ての間欠受信パラメータに対して、数種類の候補を決定して、基地局装置3-2に通知しても良い。また、基地局装置3-1は、間欠受信開始オフセット、間欠受信周期などの一部のパラメータに対して数種類の候補を決定して、基地局装置3-2に通知しても良い。
The base station apparatus 3-1 determines several types of candidates for all the intermittent reception parameters of the intermittent reception start offset, the intermittent reception period, the intermittent reception period timer, the reception extension period timer, and the retransmission period timer. The base station apparatus 3-2 may be notified. In addition, the base station apparatus 3-1 may determine several types of candidates for some parameters such as the intermittent reception start offset and the intermittent reception cycle, and notify the base station apparatus 3-2 of them.
また、基地局装置3-1は、先に決定した移動局装置1-1が自基地局装置に対して間欠受信動作を行うための間欠受信パラメータを考慮して、移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータの候補を決定しても良い。
In addition, the base station apparatus 3-1 considers the intermittent reception parameters for the mobile station apparatus 1-1 determined earlier to perform the intermittent reception operation on the base station apparatus, and the mobile station apparatus 1-1 You may determine the candidate of the intermittent reception parameter for performing intermittent reception operation | movement with respect to the base station apparatus 3-2.
基地局装置3-2は、基地局装置3-1から取得した間欠受信パラメータの候補から自基地局装置が移動局装置1-1に提供する最適な間欠受信パラメータを選択する。基地局装置3-2は、選択した間欠受信パラメータに関する情報を基地局装置3-1に通知する。
The base station device 3-2 selects an optimum intermittent reception parameter that the base station device provides to the mobile station device 1-1 from the candidates for the intermittent reception parameter acquired from the base station device 3-1. The base station device 3-2 notifies the information regarding the selected intermittent reception parameter to the base station device 3-1.
基地局装置3-2は、基地局装置3-1から間欠受信パラメータに対して数種類の候補を取得した場合、基地局装置3-2は、数種類の候補から最適なパラメータを決定する。また、基地局装置3-1から一部の間欠受信パラメータが通知されなかった場合、通知されなかったパラメータに関しては、自基地局装置で決定する。
When the base station apparatus 3-2 acquires several types of candidates for the intermittent reception parameter from the base station apparatus 3-1, the base station apparatus 3-2 determines an optimum parameter from the several types of candidates. If some of the intermittent reception parameters are not notified from the base station device 3-1, the parameters not notified are determined by the own base station device.
例えば、基地局装置3-2は、間欠受信開始オフセットA、間欠受信周期Aのセットおよび間欠受信開始オフセットB、間欠受信周期Bのセットを基地局装置3-1から受信した場合、間欠受信開始オフセットA、間欠受信周期Aのセットまたは間欠受信開始オフセットB、間欠受信周期Bのセットのどちらかを選択する。
For example, when the base station device 3-2 receives the intermittent reception start offset A, the set of the intermittent reception cycle A and the intermittent reception start offset B, and the set of the intermittent reception cycle B from the base station device 3-1, the base station device 3-2 starts the intermittent reception. One of the set of offset A, intermittent reception cycle A or intermittent reception start offset B, and intermittent reception cycle B is selected.
そして、基地局装置3-2は、間欠受信期間タイマーC、受信延長期間タイマーC、再送信期間タイマーCのパラメータを自基地局装置で決定する。基地局装置3-2は、選択した間欠受信開始オフセットA、間欠受信周期Aのセットまたは間欠受信開始オフセットB、間欠受信周期Bのセットのどちらか一方と間欠受信期間タイマーC、受信延長期間タイマーC、再送信期間タイマーCを間欠受信パラメータとして決定し、決定した間欠受信パラメータを基地局装置3-1に通知する。
Then, the base station apparatus 3-2 determines the parameters of the intermittent reception period timer C, the reception extension period timer C, and the retransmission period timer C at its own base station apparatus. The base station apparatus 3-2 includes either the selected intermittent reception start offset A, the intermittent reception period A set or the intermittent reception start offset B, the intermittent reception period B set, the intermittent reception period timer C, or the reception extension period timer. C, the retransmission period timer C is determined as an intermittent reception parameter, and the determined intermittent reception parameter is notified to the base station apparatus 3-1.
尚、基地局装置3-1は、基地局装置3-1が基地局装置3-2に通知する間欠受信パラメータの候補をデュアルコネクト設定のためのデュアルコネクト要求メッセージに含めて基地局装置3-2に通知するようにしても良い。また、基地局装置3-2は、基地局装置3-2が選択した間欠受信パラメータをデュアルコネクト要求応答メッセージに含めて通知するようにしても良い。
The base station apparatus 3-1 includes the intermittent reception parameter candidate notified to the base station apparatus 3-2 by the base station apparatus 3-1 in the dual connect request message for setting the dual connect. 2 may be notified. Further, the base station device 3-2 may notify the discontinuous reception parameter selected by the base station device 3-2 in a dual connect request response message.
また、基地局装置3-2は、基地局装置3-1に移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための数種類の間欠受信パラメータの候補を提供し、基地局装置3-1が数種類の間欠受信パラメータの候補から移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータを決定するようにしても良い。
The base station device 3-2 provides the base station device 3-1 with several types of intermittent reception parameter candidates for the mobile station device 1-1 to perform an intermittent reception operation on the base station device 3-2. The base station apparatus 3-1 may determine intermittent reception parameters for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2 from several types of intermittent reception parameter candidates. .
この場合、基地局装置3-2は、デュアルコネクト要求メッセージを受信すると、移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための数種類の間欠受信パラメータの候補を決定する。基地局装置3-2は、数種類の間欠受信パラメータの候補をデュアルコネクト要求応答メッセージに含めて、基地局装置3-1に通知する。基地局装置3-1は、数種類の間欠受信パラメータの候補の中から移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータを選択する。基地局装置3-1は、選択した間欠受信パラメータを基地局装置3-2に通知する。
In this case, when the base station apparatus 3-2 receives the dual connect request message, the mobile station apparatus 1-1 selects several types of intermittent reception parameter candidates for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2. decide. The base station apparatus 3-2 includes several types of intermittent reception parameter candidates in the dual connect request response message, and notifies the base station apparatus 3-1 of them. The base station apparatus 3-1 selects an intermittent reception parameter for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2 from among several types of intermittent reception parameter candidates. The base station device 3-1 notifies the selected intermittent reception parameter to the base station device 3-2.
基地局装置3-1は、移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータを基地局装置3-2から取得すると、移動局装置1-1がそれぞれの基地局装置に対して間欠受信動作を行うための間欠受信パラメータおよび対象となるセルの識別情報を移動局装置1-1に通知する。
When the base station device 3-1 acquires from the base station device 3-2 intermittent reception parameters for the mobile station device 1-1 to perform an intermittent reception operation on the base station device 3-2, the mobile station device 1-1 1 notifies the mobile station apparatus 1-1 of intermittent reception parameters and target cell identification information for performing an intermittent reception operation on each base station apparatus.
例えば、基地局装置3-1は、セル1の識別情報および移動局装置1-1が基地局装置3-1に対して間欠受信動作を行うための間欠受信パラメータ(間欠受信開始オフセット、間欠受信周期、間欠受信期間タイマー、受信延長期間タイマー、再送信期間タイマー)のセットとセル2の識別情報および移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータのセットを移動局装置1-1に通知する。
For example, the base station device 3-1 identifies the cell 1 identification information and the intermittent reception parameters (intermittent reception start offset, intermittent reception) for the mobile station device 1-1 to perform an intermittent reception operation on the base station device 3-1. Period, intermittent reception period timer, reception extension period timer, retransmission period timer), cell 2 identification information, and intermittent for mobile station apparatus 1-1 to perform intermittent reception operation on base station apparatus 3-2. The mobile station apparatus 1-1 is notified of the reception parameter set.
尚、各基地局装置で複数セルを提供している場合、セルの識別情報は、複数セルの情報が含まれる。また、セルの識別情報は、送信タイミンググループ情報でも良い。また、セルの識別情報は、基地局装置が新たに同じ間欠受信動作を行うグループを設定し、そのグループの情報で示しても良い。
When each base station apparatus provides a plurality of cells, the cell identification information includes information on a plurality of cells. Further, the cell identification information may be transmission timing group information. Further, the cell identification information may be indicated by information on a group in which the base station apparatus newly sets the same intermittent reception operation.
移動局装置1-1は、基地局装置3-1から受信したセルの識別情報と間欠受信パラメータを取得すると、対応するセルに対して間欠受信パラメータを設定し、それぞれのセルに対して間欠受信動作を行う。
When the mobile station apparatus 1-1 acquires the cell identification information and the intermittent reception parameter received from the base station apparatus 3-1, the mobile station apparatus 1-1 sets the intermittent reception parameter for the corresponding cell and performs intermittent reception for each cell. Perform the action.
また、基地局装置3-1は、基地局装置3-2に移動局装置1-1のデータ情報(データのQoS(Quality of Service)など)を通知し、基地局装置3-2が通知された移動局装置1-1のデータ情報を考慮して、移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータを決定するようにしても良い。
Further, the base station device 3-1 notifies the base station device 3-2 of the data information of the mobile station device 1-1 (such as data quality of service (QoS)), and the base station device 3-2 is notified. Considering the data information of the mobile station apparatus 1-1, the mobile station apparatus 1-1 may determine the intermittent reception parameters for the intermittent reception operation to the base station apparatus 3-2.
また、基地局装置3-1が、データ情報を考慮し、移動局装置1-1が基地局装置3-2に対して間欠受信動作を行うための間欠受信パラメータを決定して、基地局装置3-2に通知するようにしても良い。基地局装置3-2は、基地局装置3-1から通知された間欠受信パラメータを考慮して、移動局装置1-1に対して、データスケジューリングを行う。
In addition, the base station apparatus 3-1 determines intermittent reception parameters for the mobile station apparatus 1-1 to perform an intermittent reception operation on the base station apparatus 3-2 in consideration of data information, and the base station apparatus You may make it notify to 3-2. The base station apparatus 3-2 performs data scheduling for the mobile station apparatus 1-1 in consideration of the intermittent reception parameter notified from the base station apparatus 3-1.
尚、短期間間欠受信動作および長期間間欠受信動作を移動局装置1-1に実行させる場合の間欠受信パラメータの決定動作も同様である。
The same applies to the operation for determining the intermittent reception parameter when the mobile station apparatus 1-1 executes the short-term intermittent reception operation and the long-term intermittent reception operation.
例えば、基地局装置3-1は、移動局装置1-1に、セル1に対しての短期間間欠受信パラメータセットA(セル識別情報(セル1の識別情報)、短期間間欠受信周期A、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーA、短期間間欠受信周期期間タイマーA)および長期間間欠受信パラメータセットB(長期間間欠受信周期B、間欠受信開始オフセットB、間欠受信期間タイマーB、受信延長期間タイマーB、再送信期間タイマーB)を通知する。
For example, the base station device 3-1 sends to the mobile station device 1-1 the short-term intermittent reception parameter set A (cell identification information (cell 1 identification information), short-term intermittent reception cycle A, Intermittent reception start offset A, intermittent reception period timer A, extended reception period timer A, retransmission period timer A, short period intermittent reception period period timer A) and long-term intermittent reception parameter set B (long-term intermittent reception period B, intermittent Notification of reception start offset B, intermittent reception period timer B, reception extension period timer B, and retransmission period timer B).
また、基地局装置3-1は、移動局装置1-1に、セル2に対しての短期間間欠受信パラメータセットC(セル識別情報(セル2の識別情報)、短期間間欠受信周期C、間欠受信開始オフセットC、間欠受信期間タイマーC、受信延長期間タイマーC、再送信期間タイマーC、短期間間欠受信周期期間タイマーC)および長期間間欠受信パラメータセットD(長期間間欠受信周期D、間欠受信開始オフセットD、間欠受信期間タイマーD、受信延長期間タイマーD、再送信期間タイマーD)を通知する。
Further, the base station apparatus 3-1 sends to the mobile station apparatus 1-1 a short-term intermittent reception parameter set C (cell identification information (cell 2 identification information), short-period intermittent reception cycle C, Intermittent reception start offset C, intermittent reception period timer C, extended reception period timer C, retransmission period timer C, short period intermittent reception period period timer C) and long-term intermittent reception parameter set D (long-term intermittent reception period D, intermittent A reception start offset D, an intermittent reception period timer D, a reception extension period timer D, and a retransmission period timer D) are notified.
移動局装置1-1は、それぞれのセル(またはそれぞれの基地局装置)に対して、別々に設定された間欠受信パラメータを用いて短期間間欠受信動作及び長期間間欠受信動作を行う。
The mobile station apparatus 1-1 performs a short-term intermittent reception operation and a long-term intermittent reception operation for each cell (or each base station apparatus) using intermittent reception parameters set separately.
また、間欠受信周期の短期間間欠受信周期(Short DRX cycle)に対して、各基地局装置がそれぞれ決定し、長期間間欠受信周期(Long DRX cycle)に対しては、基地局装置3-1が決定するようにしても良い。基地局装置3-1は、移動局装置1-1が基地局装置3-1に対して短期間間欠受信動作を行うための間欠受信パラメータおよび移動局装置1-1が基地局装置3-1および基地局装置3-2に対して長期間間欠受信動作を行うための間欠受信パラメータを決定する。
Also, each base station apparatus determines the short-term intermittent reception cycle (Short DRX cycle) of the intermittent reception cycle, and the base station device 3-1 for the long-term intermittent reception cycle (Long DRX cycle). May be determined. The base station device 3-1 includes an intermittent reception parameter for the mobile station device 1-1 to perform intermittent reception operation for a short period of time on the base station device 3-1, and the mobile station device 1-1 And the intermittent reception parameter for performing the long-term intermittent reception operation for the base station apparatus 3-2 is determined.
そして、基地局装置3-1は、移動局装置1-1が基地局装置3-2に対して短期間間欠受信動作を行うための間欠受信パラメータの候補を決定し、基地局装置3-2に短期間間欠受信パラメータの候補と長期間間欠受信パラメータを通知する。基地局装置3-2は、基地局装置3-1から通知された短期間間欠受信パラメータの候補の中から移動局装置1-1が基地局装置3-2に対して短期間間欠受信動作を行うための間欠受信パラメータを選択する。
Then, the base station apparatus 3-1 determines the intermittent reception parameter candidates for the mobile station apparatus 1-1 to perform the short-term intermittent reception operation with respect to the base station apparatus 3-2, and the base station apparatus 3-2 Short-term intermittent reception parameter candidates and long-term intermittent reception parameters are notified. In the base station device 3-2, the mobile station device 1-1 performs short-term intermittent reception operation on the base station device 3-2 from the short-term intermittent reception parameter candidates notified from the base station device 3-1. Select the intermittent reception parameter to perform.
移動局装置1-1は、短期間間欠受信周期の間欠受信では、それぞれのセル(またはそれぞれの基地局装置)に対して、別々に設定された間欠受信周期での間欠受信動作を行い、長期間間欠受信周期の間欠受信動作では、移動局装置1-1は、全てのセルに対して同じ間欠受信周期での間欠受信動作を行う。
In the intermittent reception of the short-term intermittent reception cycle, the mobile station device 1-1 performs an intermittent reception operation with the intermittent reception cycle set separately for each cell (or each base station device). In the intermittent reception operation of the period intermittent reception cycle, the mobile station apparatus 1-1 performs the intermittent reception operation at the same intermittent reception cycle for all the cells.
例えば、基地局装置3-1は、セル1での短期間間欠受信パラメータセットA(セル識別情報(セル1の識別情報)、短期間間欠受信周期A、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーA、短期間間欠受信周期期間タイマーA)を通知し、セル2での短期間間欠受信パラメータセットB(セル識別情報(セル2の識別情報)、短期間間欠受信周期B、間欠受信開始オフセットB、間欠受信期間タイマーB、受信延長期間タイマーB、再送信期間タイマーB、短期間間欠受信周期期間タイマーB)を通知し、長期間間欠受信パラメータセット(長期間間欠受信周期C、間欠受信開始オフセットC、間欠受信期間タイマーC、受信延長期間タイマーC、再送信期間タイマーC)を通知する。
For example, the base station device 3-1 has the short-term intermittent reception parameter set A (cell identification information (cell 1 identification information), short-period intermittent reception cycle A, intermittent reception start offset A, intermittent reception period timer in cell 1. A, reception extended period timer A, retransmission period timer A, short period intermittent reception cycle period timer A), short period intermittent reception parameter set B in cell 2 (cell identification information (cell 2 identification information), Short period intermittent reception cycle B, intermittent reception start offset B, intermittent reception period timer B, extended reception period timer B, retransmission period timer B, short period intermittent reception period period timer B), and long-term intermittent reception parameter set (Long-term intermittent reception cycle C, intermittent reception start offset C, intermittent reception period timer C, reception extended period timer C, retransmission period timer C) That.
図6に示すように、移動局装置1-1は、セル1に対して時刻T1から短期間間欠受信パラメータセットAの間欠受信パラメータを使用して間欠受信動作を行い、セル2に対して時刻T1から短期間間欠受信パラメータセットBの間欠受信パラメータを使用して間欠受信動作を行う。移動局装置1-1は、各短期間間欠受信パラメータセットで指定された短期間間欠受信周期期間後に長期間間欠受信パラメータセットを使用して間欠受信動作を行う。
As shown in FIG. 6, the mobile station apparatus 1-1 performs an intermittent reception operation on the cell 1 using the intermittent reception parameters of the short-term intermittent reception parameter set A from the time T1 and The intermittent reception operation is performed using the intermittent reception parameters of the short-term intermittent reception parameter set B from T1. The mobile station apparatus 1-1 performs the intermittent reception operation using the long-term intermittent reception parameter set after the short-period intermittent reception cycle period specified by each short-period intermittent reception parameter set.
移動局装置1-1は、セル1に対して時刻T2で短期間間欠受信周期期間タイマーAが満了すると、長期間間欠受信パラメータセットを使用して間欠受信動作を行う。また、移動局装置1-1は、セル2に対して時刻T3で短期間間欠受信周期期間タイマーBが満了すると、長期間間欠受信パラメータセットを使用して間欠受信動作を行う。
When the short-term intermittent reception cycle period timer A expires for the cell 1 at time T2, the mobile station device 1-1 performs an intermittent reception operation using the long-term intermittent reception parameter set. Further, when the short-term intermittent reception cycle period timer B expires for the cell 2 at time T3, the mobile station apparatus 1-1 performs an intermittent reception operation using the long-term intermittent reception parameter set.
尚、長期間間欠受信動作に入るタイミングについて、移動局装置1-1は、どちらかのセルに対して長期間間欠受信動作を開始したタイミングで、もう一方のセルに対しても長期間間欠受信動作を開始するようにしても良い。
As for the timing of entering the long-term intermittent reception operation, the mobile station apparatus 1-1 starts the long-term intermittent reception operation for one of the cells, and the long-term intermittent reception for the other cell. The operation may be started.
別の例として、基地局装置3-1は、長期間間欠受信パラメータセットとして長期間間欠受信周期A、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーAを通知し、セル1での短期間間欠受信パラメータセットとしてセル識別情報(セル1の識別情報)、短期間間欠受信周期Bおよび短期間間欠受信周期期間Bを通知し、セル2での短期間間欠受信パラメータセットとしてセル識別情報(セル2の識別情報)、短期間間欠受信周期Cを通知する。
As another example, the base station apparatus 3-1 includes a long-term intermittent reception parameter set, a long-term intermittent reception cycle A, an intermittent reception start offset A, an intermittent reception period timer A, a reception extension period timer A, and a retransmission period timer A. And the cell identification information (cell 1 identification information), the short period intermittent reception cycle B and the short period intermittent reception cycle period B as the short period intermittent reception parameter set in cell 1, and the short period in cell 2 Cell identification information (cell 2 identification information) and short-term intermittent reception cycle C are notified as an intermittent reception parameter set.
この場合、基地局装置3-1が、長期間間欠受信周期A、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーAを通知し、セル1での短期間間欠受信パラメータセットとしてセル識別情報(セル1の識別情報)、短期間間欠受信周期Bおよび短期間間欠受信周期期間タイマーBを決定し、基地局装置3-2が、短期間間欠受信周期Cを決定する。
In this case, the base station apparatus 3-1 notifies the long-term intermittent reception cycle A, the intermittent reception start offset A, the intermittent reception period timer A, the reception extension period timer A, and the retransmission period timer A, and the short-term in the cell 1 Cell identification information (cell 1 identification information), short-term intermittent reception cycle B, and short-term intermittent reception cycle period timer B are determined as the intermittent reception parameter set, and the base station apparatus 3-2 determines that the short-term intermittent reception cycle C To decide.
図7に示すように、移動局装置1-1は、セル1に対して、短期間間欠受信周期B、短期間間欠受信周期期間タイマーB、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーAを用いて、時刻T4から間欠受信動作を行い、セル2に対して、短期間間欠受信周期C、短期間間欠受信周期期間タイマーB,間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーAを用いて、時刻T4から間欠受信動作を行う。
As shown in FIG. 7, the mobile station apparatus 1-1 receives, for cell 1, a short-term intermittent reception cycle B, a short-period intermittent reception cycle period timer B, an intermittent reception start offset A, an intermittent reception period timer A, a reception Using the extension period timer A and the retransmission period timer A, the intermittent reception operation is performed from time T4, and the short period intermittent reception period C, the short period intermittent reception period period timer B, and the intermittent reception start offset A are performed for the cell 2. Using the intermittent reception period timer A, the reception extension period timer A, and the retransmission period timer A, the intermittent reception operation is performed from time T4.
また、移動局装置1-1は、短期間間欠受信周期期間タイマーBが満了すると、セル1およびセル2に対して、長期間間欠受信周期A、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーAを用いて、時刻T5から間欠受信動作を行う。
In addition, when the short-term intermittent reception cycle period timer B expires, the mobile station device 1-1 makes a long-term intermittent reception cycle A, an intermittent reception start offset A, an intermittent reception period timer A, Using the reception extension period timer A and the retransmission period timer A, the intermittent reception operation is performed from time T5.
つまり、移動局装置1-1は、間欠受信開始オフセットA、間欠受信期間タイマーA、受信延長期間タイマーA、再送信期間タイマーA、短期間間欠受信周期期間Bを共通の間欠受信動作のパラメータとして使用する。尚、長期間間欠受信動作において、受信延長期間タイマーおよび再送信期間タイマーの動作は、対象となるセル毎に動作するようにしても良い。
That is, the mobile station apparatus 1-1 uses the intermittent reception start offset A, the intermittent reception period timer A, the reception extension period timer A, the retransmission period timer A, and the short period intermittent reception cycle period B as parameters of the common intermittent reception operation. use. In the long-term intermittent reception operation, the operation of the reception extension period timer and the retransmission period timer may be performed for each target cell.
また、例えば、移動局装置1-1は、間欠受信期間の開始位置がセル1とセル2のシステムフレーム番号(System frame number, SFN)に関係なく、それぞれ同じフレームとなるように動作しても良い。つまり、移動局装置1-1は、間欠受信開始オフセットAによって決定したセル1の間欠受信期間の開始位置をセル2にも適用しても良い。
Further, for example, the mobile station apparatus 1-1 may operate so that the start position of the intermittent reception period is the same frame regardless of the system frame number (System frame number, SFN) of the cell 1 and the cell 2. good. That is, the mobile station apparatus 1-1 may apply the start position of the intermittent reception period of the cell 1 determined by the intermittent reception start offset A to the cell 2 as well.
このように、デュアルコネクト時に各基地局装置に対して、移動局装置1-1が異なる動作を行う場合でも、タイマーなどの各パラメータを基地局装置間で共通化させることで情報量を削減することができる。
In this way, even when the mobile station apparatus 1-1 performs different operations for each base station apparatus during dual connection, the amount of information is reduced by sharing each parameter such as a timer among the base station apparatuses. be able to.
例えば、基地局装置3-1は、バッファステータスレポート(BSR)通知するためのタイマー(再送信タイマー、周期タイマー)を1セットのみ移動局装置1-1に通知し、移動局装置1-1は、それぞれ基地局装置に対して通知されたタイマーを設定し、各基地局装置単位でバッファステータスレポートの送信制御を行う。パワーヘッドルームレポート(PHR)に関するタイマー等に対しても同様である。
For example, the base station apparatus 3-1 notifies the mobile station apparatus 1-1 of only one set of timers (retransmission timer, period timer) for notifying the buffer status report (BSR), and the mobile station apparatus 1-1 The timer notified to each base station apparatus is set, and transmission control of the buffer status report is performed for each base station apparatus unit. The same applies to the timer related to the power headroom report (PHR).
上記例では、各基地局装置が1つのセルを提供する場合について示したが、各基地局装置が複数セルを提供している場合にも同様である。基地局装置3-1は、複数のセルの識別情報と間欠受信パラメータセットを移動局装置1-1に通知する。移動局装置1-1は、セル識別情報で示された間欠受信パラメータを設定し、各基地局装置に対して、間欠受信動作を行う。
In the above example, the case where each base station device provides one cell is shown, but the same applies to the case where each base station device provides a plurality of cells. The base station device 3-1 notifies the mobile station device 1-1 of the identification information of the plurality of cells and the intermittent reception parameter set. The mobile station apparatus 1-1 sets the intermittent reception parameter indicated by the cell identification information, and performs an intermittent reception operation for each base station apparatus.
以上、図面を参照してこの発明の一実施形態について詳しく説明してきたが、具体的な構成は上述のものに限られることはなく、この発明の要旨を逸脱しない範囲内において様々な設計変更等をすることが可能である。例えば、基地局装置3-1はマクロセル以外のセルであってもよく、例えばスモールセルであってもよい。また、基地局装置3-2はスモールセル以外のセルであってもよく、例えばマクロセルであってもよい。
As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to the above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to For example, the base station device 3-1 may be a cell other than the macro cell, for example, a small cell. Further, the base station apparatus 3-2 may be a cell other than the small cell, for example, a macro cell.
実施形態では、端末装置もしくは通信装置の一例として移動局装置を記載したが、本願発明は、これに限定されるものではなく、屋内外に設置される据え置き型、または非可動型の電子機器、たとえば、AV機器、キッチン機器、掃除・洗濯機器、空調機器、オフィス機器、自動販売機、その他生活機器などの端末装置もしくは通信装置に適用出来ることは言うまでもない。
In the embodiment, a mobile station device is described as an example of a terminal device or a communication device, but the present invention is not limited to this, and is a stationary or non-movable electronic device installed indoors and outdoors. For example, it goes without saying that the present invention can be applied to terminal devices or communication devices such as AV equipment, kitchen equipment, cleaning / washing equipment, air conditioning equipment, office equipment, vending machines, and other daily life equipment.
また、説明の便宜上、実施形態の移動局装置1-1、基地局装置3-1および基地局装置3-2を機能的なブロック図を用いて説明したが、移動局装置1-1、基地局装置3-1および基地局装置3-2の各部の機能またはこれらの機能の一部を実現するためのプログラムをコンピュータ読み取り可能な記録媒体に記録して、この記録媒体に記録されたプログラムをコンピュータシステムに読み込ませ、実行することにより移動局装置や基地局装置の制御を行なっても良い。尚、ここでいう「コンピュータシステム」とは、OSや周辺機器等のハードウェアを含むものとする。
For convenience of explanation, the mobile station apparatus 1-1, the base station apparatus 3-1 and the base station apparatus 3-2 of the embodiment have been described using functional block diagrams. The function of each part of the station apparatus 3-1 and the base station apparatus 3-2 or a program for realizing a part of these functions is recorded on a computer-readable recording medium, and the program recorded on the recording medium is recorded. The mobile station apparatus and the base station apparatus may be controlled by being read and executed by a computer system. The “computer system” here includes an OS and hardware such as peripheral devices.
また、「コンピュータ読み取り可能な記録媒体」とは、フレキシブルディスク、光磁気ディスク、ROM、CD-ROM等の可搬媒体、コンピュータシステムに内蔵されるハードディスク等の記憶装置のことをいう。さらに、「コンピュータ読み取り可能な記録媒体」とは、インターネット等のネットワークや電話回線等の通信回線を介してプログラムを送信する場合の通信線のように、短時間の間、動的にプログラムを保持するもの、その場合のサーバやクライアントとなるコンピュータシステム内部の揮発性メモリのように、一定時間プログラムを保持しているものも含むものとする。また上記プログラムは、前述した機能の一部を実現するためのものであっても良く、さらに、前述した機能をコンピュータシステムに既に記録されているプログラムとの組み合わせで実現できるものであっても良い。
Further, the “computer-readable recording medium” means a storage device such as a flexible disk, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” means that a program is dynamically held for a short time, like a communication line when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In this case, it is intended to include those that hold a program for a certain period of time, such as a volatile memory inside a computer system serving as a server or a client in that case. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system. .
また、上記各実施形態に用いた各機能ブロックは、典型的には集積回路であるLSIとして実現してもよい。各機能ブロックは個別にチップ化してもよいし、一部または全部を集積してチップ化してもよい。また、集積回路化の手法はLSIに限らず専用回路または汎用プロセッサで実現しても良い。また、半導体技術の進歩によりLSIに代替する集積回路化の技術が出現した場合、当該技術による集積回路を用いることも可能である。
Further, each functional block used in each of the above embodiments may be realized as an LSI that is typically an integrated circuit. Each functional block may be individually formed into chips, or a part or all of them may be integrated into a chip. Further, the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor. In addition, when an integrated circuit technology that replaces LSI appears due to progress in semiconductor technology, an integrated circuit based on the technology can also be used.
以上、この発明の実施形態について図面を参照して詳述してきたが、具体的な構成はこの実施形態に限られるものではなく、この発明の要旨を逸脱しない範囲の設計等も特許請求の範囲に含まれる。
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and the design and the like within the scope of the present invention are also within the scope of the claims. include.
本発明は、携帯電話、パーソナル・コンピュータ、タブレット型コンピュータなどに適用できる。
The present invention can be applied to mobile phones, personal computers, tablet computers, and the like.
1-1~1-3 移動局装置
3-1、3-2 基地局装置
101、201 データ生成部
103、203 送信データ記憶部
105、205 送信HARQ処理部
107、207 送信処理部
109、209 無線部
111、211 受信処理部
113、213 受信HARQ処理部
115、215 MAC情報抽出部
117、217 PHY制御部
119、219 MAC制御部
121、221 データ処理部
123、223 RRC制御部
225 基地局装置間通信部
227 MME通信部
229 GW通信部 1-1 to 1-3 Mobile station apparatus 3-1, 3-2 Base station apparatus 101, 201 Data generation unit 103, 203 Transmission data storage unit 105, 205 Transmission HARQ processing unit 107, 207 Transmission processing unit 109, 209 Radio Units 111, 211 reception processing unit 113, 213 reception HARQ processing unit 115, 215 MAC information extraction unit 117, 217 PHY control unit 119, 219 MAC control unit 121, 221 data processing unit 123, 223 RRC control unit 225 between base station devices Communication unit 227 MME communication unit 229 GW communication unit
3-1、3-2 基地局装置
101、201 データ生成部
103、203 送信データ記憶部
105、205 送信HARQ処理部
107、207 送信処理部
109、209 無線部
111、211 受信処理部
113、213 受信HARQ処理部
115、215 MAC情報抽出部
117、217 PHY制御部
119、219 MAC制御部
121、221 データ処理部
123、223 RRC制御部
225 基地局装置間通信部
227 MME通信部
229 GW通信部 1-1 to 1-3 Mobile station apparatus 3-1, 3-2
Claims (12)
- 第一の基地局装置と第二の基地局装置とが複数セルを介して端末装置と通信を行う無線通信システムであって、
前記第一の基地局装置は、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための第一の間欠受信パラメータセットを決定し、前記第二の基地局装置に前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を通知し、
前記第二の基地局装置は、前記間欠受信動作に関する情報に基づいて、前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための第二の間欠受信パラメータセットを決定し、前記第二の間欠受信パラメータセットを前記第一の基地局装置に通知する、
無線通信システム。 A wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells,
The first base station apparatus determines a first intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the first base station apparatus, and the second base station apparatus The terminal device notifies the second base station device of information related to the intermittent reception operation for performing the intermittent reception operation,
The second base station apparatus determines a second intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the second base station apparatus based on information on the intermittent reception operation. And notifying the first discontinuous reception parameter set to the first base station device,
Wireless communication system. - 請求項1記載の無線通信システムであって、
前記間欠受信動作に関する情報は、複数種類の間欠受信パラメータセットである無線通信システム。 The wireless communication system according to claim 1,
The information regarding the intermittent reception operation is a wireless communication system that is a plurality of types of intermittent reception parameter sets. - 請求項1記載の無線通信システムであって、
前記第一の基地局装置は、前記第二の基地局装置から前記第二の間欠受信パラメータセットを受信し、前記端末装置に前記第一の間欠受信パラメータセットと前記第二の間欠受信パラメータセットを通知する無線通信システム。 The wireless communication system according to claim 1,
The first base station device receives the second intermittent reception parameter set from the second base station device, and the terminal device receives the first intermittent reception parameter set and the second intermittent reception parameter set. A wireless communication system for notifying. - 第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置であって、
前記第一の基地局装置に前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を送信し、
前記第一の基地局装置から、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを受信し、
前記端末装置に前記間欠受信パラメータセットおよび前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを通知する、
基地局装置。 A base station device that communicates with a terminal device via a plurality of cells together with a first base station device,
Transmitting information related to the intermittent reception operation for the terminal device to perform an intermittent reception operation on the first base station device to the first base station device;
From the first base station device, the terminal device receives an intermittent reception parameter set for performing an intermittent reception operation on the first base station device,
Notifying the terminal device the intermittent reception parameter set and the intermittent reception parameter set for the terminal device to perform an intermittent reception operation on the base station device;
Base station device. - 請求項4記載の基地局装置であって、
前記間欠受信動作に関する情報は、複数種類の間欠受信パラメータセットであり、
複数種類の間欠受信パラメータセットを決定し、前記第一の基地局装置に前記複数種類の間欠受信パラメータセットを通知する、
基地局装置。 The base station apparatus according to claim 4, wherein
Information regarding the intermittent reception operation is a plurality of types of intermittent reception parameter sets,
Determining a plurality of types of intermittent reception parameter sets and notifying the first base station apparatus of the plurality of types of intermittent reception parameter sets;
Base station device. - 第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置であって、
前記第一の基地局装置から前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を受信し、
前記間欠受信動作に関する情報に基づいて、前記端末装置に自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを決定し、
前記間欠受信パラメータセットを前記第一の基地局装置に通知する、
基地局装置。 A base station device that communicates with a terminal device via a plurality of cells together with a first base station device,
The terminal device receives information on the intermittent reception operation for the terminal device to perform an intermittent reception operation on the base station device from the first base station device,
Based on the information related to the intermittent reception operation, the terminal device determines an intermittent reception parameter set for performing an intermittent reception operation on the base station device,
Notifying the first base station device of the intermittent reception parameter set,
Base station device. - 請求項6記載の基地局装置であって、
前記間欠受信動作に関する情報は、複数種類の間欠受信パラメータセットであり、
複数種類の間欠受信パラメータセットの中から1つの間欠受信パラメータセットを選択する、
基地局装置。 The base station apparatus according to claim 6, wherein
Information regarding the intermittent reception operation is a plurality of types of intermittent reception parameter sets,
Select one intermittent reception parameter set from multiple types of intermittent reception parameter sets.
Base station device. - 第一の基地局装置および第二の基地局装置と複数セルを介して通信を行う端末装置であって、
前記第一の基地局装置から短期間欠受信動作を実行するための間欠受信パラメータセットおよび長期間間欠受信動作を実行するための間欠受信パラメータセットを受信し、
前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で異なる間欠受信動作を行い、
前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で同じ間欠受信動作を行う、
端末装置。 A terminal device that communicates with a first base station device and a second base station device via a plurality of cells,
Receiving an intermittent reception parameter set for executing a short-term intermittent reception operation and an intermittent reception parameter set for executing a long-term intermittent reception operation from the first base station device;
When performing the short-term intermittent reception operation, performing an intermittent reception operation different for the intermittent reception operation for the first base station device and the intermittent reception operation for the second base station device,
When performing the short-term intermittent reception operation, the same intermittent reception operation is performed in the intermittent reception operation for the first base station device and the intermittent reception operation for the second base station device,
Terminal device. - 第一の基地局装置と第二の基地局装置とが複数セルを介して端末装置と通信を行う無線通信システムの無線通信方法であって、
前記第一の基地局装置は、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための第一の間欠受信パラメータセットを決定するステップと、
前記第二の基地局装置に前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を通知するステップと、
前記第二の基地局装置は、前記間欠受信動作に関する情報に基づいて、前記端末装置が前記第二の基地局装置に対して間欠受信動作を実行するための第二の間欠受信パラメータセットを決定し、前記第二の間欠受信パラメータセットを前記第一の基地局装置に通知するステップと、
を少なくとも含む無線通信方法。 A wireless communication method of a wireless communication system in which a first base station device and a second base station device communicate with a terminal device via a plurality of cells,
The first base station device determines a first intermittent reception parameter set for the terminal device to perform an intermittent reception operation on the first base station device;
Notifying the second base station device of information related to the intermittent reception operation for the terminal device to perform an intermittent reception operation on the second base station device;
The second base station apparatus determines a second intermittent reception parameter set for the terminal apparatus to perform an intermittent reception operation on the second base station apparatus based on information on the intermittent reception operation. And notifying the first discontinuous reception parameter set to the first base station device,
A wireless communication method including at least. - 第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置に適用される集積回路であって、
前記第一の基地局装置に前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を送信する手段と、
前記第一の基地局装置から、前記端末装置が前記第一の基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを受信する手段と、
前記端末装置に前記間欠受信パラメータセットおよび前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを通知する手段と、
を有する集積回路。 An integrated circuit applied to a base station device that communicates with a terminal device via a plurality of cells together with a first base station device,
Means for transmitting to the first base station device information related to the intermittent reception operation for the terminal device to perform an intermittent reception operation on the first base station device;
Means for receiving, from the first base station device, an intermittent reception parameter set for the terminal device to perform an intermittent reception operation on the first base station device;
Means for notifying the terminal device of the intermittent reception parameter set and the intermittent reception parameter set for the terminal device to perform an intermittent reception operation on the base station device;
An integrated circuit. - 第一の基地局装置とともに複数セルを介して端末装置と通信を行う基地局装置に適用される集積回路であって、
前記第一の基地局装置から前記端末装置が自基地局装置に対して間欠受信動作を実行するための間欠受信動作に関する情報を受信する手段と、
前記間欠受信動作に関する情報に基づいて、前記端末装置に自基地局装置に対して間欠受信動作を実行するための間欠受信パラメータセットを決定する手段と、
前記間欠受信パラメータセットを前記第一の基地局装置に通知する手段と、
を有する集積回路。 An integrated circuit applied to a base station device that communicates with a terminal device via a plurality of cells together with a first base station device,
Means for receiving from the first base station device information related to an intermittent reception operation for the terminal device to perform an intermittent reception operation on the base station device;
Based on the information on the intermittent reception operation, means for determining an intermittent reception parameter set for executing an intermittent reception operation on the base station device to the terminal device;
Means for notifying the first base station apparatus of the intermittent reception parameter set;
An integrated circuit. - 第一の基地局装置および第二の基地局装置と複数セルを介して通信を行う端末装置に適用される集積回路であって、
前記第一の基地局装置から短期間欠受信動作を実行するための間欠受信パラメータセットおよび長期間間欠受信動作を実行するための間欠受信パラメータセットを受信する手段と、
前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で異なる間欠受信動作を行い、
前記短期間欠受信動作を行う場合、第一の基地局装置に対しての間欠受信動作と第二の基地局装置に対しての間欠受信動作で同じ間欠受信動作を行う手段と、
を有する集積回路。 An integrated circuit applied to a terminal device that communicates with a first base station device and a second base station device via a plurality of cells,
Means for receiving an intermittent reception parameter set for executing a short-term intermittent reception operation and an intermittent reception parameter set for executing a long-term intermittent reception operation from the first base station device;
When performing the short-term intermittent reception operation, performing an intermittent reception operation different for the intermittent reception operation for the first base station device and the intermittent reception operation for the second base station device,
When performing the short-term intermittent reception operation, means for performing the same intermittent reception operation in the intermittent reception operation for the first base station device and the intermittent reception operation for the second base station device,
An integrated circuit.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20180074686A (en) * | 2015-10-26 | 2018-07-03 | 퀄컴 인코포레이티드 | DRX and SPS for MTC using bundled transmissions |
CN108476505A (en) * | 2016-01-15 | 2018-08-31 | 株式会社Ntt都科摩 | User terminal, wireless base station and wireless communications method |
CN110383915A (en) * | 2017-01-05 | 2019-10-25 | 日本电气株式会社 | Wireless access network node, wireless terminal and its method and non-transient computer-readable medium |
WO2020003475A1 (en) * | 2018-06-28 | 2020-01-02 | 株式会社Nttドコモ | User terminal and wireless communication method |
CN112136336A (en) * | 2018-05-09 | 2020-12-25 | 株式会社Ntt都科摩 | User device and radio base station |
CN112470535A (en) * | 2018-07-27 | 2021-03-09 | 三菱电机株式会社 | Communication system, base station, and communication terminal |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2024034075A1 (en) * | 2022-08-10 | 2024-02-15 | 株式会社Nttドコモ | Base station, terminal, network node, and communication method |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012041075A1 (en) * | 2010-09-30 | 2012-04-05 | 索尼公司 | Discontinuous reception method, mobile station, base station and wireless communication system |
JP2013197623A (en) * | 2012-03-15 | 2013-09-30 | Ntt Docomo Inc | User device and discontinuous reception control method in mobile communication system |
-
2013
- 2013-10-04 JP JP2013208721A patent/JP2016213518A/en active Pending
-
2014
- 2014-09-30 WO PCT/JP2014/075998 patent/WO2015050099A1/en active Application Filing
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012041075A1 (en) * | 2010-09-30 | 2012-04-05 | 索尼公司 | Discontinuous reception method, mobile station, base station and wireless communication system |
JP2013197623A (en) * | 2012-03-15 | 2013-09-30 | Ntt Docomo Inc | User device and discontinuous reception control method in mobile communication system |
Non-Patent Citations (2)
Title |
---|
BROADCOM CORPORATION: "Design of DRX for dual connectivity", 3GPP TSG-RAN WG2#83, R2-132464, 9 August 2013 (2013-08-09), Retrieved from the Internet <URL:http://www.3gpp.org/ftp/tsg_ran/WG2_RL2/TSGR2_83/Docs/R2-132464.zip> * |
LG ELECTRONICS INC.: "Issues on DRX for dual connectivity", 3GPP TSG-RAN WG2#83BIS, R2-133539, 28 September 2013 (2013-09-28), Retrieved from the Internet <URL:http://www.3gpp.org/ftp/tsg_ran/WG2_RL2/TSGR2_83bis/Docs/R2-133539.zip> * |
Cited By (19)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10721727B2 (en) | 2015-10-26 | 2020-07-21 | Qualcomm Incorporated | DRX for narrowband transmissions |
JP2018535599A (en) * | 2015-10-26 | 2018-11-29 | クゥアルコム・インコーポレイテッドQualcomm Incorporated | DRX and SPS for MTC with bundled transmission |
US20190239195A1 (en) | 2015-10-26 | 2019-08-01 | Qualcomm Incorporated | Semi-persistent scheduling for transmissions |
KR20180074686A (en) * | 2015-10-26 | 2018-07-03 | 퀄컴 인코포레이티드 | DRX and SPS for MTC using bundled transmissions |
KR102085642B1 (en) | 2015-10-26 | 2020-03-06 | 퀄컴 인코포레이티드 | DRX and SPS for MTC with Bundled Transmissions |
US10652879B2 (en) | 2015-10-26 | 2020-05-12 | Qualcomm Incorporated | Semi-persistent scheduling for transmissions |
US10708903B2 (en) | 2015-10-26 | 2020-07-07 | Qualcomm Incorporated | DRX for narrowband transmissions |
JP2020109993A (en) * | 2015-10-26 | 2020-07-16 | クゥアルコム・インコーポレイテッドQualcomm Incorporated | Drx and sps for mtc with bundled transmissions |
CN108476505A (en) * | 2016-01-15 | 2018-08-31 | 株式会社Ntt都科摩 | User terminal, wireless base station and wireless communications method |
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CN110383915A (en) * | 2017-01-05 | 2019-10-25 | 日本电气株式会社 | Wireless access network node, wireless terminal and its method and non-transient computer-readable medium |
CN110383915B (en) * | 2017-01-05 | 2023-05-09 | 日本电气株式会社 | Radio access network node, radio terminal, method thereof and non-transitory computer readable medium |
US12075428B2 (en) | 2017-01-05 | 2024-08-27 | Nec Corporation | Methods and apparatuses for configuring radio terminal with numerology of second RAT via first RAT |
CN112136336A (en) * | 2018-05-09 | 2020-12-25 | 株式会社Ntt都科摩 | User device and radio base station |
CN112136336B (en) * | 2018-05-09 | 2024-04-02 | 株式会社Ntt都科摩 | User device and radio base station |
JPWO2020003475A1 (en) * | 2018-06-28 | 2021-07-08 | 株式会社Nttドコモ | Terminal and wireless communication method |
JP7230023B2 (en) | 2018-06-28 | 2023-02-28 | 株式会社Nttドコモ | Terminal and wireless communication method |
WO2020003475A1 (en) * | 2018-06-28 | 2020-01-02 | 株式会社Nttドコモ | User terminal and wireless communication method |
CN112470535A (en) * | 2018-07-27 | 2021-03-09 | 三菱电机株式会社 | Communication system, base station, and communication terminal |
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