WO2012083814A1 - Method, system, and device for transmitting information and configuring sub-frame - Google Patents
Method, system, and device for transmitting information and configuring sub-frame Download PDFInfo
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- WO2012083814A1 WO2012083814A1 PCT/CN2011/084057 CN2011084057W WO2012083814A1 WO 2012083814 A1 WO2012083814 A1 WO 2012083814A1 CN 2011084057 W CN2011084057 W CN 2011084057W WO 2012083814 A1 WO2012083814 A1 WO 2012083814A1
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- Prior art keywords
- subframe
- information
- transmission direction
- cell
- type
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/27—Control channels or signalling for resource management between access points
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0032—Distributed allocation, i.e. involving a plurality of allocating devices, each making partial allocation
- H04L5/0035—Resource allocation in a cooperative multipoint environment
Definitions
- a time division duplex (TDD) mode refers to that the uplink and downlink use the same working frequency band to transmit uplink and downlink signals at different time intervals. There is a GP (Guard Period) between the uplink and the downlink.
- the FDD (Frequency Division Duplex) mode refers to the use of different working bands on the uplink and downlink. It can be performed on different frequency carriers at the same time.
- GB Guard Band
- a radio frame has a length of 10 ms, and includes 10 subframes of a special subframe and a regular subframe. Each subframe is Lms.
- the special subframe is divided into three subframes: DwPTS (Downlink Pilot Slot) is used to transmit PSS (Primary Synchronization Signal), PDCCH (Physical Downlink Control Channel), PHICH ( Physical HARQ Indication Channel, physical hybrid automatic request retransmission indication channel), PCFICH (Physical Control Format Indication Channel), PDSCH (Physical Downlink Shared Channel), etc.; GP is used for downlink UpPTS (Uplink Pilot Slot) is used to transmit SRS (Sounding Reference Signal), PRACH (Physical Random Access Channel), etc. .
- the regular subframe includes an uplink subframe and a downlink subframe, and is used for transmitting an uplink/downlink control channel and service data.
- subframes 1 and 6 In a radio frame, you can configure two special subframes (in subframes 1 and 6) or a special subframe (in subframe 1).
- Subframe 0 and subframe 5 and DwPTS subframes in special subframes are always used for downlink transmission.
- Subframe 2 and UpPTS subframes in special subframes are always used for uplink transmission.
- Other subframes can be configured as needed. For uplink transmission or downlink transmission.
- the uplink and downlink transmissions use the same frequency resource, and the uplink/downlink signals are transmitted on different subframes.
- TDD systems including 3G TD-SCDMA (Time Division-Synchronous Code Division) Multiple Access, Time Division Synchronous Code Division Multiple Access (OFDM) systems and 4G TD-LTE systems.
- the division of uplink and downlink subframes is static or semi-static. The usual practice is based on cell type and approximate service ratio in the network planning process. Determine the proportion of the uplink and downlink subframes and keep them unchanged. This is a relatively simple approach in the context of large coverage of macro cells, and is also more effective.
- the cross-slots of adjacent cells may be disturbed.
- the femto cell is used for the uplink signal reception, and then the two cells appear: the base station-base station is interfered, and the femto base station directly receives the Macro base station.
- the downlink signal will seriously affect the shield of the femto base station receiving the uplink signal of the L-UE (Local UE, local UE).
- the neighboring cells herein may be geographically adjacent cells (shown in Figure 1B) that use the same TDD carrier, or cells that are geographically overlapping or using adjacent TDD carriers (shown in Figure 1C).
- the embodiments of the present invention provide a method and a device for transmitting information, which are used to solve the problem that a cell cannot acquire configuration information of a neighboring cell when the uplink and downlink traffic ratio requirements of a cell existing in the prior art are dynamically changed.
- the embodiments of the present invention provide a method, a system, and a device for configuring a subframe, which are used to solve the problem that the neighboring area interferes coexistence when the uplink and downlink service ratio requirements of the small area in the prior art are dynamically changed.
- the network side device determines the type information of the subframe in the radio frame configured by the local cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction.
- a fixed subframe is a subframe in which a transmission direction is fixed;
- the network side device sends the notification information including the type information to the neighboring cell.
- An information determining module configured to determine type information according to a subframe in a radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, where the variable subframe is a variable transmission direction
- a fixed subframe is a subframe in which the transmission direction is fixed;
- the sending module is configured to send the notification information including the type information to the neighboring cell.
- the network side device determines, according to the received notification information including the type information, each subframe in the radio frame of the current cell. a type, where the type information is determined by a subframe in a radio frame configured by a neighboring cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a variable transmission direction A fixed subframe is a subframe in which the transmission direction is fixed;
- the network side device configures a subframe in a radio frame of the local cell.
- a processing module configured to determine, according to the received notification information that includes the type information, a type of each subframe in the radio frame of the local cell, where the type information is determined by a subframe in a radio frame configured by the neighboring cell,
- the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction;
- the configuration module is configured to configure a subframe in a radio frame of the local cell.
- a network side device configured to determine, according to a subframe in a radio frame configured by the cell, type information, and send the notification information that includes the type information to the neighboring cell, where the radio frame includes a variable subframe and/or a fixed subframe.
- the variable subframe is a subframe with a variable transmission direction
- the fixed subframe is a subframe with a fixed transmission direction;
- the network side device that receives the notification information is configured to determine, according to the received notification information including the type information, the type of each subframe in the radio frame of the local cell, and configure the subframe in the radio frame of the local cell.
- the embodiment of the present invention can send the notification information including the type information to the neighboring cell, so that when the service ratio of the uplink and the downlink of the cell is dynamically changed, the cell can obtain the configuration information of the neighboring cell and improve the efficiency.
- the network side device determines the type of each subframe in the radio frame of the local cell according to the received notification information including the type information, and configures the subframe in the radio frame of the local cell, so as to be uplink and downlink in the cell.
- the business ratio demand is dynamically changed, the neighboring area is coexisted by interference; the system performance is further improved.
- FIG. 1A is a schematic diagram of a frame structure of the TD-LTE system
- FIG. 1B is a schematic diagram of cross-slot interference when using the same TDD carrier
- Figure 1C is a schematic diagram of cross-slot interference when using adjacent TDD carriers
- FIG. 2 is a schematic structural diagram of a system for configuring a subframe according to an embodiment of the present invention
- FIG. 3 is a schematic structural diagram of a first network side device according to an embodiment of the present invention.
- FIG. 4 is a schematic structural diagram of a second network side device according to an embodiment of the present invention.
- FIG. 5 is a schematic flowchart of a method for transmitting information according to an embodiment of the present invention.
- FIG. 6 is a schematic flowchart of a method for configuring a subframe according to an embodiment of the present invention.
- the network side device determines the type information according to the subframe in the radio frame configured by the cell, and sends the notification information including the type information to the neighboring cell, where the radio frame includes the variable subframe and/or A fixed subframe, a variable subframe is a subframe with a variable transmission direction, and a fixed subframe is a subframe with a fixed transmission direction.
- the embodiment of the present invention can send the notification information including the type information to the neighboring cell, so that when the uplink and downlink traffic ratio requirements of the cell are dynamically changed, the cell can obtain the configuration information of the neighboring cell.
- the network side device determines the type of each subframe in the radio frame of the local cell according to the received notification information including the type information, and configures the subframe in the radio frame of the current cell, so that the uplink and downlink services in the cell are performed.
- the proportional demand is dynamically changed, the adjacent areas are coexisted.
- the embodiments of the present invention can be applied to a TDD system (such as a TD-LTE system), and can also be applied to other systems that need to dynamically adjust uplink and downlink configurations of a subframe, such as a TD-SCDMA system and its subsequent evolution system, WiMAX ( Worldwide Interoperability for Microwave Access, 4 Wave Access Global Interoperability) systems and their subsequent evolution systems.
- a TDD system such as a TD-LTE system
- WiMAX Worldwide Interoperability for Microwave Access, 4 Wave Access Global Interoperability
- the system for configuring a subframe in the embodiment of the present invention includes: a first network side device 10 and a second network side device 20.
- the first network side device 10 is configured to determine, according to the subframe in the radio frame configured by the local cell, the type information, and send the notification information including the type information to the neighboring cell, where the radio frame includes the variable subframe and/or the fixed Sub-frame, a variable sub-frame is a sub-frame with a variable transmission direction, and a fixed sub-frame is a sub-frame with a fixed transmission direction.
- a wireless frame includes a variable subframe and/or a fixed subframe indicating three cases. 1.
- the subframes in the radio frame are all variable subframes; 2.
- the subframes in the radio frame are all fixed subframes; 3.
- the subframes in the radio frame have variable subframes and fixed subframes.
- the second network side device 20 that receives the notification information is configured to determine, according to the received notification information including the type information, the type of each subframe in the radio frame of the local cell, and configure the subframe in the radio frame of the local cell.
- the neighboring cell here is an intra-frequency neighboring cell or an inter-frequency neighboring cell; and the neighboring cell and the neighboring cell may be in a neighboring cell of the same TDD network or a different TDD network.
- the first network side device 10 determines the type information, and several are listed below.
- Manner 1 The first network side device 10 sets a value of a corresponding bit in a type of a fixed subframe in a type of bit length (bit bitmap), and sets a bit corresponding to the variable subframe in the type bitmap in the foregoing time length.
- bit bitmap a type of bit length
- the value of the bit, and the type of bitmap as the type information.
- the type bitmap may only represent the type information of the fixed subframe in a certain length of time.
- subframe 0 subframe 1
- subframe 2 subframe 5
- subframe 6 and subframe 7 are fixed subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe, as shown in Table 1:
- the specific type bitmap is 1110011100.
- the second network side device 20 After receiving the 1110011100, the second network side device 20 knows the type of each subframe according to the subframe corresponding to each bit in the type bitmap and the meaning of the value corresponding to each bit.
- the type bitmap may only represent the type information of the variable subframe in a certain length of time.
- subframe 3 subframe 4
- subframe 8 subframe 9
- “1" indicates a fixed subframe
- "0" indicates a variable subframe
- the specific type bitmap is 0001100011.
- the subframe corresponding to each bit in the type bitmap and the meaning of the value corresponding to each bit know the type of each subframe.
- the specific length of time can be specified in the agreement, or it can be notified by the senior management.
- the set duration can also be updated as needed.
- the specific type bitmap indicates which subframes, the subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
- the second network side device 10 determines, according to the correspondence between the type configuration format and the first serial number, the first serial number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain time length, and the determined A serial number is used as type information.
- Subframe 9 Subframe 0 Subframe 1 Subframe 2 Subframe 3 Subframe 4 Subframe 5 Subframe 6 Subframe 7 Subframe 8 Subframe 9
- subframe 3 subframe 4, subframe 8 and subframe 9 are variable subframes; subframe 0, subframe 1, subframe 2, subframe 5, sub Frame 6 and subframe 7 are fixed subframes. According to Table 3, it can be determined that the first serial number is 2.
- the second network side device 20 after receiving the first sequence number 2, the second network side device 20 knows the type of each subframe according to Table 3.
- the correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer.
- the correspondence between the configuration format and the serial number can also be updated as needed.
- the network interface Since it is not dynamically allocated, the network interface has already interacted with the uplink and downlink configuration information. Therefore, if a certain subframe is notified as a fixed subframe in the implementation, the transmission direction is the same as that indicated by the already notified uplink and downlink configuration information; if a certain subframe is notified as a variable subframe, the transmission direction is already notified. The meaning indicated by the uplink and downlink configuration information is irrelevant.
- the first network side device 10 can also place the transmission direction information in the notification information.
- the transmission direction information indicates whether each subframe is an uplink transmission or a downlink transmission.
- the first network side device 10 may determine the transmission direction information according to the subframe in the radio frame configured by the cell.
- the first network side device 10 determines the transmission direction information, and several are listed below.
- the first network side device 10 sets the value of the corresponding bit in the transmission direction bitmap of the fixed subframe in a certain length of time, and sets the value of the corresponding bit in the transmission direction bitmap in the time length. And use the transmission direction bitmap as the transmission direction information.
- subframe 2 Assume that the length of time is 10ms (ie a radio frame length).
- the transmission direction of subframe 2, subframe 7, subframe 8, and subframe 9 is uplink. " ⁇ indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink, as shown in Table 4:
- the specific transmission direction bitmap is 0010000111.
- the second network side device 20 after receiving the 0010000111, the second network side device 20, according to each bit in the transmission direction bitmap
- the meaning of the corresponding sub-frame and the value corresponding to each bit is known as the transmission direction of each sub-frame.
- the specific length of time can be specified in the agreement, or it can be notified by the senior management.
- the set duration can also be updated as needed.
- the specific transmission direction bitmap indicates which subframes, subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
- the second network side device 10 determines the second serial number corresponding to the transmission direction configuration format of the fixed subframe and the variable subframe in a certain time length according to the correspondence between the configuration format of the transmission direction and the second serial number, and determines The second serial number is used as the transmission direction information.
- the transmission direction of subframe 2, subframe 3, subframe 4, and subframe 7 is uplink; subframe 0, subframe 1, subframe 5, subframe 6, and sub-frame
- the transmission direction of frame 8 and subframe 9 is downlink. According to Table 5, it can be determined that the first serial number is 3.
- the second network side device 20 after receiving the first sequence number 3, the second network side device 20 knows the type of each subframe according to Table 5.
- the correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer.
- the correspondence between the configuration format and the serial number can also be updated as needed.
- the first network side device 10 may send the transmission direction information and the type information through two different notification information.
- the transmission direction information and the type information may also be placed in the same notification information.
- the first network side device 10 sets both the transmission direction information and the type information in the same notification information, the first network side device 10 combines the transmission direction information and the type information into configuration information, and places the configuration information in the notification information. in.
- the specific configuration information may be type bitmap+transmission direction bitmap; type bitmap+second sequence number; first sequence number + transmission direction bitmap; first sequence number + one of the second sequence numbers.
- the specific use can be specified in the agreement; it can also be notified by the senior management.
- the first half can be type bitmap, after The half part is the transmission direction bitmap; the first half is the transmission direction bitmap, the second half is the type bitmap; the type bitmap and the transmission direction bitmap can also be mixed together.
- the type information and the transmission direction information of each subframe can be directly notified to the neighboring cell by using more than one bit information.
- subframe 0, subframe 1, subframe 2, subframe 5, subframe 6 and subframe 7 are fixed subframes, subframe 3, subframe 4, and subframe.
- 8 and subframe 9 are variable sub- ⁇ "1" for fixed subframe, "0" for variable subframe; subframe 2, subframe 7, subframe 8 and subframe 9 for transmission direction, subframe 0, sub-frame
- the transmission direction of frame 1, subframe 3, subframe 4, subframe 5, and subframe 6 is downlink, 1" indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink, as shown in Table 6:
- the specific configuration information is 00000110100000011111.
- the second network side device 10 After receiving the 00000110100000011111, the second network side device 10 knows the type and the type of each subframe according to the meaning of the subframe corresponding to each bit in the type bitmap and the transmission direction bitmap and the value corresponding to each bit. The direction of transmission is gone.
- the network side device may also put one or more of the following information into the notification information according to the requirement: the cell identifier of the local cell, the PLMN (Public Land Mobile Network) identifier of the local cell, and the neighboring cell. Cell identity.
- the cell identifier of the local cell the cell identifier of the local cell
- the PLMN Public Land Mobile Network
- the first network side device 10 may send a notification message to the neighboring cell through a direct communication interface or an indirect communication interface.
- a cell with an X2 connection (such as a Macro cell, a Pico 'J, a cell, etc.) can be sent using an X2 interface; a cell without an X2 interface (such as a femto cell) can use the S1 interface.
- X2 connection such as a Macro cell, a Pico 'J, a cell, etc.
- a cell without an X2 interface such as a femto cell
- the second network side device 20 determines the type of each subframe in the radio frame of the local cell according to the received notification information including the type information, and then configures the subframe in the radio frame of the local cell.
- the second network side device 20 determines whether the interference strength between the local cell and the neighboring cell that sends the notification information can be detected.
- the intensity of the disturbance here includes but is not limited to one of the following values:
- CQI Channel Quality Indicator
- RSRQ Reference Signal Received Quality
- the subframe is a variable subframe in the neighboring cell, and the second network side device 20 does not use the subframe or lowers the usage priority of the subframe.
- the second network side device 20 may configure the unused subframe as an MBSFN (MBSFN Multicast Broadcast Single Frequency Network) subframe or an ABS (Almost Blank Subframe) or an uplink sub-frame. Frames are not scheduled for uplink.
- MBSFN MBSFN Multicast Broadcast Single Frequency Network
- ABS Almost Blank Subframe
- the notification information includes the transmission direction information, and it is determined that the interference strength between the 'j, the area and the neighboring node J of the transmission notification information cannot be detected, if the subframe to be configured is a variable subframe when the neighboring cell is a variable subframe
- the subframe type and the transmission direction that the second network side device 20 can be configured are the same as the subframe type and the transmission direction of the same subframe identifier in the neighboring cell.
- the subframe 7 of the current cell may be configured to be the same transmission direction as the subframe 7 of the neighboring cell; and the subframe 8 of the local cell is configured to be associated with the neighboring cell.
- Frame 8 has the same transmission direction.
- the subframe type and the transmission direction that the second network side device 20 can configure if the subframe to be configured is a fixed subframe in the neighboring cell is determined to be incapable of detecting the interference strength between the local cell and the neighboring cell that sends the notification information.
- the subframe type and the transmission direction are the same as those identified in the same subframe in the neighboring cell.
- the transmission direction of the fixed subframe can be determined according to preset information or uplink and downlink configuration information, if the transmission direction information is not included in the notification information, the transmission direction of the fixed subframe can also be known. Of course, if the transmission direction information is included in the notification information, the transmission direction information in the notification information is taken as the standard.
- the interference intensity is further compared with the threshold.
- the specific threshold setting can be specified in the agreement or notified by the upper layer based on empirical values or simulation results. Different interference strengths correspond to different thresholds.
- the second network side device 20 does not use the subframe or lowers the usage priority of the subframe.
- the specific manner of not using a subframe is the same as the manner in which the subframe is not used, and details are not described herein again.
- the second network side device 20 may configure the subframe in the radio frame of the local cell according to the default configuration information, or according to the unification of the network side.
- the configuration information is configured on the subframe in the radio frame of the local cell, or when the notification information further includes the transmission direction information, and configures the subframe in the radio frame of the local cell according to the received notification information.
- the second network side device 20 autonomously configures the subframe in the radio frame of the local cell.
- the second network side device 20 may consider one of the service requirements, the channel load, the number of terminals, and the like, and may also consider multiple types, and then configure the subframes in the radio frame of the current cell in a specific case.
- the first network side device 10 and the second network side device 20 in the embodiment of the present invention may be a station (such as a macro base station, a micro base station, a home base station, etc.), or may be an RN (Relay Node). It can also be other network side devices.
- two network side devices a method for transmitting information, and a method for configuring a subframe are also provided in the embodiment of the present invention. Since the principles of the devices and methods for solving the problem are similar to those for configuring the subframe, the devices are For the implementation of the method and the method, refer to the implementation of the method, and the repeated description will not be repeated.
- the first network side device of the embodiment of the present invention includes: an information determining module 100 and a sending module.
- the information determining module 100 is configured to determine type information according to a subframe in a radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction.
- the fixed subframe is a subframe with a fixed transmission direction;
- the sending module 110 is configured to send the notification information including the type information to the neighboring cell.
- the information determining module 100 may set a value of a corresponding bit of the fixed subframe in the type bitmap bitmap in a certain length of time, and set a value of the corresponding bit of the variable subframe in the type bitmap in the foregoing time length, And the type of the bitmap is used as the type information; or according to the correspondence between the type configuration format and the first serial number, determining the first serial number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain length of time, and determining The first serial number is used as the type information.
- the notification information further includes transmission direction information.
- the information determining module 100 determines the transmission direction information according to the subframe in the radio frame configured by the cell.
- the information determining module 100 may set a value of a bit corresponding to a fixed subframe in a transmission direction bitmap in a certain length of time, and set a value of a bit corresponding to the variable subframe in the transmission direction bitmap in the foregoing time length, and
- the transmission direction bitmap is used as the transmission direction information; or the second sequence number corresponding to the transmission direction configuration format of the fixed subframe and the variable subframe in a certain time length is determined according to the correspondence between the transmission direction configuration format and the second sequence number, and The determined second serial number is used as the transmission direction information.
- the information determining module 100 may also combine the transmission direction information and the type information into configuration information, and place the configuration information in the notification information.
- the sending module 110 may send the notification message to the neighboring cell through a direct or indirect communication interface.
- the second network side device in the embodiment of the present invention includes: a processing module 200 and a configuration module 210.
- the processing module 200 is configured to determine, according to the received notification information that includes the type information, a type of each subframe in the radio frame of the local cell, where the type information is determined by a subframe in a radio frame configured by the neighboring cell, and the wireless
- the frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction.
- the configuration module 210 is configured to configure a subframe in a radio frame of the local cell.
- the configuration module 210 can detect the interference strength between the local cell and the neighboring cell that sends the notification information, or can detect the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength is not less than the threshold. If the subframe to be configured is a variable subframe in the neighboring cell, the subframe is not used or the usage priority of the subframe is lowered.
- the configuration module 210 configures unused subframes into MBSFN subframes or ABS subframes or uplink subframes but does not perform uplink scheduling.
- the configuration module 210 configures the subframe type and the transmission direction with the same subframe identifier in the neighboring cell when the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected.
- the frame type and transmission direction are the same.
- the configuration module 210 When the configuration module 210 can detect the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength cell threshold, the configuration module 210 autonomously configures the subframe in the radio frame of the local cell; If the interference strength between the neighboring cells that send the notification information is not the cell threshold, the subframe in the radio frame of the local cell is configured according to the default configuration information, or the wireless network of the cell is configured according to the unified configuration information sent by the network side. The subframe in the frame is configured, or when the transmission direction information is further included in the notification information, the subframe in the radio frame of the local cell is configured according to the received notification information.
- the first type of network side device may also act as a receiver.
- the second network side device may also function as a sender, so the functions of the first network side device and the second network side device may be combined in one entity (ie, the modules of the first network side device and the second network side device are in one entity) The function of the first network side device or the function of the second network side device is selected as needed.
- the method for transmitting information in the embodiment of the present invention includes the following steps:
- Step 501 The network side device determines the type information according to the subframe in the radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a variable transmission direction.
- a frame, a fixed subframe is a subframe in which the transmission direction is fixed.
- Step 502 The network side device sends the notification information including the type information to the neighboring cell.
- the neighboring cell here is an intra-frequency neighboring cell or an inter-frequency neighboring cell; and the neighboring cell and the neighboring cell may be in a neighboring cell of the same TDD network or different TDD networks.
- step 501 there are many ways for the network side device to determine the type information, and several types are listed below.
- Manner 1 The network side device sets the value of the corresponding bit in the type of the fixed subframe in the type of bit length (bit bitmap) in a certain length of time, and sets the value of the corresponding bit in the type of the variable subframe in the time length. , and use this type of bitmap as type information.
- the type bitmap may only represent the type information of the fixed subframe in a certain length of time.
- subframe 0, subframe 1, subframe 2, subframe 5, subframe 6 and subframe 7 are fixed subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe.
- the specific type bitmap is 1110011100. In an implementation, the type bitmap may only represent the type information of the variable subframe in a certain length of time.
- subframe 3 subframe 4
- subframe 8 and subframe 9 are variable subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe.
- Table 2 the specific type bitmap is
- the specific length of time can be specified in the agreement, or it can be notified by the senior management.
- the set duration can also be updated as needed.
- the specific type bitmap indicates which subframes, the subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
- Manner 2 The network side device determines, according to the correspondence between the type configuration format and the first sequence number, the first sequence number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain length of time, and uses the determined first sequence number as Type information.
- the correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer.
- the correspondence between the configuration format and the serial number can also be updated as needed.
- the network interface Since it is not dynamically allocated, the network interface has already interacted with the uplink and downlink configuration information. Therefore, if a certain subframe is notified as a fixed subframe in the implementation, the transmission direction is the same as that indicated by the already notified uplink and downlink configuration information; if a certain subframe is notified as a variable subframe, the transmission direction is already notified. The meaning indicated by the uplink and downlink configuration information is irrelevant.
- the network side device can also put the transmission direction information into the notification information.
- the transmission direction information indicates whether each subframe is uplink transmission or downlink transmission.
- the network side device may further determine the transmission direction information according to the subframe in the radio frame configured by the cell.
- the network side device determines the transmission direction information, and several are listed below.
- the network side device sets the value of the corresponding bit in the transmission direction bitmap of the fixed subframe in a certain length of time, and sets the value of the corresponding bit in the transmission direction bitmap in the time length, and
- the transmission direction bitmap is used as the transmission direction information.
- the transmission direction of subframe 2, subframe 7, subframe 8 and subframe 9 is uplink. "1" indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink. As shown in Table 4, the specific transmission direction bitmap is 0010000111.
- the specific length of time can be specified in the agreement, or it can be notified by the senior management.
- the set duration can also be updated as needed.
- the specific transmission direction bitmap indicates which subframes, subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
- Manner 2 The network side device determines the correspondence between the format and the second serial number according to the transmission direction, and determines a certain length of time.
- the transmission direction of the fixed subframe and the variable subframe in the degree configures a second sequence number corresponding to the format, and the determined second sequence number is used as the transmission direction information.
- the transmission direction of subframe 2, subframe 3, subframe 4, and subframe 7 is uplink; subframe 0, subframe 1, subframe 5, subframe 6, and sub-frame
- the transmission direction of frame 8 and subframe 9 is downlink. According to Table 5, it can be determined that the first serial number is 3.
- the correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer.
- the correspondence between the configuration format and the serial number can also be updated as needed.
- the network side device may send the transmission direction information and the type information through two different notification information.
- the transmission direction information and the type information may also be placed in the same notification information.
- the network side device If the network side device puts both the transmission direction information and the type information in the same notification information, the network side device combines the transmission direction information and the type information into configuration information, and places the configuration information in the notification information.
- the specific configuration information may be type bitmap+transmission direction bitmap; type bitmap+second sequence number; first sequence number + transmission direction bitmap; first sequence number + one of the second sequence numbers.
- the specific use can be specified in the agreement; it can also be notified by the senior management.
- the configuration information can be type bitmap+transmission direction bitmap
- the first half is the type bitmap
- the second half is the transmission direction bitmap
- the first half is the transmission direction bitmap
- the second half is the type bitmap
- the bitmap is mixed together.
- the type information and the transmission direction information of each subframe can be directly notified to the neighboring cell by using more than one bit information.
- subframe 0, subframe 1, subframe 2, subframe 5, subframe 6 and subframe 7 are fixed subframes
- subframe 3, subframe 4, subframe 8 and subframe 9 are variable subframes "1" indicating fixed subframes, "0” indicating variable subframes
- subframe 2, subframe 7, subframe 8 and subframe 9 are transmitting in the uplink direction
- subframe 0, sub-frames The transmission direction of frame 1, subframe 3, subframe 4, subframe 5, and subframe 6 is downlink, 1 " indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink, as shown in Table 6. Specific configuration information Is 00000110100000011111.
- the network side device may also put one or more of the following information into the notification information according to the requirement: the cell identifier of the current cell, the PLMN identifier of the current cell, and the cell identifier of the neighboring cell.
- the network side device may send the notification message to the neighboring cell through the direct communication interface or the indirect communication interface.
- the method for configuring a subframe in the embodiment of the present invention includes the following steps:
- Step 601 The network side device determines, according to the received notification information that includes the type information, the type of each subframe in the radio frame of the local cell, where the type information is determined by the subframe in the radio frame configured by the neighboring cell, and the wireless
- the frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is fixed in the transmission direction. Variable sub-frame.
- Step 602 The network side device configures a subframe in a radio frame of the local cell.
- step 602 the network side device determines whether the interference strength between the local cell and the neighboring cell that sends the notification information can be detected.
- the intensity of the disturbance here includes but is not limited to one of the following values:
- the network side device does not use the subframe or lower the subframe. The priority of the use of the frame.
- the network side device may configure the unused subframe as an MBSFN subframe or an ABS or an uplink subframe but does not perform uplink scheduling.
- the notification information includes the transmission direction information, and it is determined that the interference strength between the 'j, the area and the neighboring node J of the transmission notification information cannot be detected, if the subframe to be configured is a variable subframe when the neighboring cell is a variable subframe.
- the subframe type and the transmission direction that can be configured by the network side device are the same as the subframe type and the transmission direction of the same subframe identifier in the neighboring cell.
- the subframe to be configured is a fixed subframe in the neighboring cell, the subframe type and the transmission direction and the neighboring cell that the network side device can configure The subframe type identified by the same subframe is the same as the transmission direction.
- the transmission direction of the fixed subframe can be determined according to preset information or uplink and downlink configuration information, if the transmission direction information is not included in the notification information, the transmission direction of the fixed subframe can also be known. Of course, if the transmission direction information is included in the notification information, the transmission direction information in the notification information is taken as the standard.
- the interference intensity is further compared with the threshold.
- the specific threshold setting can be specified in the agreement or notified by the upper layer based on the empirical value or simulation result. Different interference strengths correspond to different thresholds.
- the network side device does not use the subframe or lowers the usage priority of the subframe.
- the specific manner of not using the subframe is the same as the method of not using the subframe described above, and details are not described herein again.
- the network side device may configure the subframe in the radio frame of the local cell according to the default configuration information, or according to the unified configuration information sent by the network side.
- the subframe in the cell radio frame is configured, or when the notification direction further includes the transmission direction information, the subframe in the radio frame of the local cell is configured according to the received notification information.
- the network side device autonomously configures the subframe in the wireless frame of the cell.
- the network side device may consider one of the service requirements, the channel load, the number of terminals, and the like, and may also consider multiple types, and then configure the subframes in the radio frame of the local cell in a specific case.
- 5 and FIG. 6 can synthesize a process to form a new method for configuring a subframe, that is, step 501 and step 502 are performed first, and then step 601 and step 602 are performed.
- embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or a combination of software and hardware. Moreover, the present invention can be embodied in the form of a computer program product embodied on one or more computer-usable storage interfaces (including but not limited to disk storage, CD-ROM, optical storage, etc.) containing computer usable program code.
- computer-usable storage interfaces including but not limited to disk storage, CD-ROM, optical storage, etc.
- the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device.
- the apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
- These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device.
- the instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.
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Abstract
The present invention relates to the filed of wireless communications technologies, and in particular, to a method, a system, and a device for transmitting information and configuring a sub-frame, so as to solve the problem in the prior art that a cell cannot acquire configuration information of a neighbor cell when a ratio requirement on uplink and downlink services of the cell is dynamically changed. The method for transmitting information in the embodiment of the present invention comprises: a network side device determining type information according to a sub-frame in a wireless frame configured by a current cell, wherein the wireless frame comprises a variable sub-frame and/or a fixed sub-frame, the variable sub-frame is a sub-frame with a variable transmission direction, and the fixed sub-frame is a sub-frame with a fixed transmission direction; and the network side device sending notification information containing the type information to a neighbor cell. In the embodiments of the present invention, since the notification information containing the type information can be sent to a neighbor cell, when the ratio requirement on uplink and downlink services of a cell is dynamically changed, the cell can acquire the configuration information of the neighbor cell, thereby improving the efficiency.
Description
一种传输信息和配置子帧的方法、 系统及设备 本申请要求在 2010年 12月 21日提交中国专利局、申请号为 201010599215.1、发明名称为"一 种传输信息和配置子帧的方法、 系统及设备"的中国专利申请的优先权, 其全部内容通过引用 结合在本申请中。 技术领域 本发明涉及无线通信技术领域, 特别涉及一种传输信息和配置子帧的方法、 系统及设 备。 背景技术 对于蜂窝系统釆用的基本的双工方式, TDD ( Time division duplex, 时分双工)模式 是指上下行链路使用同一个工作频带, 在不同的时间间隔上进行上下行信号的传输, 上下 行之间有 GP ( Guard Period, 保护间隔); FDD ( Frequency division duplex, 频分双工)模 式则指上下行链路使用不同的工作频带, 可以在同一个时刻在不同的频率载波上进行上下 行信号的传输, 上下行之间有 GB ( Guard Band, 保护带宽) 。 Method, system and device for transmitting information and configuring subframes The present application claims to be submitted to the Chinese Patent Office on December 21, 2010, the application number is 2010105992155.1, and the invention name is "a method and system for transmitting information and configuring subframes". The priority of the Chinese Patent Application, the entire disclosure of which is incorporated herein by reference. TECHNICAL FIELD The present invention relates to the field of wireless communication technologies, and in particular, to a method, system, and device for transmitting information and configuring a subframe. BACKGROUND OF THE INVENTION For a basic duplex mode used in a cellular system, a time division duplex (TDD) mode refers to that the uplink and downlink use the same working frequency band to transmit uplink and downlink signals at different time intervals. There is a GP (Guard Period) between the uplink and the downlink. The FDD (Frequency Division Duplex) mode refers to the use of different working bands on the uplink and downlink. It can be performed on different frequency carriers at the same time. For the transmission of uplink and downlink signals, there is GB (Guard Band) between the uplink and the downlink.
LTE ( Long Term Evolution, 长期演进) TDD系统的帧结构稍复杂一些, 如图 1A所示, 一个无线帧长度为 10ms, 包含特殊子帧和常规子帧两类共 10个子帧, 每个子帧为 lms。 特 殊子帧分为 3个子帧: DwPTS ( Downlink Pilot Slot, 下行导频子帧 )用于传输 PSS ( Primary Synchronization Signal, 主同步信号) 、 PDCCH ( Physical Downlink Control Channel, 物理 下行控制信道)、 PHICH ( Physical HARQ Indication Channel, 物理混合自动请求重传指示 信道) 、 PCFICH ( Physical Control Format Indication Channel, 物理控制格式指示信道) 、 PDSCH ( Physical Downlink Shared Channel, 物理下行链路共享信道)等; GP用于下行和 上行之间的保护间隔); UpPTS ( Uplink Pilot Slot, 上行导频子帧)用于传输 SRS ( Sounding Reference Signal, 探测用参考信号) 、 PRACH ( Physical Random Access Channel, 物理随 机接入信道)等。 常规子帧包括上行子帧和下行子帧, 用于传输上行 /下行控制信道和业务 数据等。 其中在一个无线帧中, 可以配置两个特殊子帧 (位于子帧 1和 6), 也可以配置一个 特殊子帧 (位于子帧 1)。 子帧 0和子帧 5以及特殊子帧中的 DwPTS子帧总是用作下行传输, 子 帧 2以及特殊子帧中的 UpPTS子帧总是用于上行传输,其他子帧可以依据需要配置为用作上 行传输或者下行传输。 LTE (Long Term Evolution) The frame structure of the TDD system is slightly more complicated. As shown in FIG. 1A, a radio frame has a length of 10 ms, and includes 10 subframes of a special subframe and a regular subframe. Each subframe is Lms. The special subframe is divided into three subframes: DwPTS (Downlink Pilot Slot) is used to transmit PSS (Primary Synchronization Signal), PDCCH (Physical Downlink Control Channel), PHICH ( Physical HARQ Indication Channel, physical hybrid automatic request retransmission indication channel), PCFICH (Physical Control Format Indication Channel), PDSCH (Physical Downlink Shared Channel), etc.; GP is used for downlink UpPTS (Uplink Pilot Slot) is used to transmit SRS (Sounding Reference Signal), PRACH (Physical Random Access Channel), etc. . The regular subframe includes an uplink subframe and a downlink subframe, and is used for transmitting an uplink/downlink control channel and service data. In a radio frame, you can configure two special subframes (in subframes 1 and 6) or a special subframe (in subframe 1). Subframe 0 and subframe 5 and DwPTS subframes in special subframes are always used for downlink transmission. Subframe 2 and UpPTS subframes in special subframes are always used for uplink transmission. Other subframes can be configured as needed. For uplink transmission or downlink transmission.
TDD系统中上行和下行传输使用相同的频率资源, 在不同的子帧上传输上行 /下行信 号。在常见的 TDD系统中,包括 3G的 TD-SCDMA( Time Division-Synchronous Code Division
Multiple Access, 时分同步码分多址)系统和 4G的 TD-LTE系统, 上行和下行子帧的划分是 静态或半静态的, 通常的做法是在网络规划过程中根据小区类型和大致的业务比例确定上 下行子帧比例划分并保持不变。 这在宏小区大覆盖的背景下是较为筒单的做法, 并且也较 为有效。 而随着技术发展, 越来越多的 Pico cell (微小区) , Home NodeB (家庭基站)等 低功率基站被部署用于提供局部的小覆盖, 在这类小区中, 用户数量较少, 且用户业务需 求变化较大, 因此小区的上下行业务比例需求存在动态改变的情况。 In the TDD system, the uplink and downlink transmissions use the same frequency resource, and the uplink/downlink signals are transmitted on different subframes. In common TDD systems, including 3G TD-SCDMA (Time Division-Synchronous Code Division) Multiple Access, Time Division Synchronous Code Division Multiple Access (OFDM) systems and 4G TD-LTE systems. The division of uplink and downlink subframes is static or semi-static. The usual practice is based on cell type and approximate service ratio in the network planning process. Determine the proportion of the uplink and downlink subframes and keep them unchanged. This is a relatively simple approach in the context of large coverage of macro cells, and is also more effective. With the development of technology, more and more low-power base stations such as Pico cell and Home NodeB are deployed to provide local small coverage. In such cells, the number of users is small, and The user service requirements vary greatly. Therefore, there is a dynamic change in the proportion of uplink and downlink services in the cell.
在实际系统中, 不同的小区如果设置了不同的上下行子帧配置, 则会造成相邻小区的 交叉时隙千扰。 如图 4所示, 宏小区在发送下行信号的时隙上, femto cell (毫微微小区) 用于上行信号接收, 则两小区之间出现: 基站 -基站千扰, femto基站直接接收到 Macro基站 的下行信号, 将严重影响 femto基站接收 L-UE ( Local UE, 本地 UE )上行信号的盾量。 In an actual system, if different cells are configured with different uplink and downlink subframe configurations, the cross-slots of adjacent cells may be disturbed. As shown in FIG. 4, in the time slot in which the macro cell transmits the downlink signal, the femto cell is used for the uplink signal reception, and then the two cells appear: the base station-base station is interfered, and the femto base station directly receives the Macro base station. The downlink signal will seriously affect the shield of the femto base station receiving the uplink signal of the L-UE (Local UE, local UE).
这里的相邻小区可以是地理上相邻的使用同样 TDD载波的小区(图 1B所示), 或者是地 理上重叠或使用相邻 TDD载波的小区 (图 1C所示) 。 The neighboring cells herein may be geographically adjacent cells (shown in Figure 1B) that use the same TDD carrier, or cells that are geographically overlapping or using adjacent TDD carriers (shown in Figure 1C).
综上所述, 目前小区的上下行业务比例需求进行动态改变时, 小区无法获取邻区的配 置信息, 以及无法实现邻区的千扰共存。 发明内容 本发明实施例提供一种传输信息的方法和设备, 用以解决现有技术中存在的小区的上 下行业务比例需求进行动态改变时, 小区无法获取邻区的配置信息的问题。 To sum up, when the demand for the uplink and downlink services of the cell is dynamically changed, the cell cannot obtain the configuration information of the neighboring cell, and the coexistence of the neighboring area cannot be achieved. SUMMARY OF THE INVENTION The embodiments of the present invention provide a method and a device for transmitting information, which are used to solve the problem that a cell cannot acquire configuration information of a neighboring cell when the uplink and downlink traffic ratio requirements of a cell existing in the prior art are dynamically changed.
本发明实施例提供一种配置子帧的方法、 系统和设备, 用以解决现有技术中存在的小 区的上下行业务比例需求进行动态改变时, 无法实现邻区千扰共存的方法。 The embodiments of the present invention provide a method, a system, and a device for configuring a subframe, which are used to solve the problem that the neighboring area interferes coexistence when the uplink and downlink service ratio requirements of the small area in the prior art are dynamically changed.
本发明实施例提供的一种传输信息的方法, 包括: A method for transmitting information provided by an embodiment of the present invention includes:
网络侧设备才 居本小区配置的无线帧中的子帧, 确定类型信息, 其中所述无线帧包括 可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固定不 变的子帧; The network side device determines the type information of the subframe in the radio frame configured by the local cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction. A fixed subframe is a subframe in which a transmission direction is fixed;
所述网络侧设备将含有类型信息的通知信息发送给邻小区。 The network side device sends the notification information including the type information to the neighboring cell.
本发明实施例提供的一种传输信息的设备, 包括: An apparatus for transmitting information according to an embodiment of the present invention includes:
信息确定模块, 用于根据本小区配置的无线帧中的子帧, 确定类型信息, 其中所述无 线帧包括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方 向固定不变的子帧; An information determining module, configured to determine type information according to a subframe in a radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, where the variable subframe is a variable transmission direction A fixed subframe is a subframe in which the transmission direction is fixed;
发送模块, 用于将含有类型信息的通知信息发送给邻小区。 The sending module is configured to send the notification information including the type information to the neighboring cell.
本发明实施例提供的另一种配置子帧的方法, 包括: Another method for configuring a subframe provided by the embodiment of the present invention includes:
网络侧设备根据收到的包含类型信息的通知信息, 确定本小区无线帧中的每个子帧的
类型, 其中所述类型信息是邻小区才 居配置的无线帧中的子帧确定的, 所述无线帧包括可 变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固定不变 的子帧; The network side device determines, according to the received notification information including the type information, each subframe in the radio frame of the current cell. a type, where the type information is determined by a subframe in a radio frame configured by a neighboring cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a variable transmission direction A fixed subframe is a subframe in which the transmission direction is fixed;
所述网络侧设备对本小区无线帧中的子帧进行配置。 The network side device configures a subframe in a radio frame of the local cell.
本发明实施例提供的另一种配置子帧的设备, 包括: Another device for configuring a subframe provided by the embodiment of the present invention includes:
处理模块, 用于根据收到的包含类型信息的通知信息, 确定本小区无线帧中的每个子 帧的类型, 其中所述类型信息是邻小区才 居配置的无线帧中的子帧确定的, 所述无线帧包 括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固定 不变的子帧; a processing module, configured to determine, according to the received notification information that includes the type information, a type of each subframe in the radio frame of the local cell, where the type information is determined by a subframe in a radio frame configured by the neighboring cell, The radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction;
配置模块, 用于对本小区无线帧中的子帧进行配置。 The configuration module is configured to configure a subframe in a radio frame of the local cell.
本发明实施例提供的一种配置子帧的系统, 包括: A system for configuring a subframe according to an embodiment of the present invention includes:
网络侧设备, 用于根据本小区配置的无线帧中的子帧, 确定类型信息, 将含有类型信 息的通知信息发送给邻小区, 其中所述无线帧包括可变子帧和 /或固定子帧, 可变子帧是 传输方向可变的子帧, 固定子帧是传输方向固定不变的子帧; a network side device, configured to determine, according to a subframe in a radio frame configured by the cell, type information, and send the notification information that includes the type information to the neighboring cell, where the radio frame includes a variable subframe and/or a fixed subframe. The variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction;
收到所述通知信息的网络侧设备, 用于根据收到的包含类型信息的通知信息, 确定本 小区无线帧中的每个子帧的类型, 对本小区无线帧中的子帧进行配置。 The network side device that receives the notification information is configured to determine, according to the received notification information including the type information, the type of each subframe in the radio frame of the local cell, and configure the subframe in the radio frame of the local cell.
由于本发明实施例能够将含有类型信息的通知信息发送给邻小区, 从而在小区的上下 行业务比例需求进行动态改变时, 能够使小区获取邻区的配置信息, 提高效率。 The embodiment of the present invention can send the notification information including the type information to the neighboring cell, so that when the service ratio of the uplink and the downlink of the cell is dynamically changed, the cell can obtain the configuration information of the neighboring cell and improve the efficiency.
由于本发明实施例网络侧设备根据收到的包含类型信息的通知信息, 确定本小区无线 帧中的每个子帧的类型, 并对本小区无线帧中的子帧进行配置, 从而在小区的上下行业务 比例需求进行动态改变时, 实现邻区千扰共存; 进一步提高了系统性能 附图说明 图 1 A为 TD-LTE系统帧结构示意图; In the embodiment of the present invention, the network side device determines the type of each subframe in the radio frame of the local cell according to the received notification information including the type information, and configures the subframe in the radio frame of the local cell, so as to be uplink and downlink in the cell. When the business ratio demand is dynamically changed, the neighboring area is coexisted by interference; the system performance is further improved. FIG. 1A is a schematic diagram of a frame structure of the TD-LTE system;
图 1B为使用相同 TDD载波时交叉时隙千扰示意图; FIG. 1B is a schematic diagram of cross-slot interference when using the same TDD carrier; FIG.
图 1 C为使用相邻 TDD载波时交叉时隙千扰示意图; Figure 1C is a schematic diagram of cross-slot interference when using adjacent TDD carriers;
图 2为本发明实施例配置子帧的系统结构示意图; 2 is a schematic structural diagram of a system for configuring a subframe according to an embodiment of the present invention;
图 3为本发明实施例第一种网络侧设备的结构示意图; 3 is a schematic structural diagram of a first network side device according to an embodiment of the present invention;
图 4为本发明实施例第二种网络侧设备的结构示意图; 4 is a schematic structural diagram of a second network side device according to an embodiment of the present invention;
图 5为本发明实施例传输信息的方法流程示意图; FIG. 5 is a schematic flowchart of a method for transmitting information according to an embodiment of the present invention; FIG.
图 6为本发明实施例配置子帧的方法流程示意图。
具体实施方式 本发明实施例网络侧设备根据本小区配置的无线帧中的子帧, 确定类型信息, 并将含 有类型信息的通知信息发送给邻小区, 其中无线帧包括可变子帧和 /或固定子帧, 可变子 帧是传输方向可变的子帧, 固定子帧是传输方向固定不变的子帧。 由于本发明实施例能够 将含有类型信息的通知信息发送给邻小区, 从而在小区的上下行业务比例需求进行动态改 变时, 能够使小区获取邻区的配置信息。 FIG. 6 is a schematic flowchart of a method for configuring a subframe according to an embodiment of the present invention. In the embodiment of the present invention, the network side device determines the type information according to the subframe in the radio frame configured by the cell, and sends the notification information including the type information to the neighboring cell, where the radio frame includes the variable subframe and/or A fixed subframe, a variable subframe is a subframe with a variable transmission direction, and a fixed subframe is a subframe with a fixed transmission direction. The embodiment of the present invention can send the notification information including the type information to the neighboring cell, so that when the uplink and downlink traffic ratio requirements of the cell are dynamically changed, the cell can obtain the configuration information of the neighboring cell.
本发明实施例网络侧设备根据收到的包含类型信息的通知信息, 确定本小区无线帧中 的每个子帧的类型, 并对本小区无线帧中的子帧进行配置, 从而在小区的上下行业务比例 需求进行动态改变时, 实现邻区千扰共存。 In the embodiment of the present invention, the network side device determines the type of each subframe in the radio frame of the local cell according to the received notification information including the type information, and configures the subframe in the radio frame of the current cell, so that the uplink and downlink services in the cell are performed. When the proportional demand is dynamically changed, the adjacent areas are coexisted.
其中, 本发明实施例能够应用于 TDD系统中 (比如 TD-LTE系统), 也可以应用于其 他需要动态调整子帧上下行配置的系统中, 例如 TD-SCDMA 系统及其后续演进系统, WiMAX ( Worldwide Interoperability for Microwave Access, 4 波存取全球互通 ) 系统及其 后续演进系统等。 The embodiments of the present invention can be applied to a TDD system (such as a TD-LTE system), and can also be applied to other systems that need to dynamically adjust uplink and downlink configurations of a subframe, such as a TD-SCDMA system and its subsequent evolution system, WiMAX ( Worldwide Interoperability for Microwave Access, 4 Wave Access Global Interoperability) systems and their subsequent evolution systems.
在下面的说明过程中, 先从网络侧和终端侧的配合实施进行说明, 最后分别从网络侧 与终端侧的实施进行说明, 但这并不意味着二者必须配合实施, 实际上, 当网络侧与终端 侧分开实施时, 也解决了分别在网络侧、 终端侧所存在的问题, 只是二者结合使用时, 会 获得更好的技术效果。 In the following description, the implementation of the cooperation between the network side and the terminal side will be described first. Finally, the implementations from the network side and the terminal side will be described separately, but this does not mean that the two must be implemented together. In fact, when the network When the side is separated from the terminal side, the problems existing on the network side and the terminal side are also solved, but when the two are combined, a better technical effect is obtained.
下面结合说明书附图对本发明实施例作进一步详细描述。 The embodiments of the present invention are further described in detail below with reference to the accompanying drawings.
在下面的说明过程中, 先从发送侧和接收侧的配合实施进行说明, 最后分别从发送侧 与接收侧的实施进行说明, 但这并不意味着二者必须配合实施, 实际上, 当发送侧与接收 侧分开实施时, 也解决了分别在发送侧、 接收侧所存在的问题, 只是二者结合使用时, 会 获得更好的技术效果。 In the following description, the implementation of the cooperation between the transmitting side and the receiving side will be described first, and finally the implementations of the transmitting side and the receiving side will be described separately, but this does not mean that the two must be implemented together, in fact, when transmitting When the side is separately implemented from the receiving side, the problems existing on the transmitting side and the receiving side are also solved, but when the two are used in combination, a better technical effect is obtained.
如图 2所示, 本发明实施例配置子帧的系统包括: 第一网络侧设备 10和第二网络侧 设备 20。 As shown in FIG. 2, the system for configuring a subframe in the embodiment of the present invention includes: a first network side device 10 and a second network side device 20.
第一网络侧设备 10, 用于才 居本小区配置的无线帧中的子帧, 确定类型信息, 将含有 类型信息的通知信息发送给邻小区, 其中无线帧包括可变子帧和 /或固定子帧, 可变子帧 是传输方向可变的子帧, 固定子帧是传输方向固定不变的子帧。 The first network side device 10 is configured to determine, according to the subframe in the radio frame configured by the local cell, the type information, and send the notification information including the type information to the neighboring cell, where the radio frame includes the variable subframe and/or the fixed Sub-frame, a variable sub-frame is a sub-frame with a variable transmission direction, and a fixed sub-frame is a sub-frame with a fixed transmission direction.
无线帧包括可变子帧和 /或固定子帧表示三种情况。 1、 无线帧中的子帧全是可变子 帧; 2、 无线帧中的子帧全是固定子帧; 3、 无线帧中的子帧有可变子帧和固定子帧。 A wireless frame includes a variable subframe and/or a fixed subframe indicating three cases. 1. The subframes in the radio frame are all variable subframes; 2. The subframes in the radio frame are all fixed subframes; 3. The subframes in the radio frame have variable subframes and fixed subframes.
收到通知信息的第二网络侧设备 20 , 用于根据收到的包含类型信息的通知信息, 确定 本小区无线帧中的每个子帧的类型, 对本小区无线帧中的子帧进行配置。
其中, 这里的邻小区是同频邻小区或异频邻小区; 以及本小区和邻小区可以处于同一 个 TDD网络的邻小区或不同 TDD网络。 The second network side device 20 that receives the notification information is configured to determine, according to the received notification information including the type information, the type of each subframe in the radio frame of the local cell, and configure the subframe in the radio frame of the local cell. The neighboring cell here is an intra-frequency neighboring cell or an inter-frequency neighboring cell; and the neighboring cell and the neighboring cell may be in a neighboring cell of the same TDD network or a different TDD network.
第一网络侧设备 10确定类型信息的方式有很多种, 下面列举几种。 There are many ways in which the first network side device 10 determines the type information, and several are listed below.
方式一、 第一网络侧设备 10设置一定时间长度中固定子帧在类型 bitmap (比特位图) 中对应的比特位的数值,以及设置上述时间长度中可变子帧在类型 bitmap中对应的比特位 的数值 , 并将该类型 bitmap作为类型信息。 Manner 1: The first network side device 10 sets a value of a corresponding bit in a type of a fixed subframe in a type of bit length (bit bitmap), and sets a bit corresponding to the variable subframe in the type bitmap in the foregoing time length. The value of the bit, and the type of bitmap as the type information.
在实施中, 类型 bitmap可以只表示一定时间长度中固定子帧的类型信息。 In an implementation, the type bitmap may only represent the type information of the fixed subframe in a certain length of time.
假设时间长度是 10ms (即一个无线帧长度), 子帧 0、 子帧 1、 子帧 2、 子帧 5、 子帧 Assume that the length of time is 10ms (ie, one radio frame length), subframe 0, subframe 1, subframe 2, subframe 5, subframe
6和子帧 7是固定子帧。 "1"表示固定子帧, "0"表示可变子帧, 则如表 1所示:
6 and subframe 7 are fixed subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe, as shown in Table 1:
表 1 Table 1
具体的类型 bitmap是 1110011100。 The specific type bitmap is 1110011100.
相应的, 第二网络侧设备 20收到 1110011100后, 根据类型 bitmap中每个比特位对应 的子帧以及每个比特位对应的数值的含义就知道每个子帧的类型了。 Correspondingly, after receiving the 1110011100, the second network side device 20 knows the type of each subframe according to the subframe corresponding to each bit in the type bitmap and the meaning of the value corresponding to each bit.
在实施中, 类型 bitmap可以只表示一定时间长度中可变子帧的类型信息。 In an implementation, the type bitmap may only represent the type information of the variable subframe in a certain length of time.
假设时间长度是 10ms (即一个无线帧长度), 子帧 3、 子帧 4、 子帧 8和子帧 9是可变 子帧。 "1"表示固定子帧, "0"表示可变子帧, 则如表 2所示:
Assuming that the time length is 10 ms (i.e., one radio frame length), subframe 3, subframe 4, subframe 8, and subframe 9 are variable subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe, as shown in Table 2:
表 2 Table 2
具体的类型 bitmap是 0001100011。 The specific type bitmap is 0001100011.
相应的, 第二网络侧设备 20收到 0001100011后, 居类型 bitmap中每个比特位对应 的子帧以及每个比特位对应的数值的含义就知道每个子帧的类型了。 Correspondingly, after the second network side device 20 receives the 0001100011, the subframe corresponding to each bit in the type bitmap and the meaning of the value corresponding to each bit know the type of each subframe.
具体时长可以在协议中规定, 也可以由高层通知。 根据需要还可以对设定的时长进行 更新。 The specific length of time can be specified in the agreement, or it can be notified by the senior management. The set duration can also be updated as needed.
具体类型 bitmap表示哪些子帧、每个比特位对应的子帧以及每个比特位数值的含义可 以在协议中规定, 还可以由高层通知。 The specific type bitmap indicates which subframes, the subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
方式二、 第一网络侧设备 10根据类型配置格式和第一序号的对应关系, 确定一定时 间长度中的固定子帧和可变子帧的类型配置格式对应的第一序号, 并将确定的第一序号作 为类型信息。 The second network side device 10 determines, according to the correspondence between the type configuration format and the first serial number, the first serial number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain time length, and the determined A serial number is used as type information.
类型配置格式和第一序号的对应关系可以参见表 3。
编号 For the correspondence between the type configuration format and the first serial number, see Table 3. Numbering
子帧 0 子帧 1 子帧 2 子帧 3 子帧 4 子帧 5 子帧 6 子帧 7 子帧 8 子帧 9 序号 Subframe 0 Subframe 1 Subframe 2 Subframe 3 Subframe 4 Subframe 5 Subframe 6 Subframe 7 Subframe 8 Subframe 9
0 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 0 fixed fixed fixed fixed fixed fixed fixed fixed fixed
1 固定 固定 固定 可变 可变 固定 固定 固定 可变 可变1 fixed fixed fixed variable variable fixed fixed fixed variable variable
2 固定 固定 固定 可变 固定 固定 固定 固定 可变 固定2 fixed fixed fixed fixed fixed fixed fixed fixed fixed fixed
3 固定 固定 固定 固定 可变 固定 固定 固定 固定 可变3 fixed fixed fixed fixed fixed fixed fixed fixed fixed
... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ...
表 3 table 3
假设时间长度是 10ms (即一个无线帧长度), 子帧 3、 子帧 4、 子帧 8和子帧 9是可变 子帧; 子帧 0、 子帧 1、 子帧 2、 子帧 5、 子帧 6和子帧 7是固定子帧。 根据表 3就可以确 定第一序号是 2。 Assuming that the length of time is 10 ms (ie, one radio frame length), subframe 3, subframe 4, subframe 8 and subframe 9 are variable subframes; subframe 0, subframe 1, subframe 2, subframe 5, sub Frame 6 and subframe 7 are fixed subframes. According to Table 3, it can be determined that the first serial number is 2.
相应的, 第二网络侧设备 20收到第一序号 2后, 根据表 3就知道每个子帧的类型了。 类型配置格式和第一序号的对应关系可以预先在协议中规定, 也可以由高层通知。 根 据需要还可以对配置格式和序号的对应关系进行更新。 Correspondingly, after receiving the first sequence number 2, the second network side device 20 knows the type of each subframe according to Table 3. The correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer. The correspondence between the configuration format and the serial number can also be updated as needed.
由于不是动态分配时, 网络接口已经交互了上下行配置信息。 因此, 在实施中如果通 知某子帧为固定子帧, 其传输方向与已经通知的上下行配置信息所指示的含义相同; 如果 通知某个子帧为可变子帧, 其传输方向与已经通知的上下行配置信息所指示的含义无关。 Since it is not dynamically allocated, the network interface has already interacted with the uplink and downlink configuration information. Therefore, if a certain subframe is notified as a fixed subframe in the implementation, the transmission direction is the same as that indicated by the already notified uplink and downlink configuration information; if a certain subframe is notified as a variable subframe, the transmission direction is already notified. The meaning indicated by the uplink and downlink configuration information is irrelevant.
较佳的, 第一网络侧设备 10还可以将传输方向信息置于通知信息中。 传输方向信息 表示每个子帧是上行传输还是下行传输。 Preferably, the first network side device 10 can also place the transmission direction information in the notification information. The transmission direction information indicates whether each subframe is an uplink transmission or a downlink transmission.
具体的, 第一网络侧设备 10可以根据本小区配置的无线帧中的子帧, 确定传输方向 信息。 Specifically, the first network side device 10 may determine the transmission direction information according to the subframe in the radio frame configured by the cell.
第一网络侧设备 10确定传输方向信息的方式有很多种, 下面列举几种。 There are many ways in which the first network side device 10 determines the transmission direction information, and several are listed below.
方式一、 第一网络侧设备 10设置一定时间长度中固定子帧在传输方向 bitmap中对应 的比特位的数值,以及设置上述时间长度中可变子帧在传输方向 bitmap中对应的比特位的 数值 , 并将该传输方向 bitmap作为传输方向信息。 The first network side device 10 sets the value of the corresponding bit in the transmission direction bitmap of the fixed subframe in a certain length of time, and sets the value of the corresponding bit in the transmission direction bitmap in the time length. And use the transmission direction bitmap as the transmission direction information.
假设时间长度是 10ms (即一个无线帧长度)。 子帧 2、 子帧 7、 子帧 8和子帧 9的传输 方向是上行。 "Γ表示传输方向是上行, "0"表示传输方向是下行, 则如表 4所示:
Assume that the length of time is 10ms (ie a radio frame length). The transmission direction of subframe 2, subframe 7, subframe 8, and subframe 9 is uplink. "Γ indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink, as shown in Table 4:
表 4 Table 4
具体的传输方向 bitmap是 0010000111。 The specific transmission direction bitmap is 0010000111.
相应的, 第二网络侧设备 20收到 0010000111后, 根据传输方向 bitmap中每个比特位
对应的子帧以及每个比特位对应的数值的含义就知道每个子帧的传输方向了。 具体时长可以在协议中规定, 也可以由高层通知。 根据需要还可以对设定的时长进行 更新。 Correspondingly, after receiving the 0010000111, the second network side device 20, according to each bit in the transmission direction bitmap The meaning of the corresponding sub-frame and the value corresponding to each bit is known as the transmission direction of each sub-frame. The specific length of time can be specified in the agreement, or it can be notified by the senior management. The set duration can also be updated as needed.
具体传输方向 bitmap表示哪些子帧、每个比特位对应的子帧以及每个比特位数值的含 义可以在协议中规定, 还可以由高层通知。 The specific transmission direction bitmap indicates which subframes, subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
方式二、 第一网络侧设备 10根据传输方向配置格式和第二序号的对应关系, 确定一 定时间长度中的固定子帧和可变子帧的传输方向配置格式对应的第二序号, 并将确定的第 二序号作为传输方向信息。 The second network side device 10 determines the second serial number corresponding to the transmission direction configuration format of the fixed subframe and the variable subframe in a certain time length according to the correspondence between the configuration format of the transmission direction and the second serial number, and determines The second serial number is used as the transmission direction information.
传输方向配置格式和第二序号的对应关系可以参见表 5。 For the correspondence between the transmission direction configuration format and the second serial number, see Table 5.
表 5 ( D表示下行; U表示上行) Table 5 (D indicates downlink; U indicates uplink)
假设时间长度是 10ms (即一个无线帧长度 ), 子帧 2、 子帧 3、 子帧 4和子帧 7的传输 方向是上行; 子帧 0、 子帧 1、 子帧 5、 子帧 6、 子帧 8和子帧 9的传输方向是下行。 根据 表 5就可以确定第一序号是 3。 Assuming that the length of time is 10 ms (ie, one radio frame length), the transmission direction of subframe 2, subframe 3, subframe 4, and subframe 7 is uplink; subframe 0, subframe 1, subframe 5, subframe 6, and sub-frame The transmission direction of frame 8 and subframe 9 is downlink. According to Table 5, it can be determined that the first serial number is 3.
相应的, 第二网络侧设备 20收到第一序号 3后, 根据表 5就知道每个子帧的类型了。 类型配置格式和第一序号的对应关系可以预先在协议中规定, 也可以由高层通知。 根 据需要还可以对配置格式和序号的对应关系进行更新。 Correspondingly, after receiving the first sequence number 3, the second network side device 20 knows the type of each subframe according to Table 5. The correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer. The correspondence between the configuration format and the serial number can also be updated as needed.
其中, 第一网络侧设备 10可以将传输方向信息和类型信息通过两个不同的通知信息 发送; 也可以将传输方向信息和类型信息都置于同一个通知信息中。 The first network side device 10 may send the transmission direction information and the type information through two different notification information. The transmission direction information and the type information may also be placed in the same notification information.
如果第一网络侧设备 10将传输方向信息和类型信息都置于同一个通知信息中, 则第 一网络侧设备 10将传输方向信息和类型信息组合成配置信息, 并将配置信息置于通知信 息中。 If the first network side device 10 sets both the transmission direction information and the type information in the same notification information, the first network side device 10 combines the transmission direction information and the type information into configuration information, and places the configuration information in the notification information. in.
具体的配置信息可以是类型 bitmap+传输方向 bitmap; 类型 bitmap+第二序号; 第一序 号 +传输方向 bitmap; 第一序号 +第二序号中的一种。 The specific configuration information may be type bitmap+transmission direction bitmap; type bitmap+second sequence number; first sequence number + transmission direction bitmap; first sequence number + one of the second sequence numbers.
具体釆用那种可以在协议中规定; 还可以由高层通知。 The specific use can be specified in the agreement; it can also be notified by the senior management.
如果配置信息可以是类型 bitmap+传输方向 bitmap , 可以前半部分是类型 bitmap , 后
半部分是传输方向 bitmap; 也可以前半部分是传输方向 bitmap , 后半部分是类型 bitmap; 还可以将类型 bitmap和传输方向 bitmap混合在一起。 If the configuration information can be type bitmap+transport direction bitmap, the first half can be type bitmap, after The half part is the transmission direction bitmap; the first half is the transmission direction bitmap, the second half is the type bitmap; the type bitmap and the transmission direction bitmap can also be mixed together.
如果是将类型 bitmap和传输方向 bitmap混合在一起, 可以直接将每个子帧的类型信 息与传输方向信息用多于一个 bit信息通知给邻小区。 If the type bitmap and the transmission direction bitmap are mixed together, the type information and the transmission direction information of each subframe can be directly notified to the neighboring cell by using more than one bit information.
假设时间长度是 10ms (即一个无线帧长度), 子帧 0、 子帧 1、 子帧 2、 子帧 5、 子帧 6和子帧 7是固定子帧,子帧 3、子帧 4、子帧 8和子帧 9是可变子桢 "1 "表示固定子帧, "0" 表示可变子帧; 子帧 2、 子帧 7、 子帧 8和子帧 9传输方向是上行, 子帧 0、 子帧 1、 子帧 3、 子帧 4、 子帧 5和子帧 6传输方向是下行, 1"表示传输方向是上行, "0"表示传输方向 是下行, 则如表 6所示: Assuming that the length of time is 10 ms (ie, one radio frame length), subframe 0, subframe 1, subframe 2, subframe 5, subframe 6 and subframe 7 are fixed subframes, subframe 3, subframe 4, and subframe. 8 and subframe 9 are variable sub-桢 "1" for fixed subframe, "0" for variable subframe; subframe 2, subframe 7, subframe 8 and subframe 9 for transmission direction, subframe 0, sub-frame The transmission direction of frame 1, subframe 3, subframe 4, subframe 5, and subframe 6 is downlink, 1" indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink, as shown in Table 6:
表 6 Table 6
具体的配置信息是 00000110100000011111。 The specific configuration information is 00000110100000011111.
相应的,第二网络侧设备 10收到 00000110100000011111后,根据分别根据类型 bitmap 和传输方向 bitmap 中每个比特位对应的子帧以及每个比特位对应的数值的含义就知道每 个子帧的类型和传输方向了。 Correspondingly, after receiving the 00000110100000011111, the second network side device 10 knows the type and the type of each subframe according to the meaning of the subframe corresponding to each bit in the type bitmap and the transmission direction bitmap and the value corresponding to each bit. The direction of transmission is gone.
其中, 根据需要网络侧设备还可以将下列信息中的一种或多种置于通知信息中: 本小区的小区标识、 本小区的 PLMN ( Public Land Mobile Network, 公共陆地移动网) 标识和邻小区的小区标识。 The network side device may also put one or more of the following information into the notification information according to the requirement: the cell identifier of the local cell, the PLMN (Public Land Mobile Network) identifier of the local cell, and the neighboring cell. Cell identity.
在实施中, 第一网络侧设备 10 可以通过直接通信接口或间接通信接口将通知消息发 送给邻小区。 In an implementation, the first network side device 10 may send a notification message to the neighboring cell through a direct communication interface or an indirect communication interface.
例如具有 X2连接的小区之间(如 Macro (宏) 小区, Pico 'J、区等)可以使用 X2接口发 送; 没有 X2接口连接的小区之间(如 femto小区等)可以使用 S 1接口。 For example, a cell with an X2 connection (such as a Macro cell, a Pico 'J, a cell, etc.) can be sent using an X2 interface; a cell without an X2 interface (such as a femto cell) can use the S1 interface.
第二网络侧设备 20根据收到的包含类型信息的通知信息, 确定本小区无线帧中的每 个子帧的类型, 然后对本小区无线帧中的子帧进行配置。 The second network side device 20 determines the type of each subframe in the radio frame of the local cell according to the received notification information including the type information, and then configures the subframe in the radio frame of the local cell.
其中, 第二网络侧设备 20判断是否能够检测本小区与发送通知信息的邻小区之间的 千扰强度。 The second network side device 20 determines whether the interference strength between the local cell and the neighboring cell that sends the notification information can be detected.
这里的千扰强度包括但不限于下列值中的一种: The intensity of the disturbance here includes but is not limited to one of the following values:
RSRP ( Reference signal received power , 参考信号接收功率) 值、 RIP ( Received RSRP (Reference signal received power) value, RIP (Received
Interference Power, 千扰接收功率)值、 CQI ( Channel Quality Indicator, 信道盾量指示) 值和 RSRQ ( Reference Signal Received Quality , 参考信号接收盾量)值。 Interference Power, CQI (Channel Quality Indicator) value, and RSRQ (Reference Signal Received Quality) value.
在确定不能够检测本小区与发送通知信息的邻小区之间的千扰强度时, 如果需要配置
的子帧在邻小区是可变子帧, 则第二网络侧设备 20 不使用该子帧或降低该子帧的使用优 先级。 When it is determined that the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected, if configuration is required The subframe is a variable subframe in the neighboring cell, and the second network side device 20 does not use the subframe or lowers the usage priority of the subframe.
具体的, 第二网络侧设备 20可以将不使用的子帧配制成 MBSFN ( MBSFN Multicast Broadcast Single Frequency Network, 多播广播单频网络) 子帧或 ABS ( Almost Blank Subframe, 空白子帧)或上行子帧但不进行上行调度。 Specifically, the second network side device 20 may configure the unused subframe as an MBSFN (MBSFN Multicast Broadcast Single Frequency Network) subframe or an ABS (Almost Blank Subframe) or an uplink sub-frame. Frames are not scheduled for uplink.
如果通知信息包括传输方向信息, 并且确定不能够检测本' j、区与发送通知信息的邻 'J、 区之间的千扰强度, 如果需要配置的子帧在邻小区是可变子帧时, 第二网络侧设备 20可 以配置的子帧类型和传输方向与邻小区中同一子帧标识的子帧类型和传输方向相同。 If the notification information includes the transmission direction information, and it is determined that the interference strength between the 'j, the area and the neighboring node J of the transmission notification information cannot be detected, if the subframe to be configured is a variable subframe when the neighboring cell is a variable subframe The subframe type and the transmission direction that the second network side device 20 can be configured are the same as the subframe type and the transmission direction of the same subframe identifier in the neighboring cell.
比如子帧 7和子帧 8是可变子帧, 则可以将本小区的子帧 7配置成与邻小区的子帧 7 相同的传输方向; 将本小区的子帧 8配置成与邻小区的子帧 8相同的传输方向。 For example, if the subframe 7 and the subframe 8 are variable subframes, the subframe 7 of the current cell may be configured to be the same transmission direction as the subframe 7 of the neighboring cell; and the subframe 8 of the local cell is configured to be associated with the neighboring cell. Frame 8 has the same transmission direction.
在确定不能够检测本小区与发送通知信息的邻小区之间的千扰强度, 如果需要配置的 子帧在邻小区是固定子帧, 第二网络侧设备 20可以配置的子帧类型和传输方向与邻小区 中同一子帧标识的子帧类型和传输方向相同。 The subframe type and the transmission direction that the second network side device 20 can configure if the subframe to be configured is a fixed subframe in the neighboring cell is determined to be incapable of detecting the interference strength between the local cell and the neighboring cell that sends the notification information. The subframe type and the transmission direction are the same as those identified in the same subframe in the neighboring cell.
由于固定子帧的传输方向可以根据预先设定的信息或上下行配置信息确定, 所以通知 信息中如果没有包括传输方向信息, 也可以知道固定子帧的传输方向。 当然, 如果通知信 息中包括传输方向信息, 则以通知信息中的传输方向信息为准。 Since the transmission direction of the fixed subframe can be determined according to preset information or uplink and downlink configuration information, if the transmission direction information is not included in the notification information, the transmission direction of the fixed subframe can also be known. Of course, if the transmission direction information is included in the notification information, the transmission direction information in the notification information is taken as the standard.
其中, 如果第二网络侧设备 20确定能够检测本小区与发送通知信息的邻小区之间的 千扰强度, 则进一步将千扰强度与阈值进行比较。 具体阈值的设定可以根据经验值或仿真 结果在协议中规定或由高层通知。 不同的千扰强度对应不同的阈值。 If the second network side device 20 determines that the interference strength between the local cell and the neighboring cell that sends the notification information can be detected, the interference intensity is further compared with the threshold. The specific threshold setting can be specified in the agreement or notified by the upper layer based on empirical values or simulation results. Different interference strengths correspond to different thresholds.
如果千扰强度不小于阈值, 并且需要配置的子帧在邻小区是可变子帧时, 第二网络侧 设备 20 不使用该子帧或降低该子帧的使用优先级。 不使用子帧的具体方式与上述不使用 子帧的方式相同, 在此不再赘述。 If the interference strength is not less than the threshold, and the subframe to be configured is a variable subframe in the neighboring cell, the second network side device 20 does not use the subframe or lowers the usage priority of the subframe. The specific manner of not using a subframe is the same as the manner in which the subframe is not used, and details are not described herein again.
如果千扰强度不小于阈值, 不管是可变子帧还是固定子帧, 第二网络侧设备 20都可 以根据默认配置信息对本小区无线帧中的子帧进行配置, 或根据网络侧下发的统一配置信 息对本小区无线帧中的子帧进行配置, 或在通知信息中还包括传输方向信息时, 根据收到 的通知信息对本小区无线帧中的子帧进行配置。 If the interference strength is not less than the threshold, whether it is a variable subframe or a fixed subframe, the second network side device 20 may configure the subframe in the radio frame of the local cell according to the default configuration information, or according to the unification of the network side. The configuration information is configured on the subframe in the radio frame of the local cell, or when the notification information further includes the transmission direction information, and configures the subframe in the radio frame of the local cell according to the received notification information.
如果千扰强度小于阈值, 不管是可变子帧还是固定子帧, 第二网络侧设备 20 自主对 本小区无线帧中的子帧进行配置。 If the interference strength is less than the threshold, whether it is a variable subframe or a fixed subframe, the second network side device 20 autonomously configures the subframe in the radio frame of the local cell.
在自主配置时, 第二网络侧设备 20可以考虑业务需求、 信道负荷、 终端数量等情况 中的一种, 也可以考虑多种, 然后才 居具体情况对本小区无线帧中的子帧进行配置。 In the autonomous configuration, the second network side device 20 may consider one of the service requirements, the channel load, the number of terminals, and the like, and may also consider multiple types, and then configure the subframes in the radio frame of the current cell in a specific case.
比如上行负载过重, 可以多配置上行子帧; 下行业务过多, 可以多配置下行子帧等。 需要说明的是,上述表 1〜表 6只是举例说明,并不表示本发明实施例一定按照表 1 ~ 表 6的内容, 也可以不釆用表 1〜表 6的形式以及内容, 而釆用其他方式实现。
其中, 本发明实施例的第一网络侧设备 10和第二网络侧设备 20可以 ^&站(比如宏 基站, 微基站、 家庭基站等), 也可以是 RN ( Relay Node, 中继设备), 还可以是其它网络 侧设备。 For example, if the uplink load is too heavy, you can configure an uplink subframe. If there are too many downlink services, you can configure multiple downlink subframes. It should be noted that the above Tables 1 to 6 are merely examples, and the embodiments of the present invention are not necessarily in accordance with the contents of Tables 1 to 6, and may not be used in the form and contents of Tables 1 to 6. Other ways to achieve. The first network side device 10 and the second network side device 20 in the embodiment of the present invention may be a station (such as a macro base station, a micro base station, a home base station, etc.), or may be an RN (Relay Node). It can also be other network side devices.
基于同一发明构思, 本发明实施例中还提供了两种网络侧设备以及传输信息的方法和 配置子帧的方法, 由于这些设备和方法解决问题的原理与配置子帧的系统相似, 因此这些 设备和方法的实施可以参见方法的实施, 重复之处不再赘述。 Based on the same inventive concept, two network side devices, a method for transmitting information, and a method for configuring a subframe are also provided in the embodiment of the present invention. Since the principles of the devices and methods for solving the problem are similar to those for configuring the subframe, the devices are For the implementation of the method and the method, refer to the implementation of the method, and the repeated description will not be repeated.
如图 3所示, 本发明实施例的第一种网络侧设备包括: 信息确定模块 100和发送模块 As shown in FIG. 3, the first network side device of the embodiment of the present invention includes: an information determining module 100 and a sending module.
110。 110.
信息确定模块 100, 用于根据本小区配置的无线帧中的子帧, 确定类型信息, 其中无 线帧包括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方 向固定不变的子帧; The information determining module 100 is configured to determine type information according to a subframe in a radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction. , the fixed subframe is a subframe with a fixed transmission direction;
发送模块 110, 用于将含有类型信息的通知信息发送给邻小区。 The sending module 110 is configured to send the notification information including the type information to the neighboring cell.
其中,信息确定模块 100可以设置一定时间长度中固定子帧在类型比特位图 bitmap中 对应的比特位的数值,以及设置上述时间长度中可变子帧在类型 bitmap中对应的比特位的 数值, 并将该类型 bitmap作为类型信息; 或根据类型配置格式和第一序号的对应关系, 确 定一定时间长度中的固定子帧和可变子帧的类型配置格式对应的第一序号, 并将确定的第 一序号作为类型信息。 The information determining module 100 may set a value of a corresponding bit of the fixed subframe in the type bitmap bitmap in a certain length of time, and set a value of the corresponding bit of the variable subframe in the type bitmap in the foregoing time length, And the type of the bitmap is used as the type information; or according to the correspondence between the type configuration format and the first serial number, determining the first serial number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain length of time, and determining The first serial number is used as the type information.
较佳的, 通知信息还包括传输方向信息; 相应的, 信息确定模块 100根据本小区配置 的无线帧中的子帧, 确定传输方向信息。 Preferably, the notification information further includes transmission direction information. Correspondingly, the information determining module 100 determines the transmission direction information according to the subframe in the radio frame configured by the cell.
其中,信息确定模块 100可以设置一定时间长度中固定子帧在传输方向 bitmap中对应 的比特位的数值,以及设置上述时间长度中可变子帧在传输方向 bitmap中对应的比特位的 数值 , 并将该传输方向 bitmap作为传输方向信息; 或根据传输方向配置格式和第二序号的 对应关系, 确定一定时间长度中的固定子帧和可变子帧的传输方向配置格式对应的第二序 号, 并将确定的第二序号作为传输方向信息。 The information determining module 100 may set a value of a bit corresponding to a fixed subframe in a transmission direction bitmap in a certain length of time, and set a value of a bit corresponding to the variable subframe in the transmission direction bitmap in the foregoing time length, and The transmission direction bitmap is used as the transmission direction information; or the second sequence number corresponding to the transmission direction configuration format of the fixed subframe and the variable subframe in a certain time length is determined according to the correspondence between the transmission direction configuration format and the second sequence number, and The determined second serial number is used as the transmission direction information.
在实施中, 信息确定模块 100还可以将传输方向信息和类型信息组合成配置信息, 并 将配置信息置于通知信息中。 In an implementation, the information determining module 100 may also combine the transmission direction information and the type information into configuration information, and place the configuration information in the notification information.
其中, 发送模块 110可以通过直接或间接通信接口将通知消息发送给邻小区。 The sending module 110 may send the notification message to the neighboring cell through a direct or indirect communication interface.
如图 4所示, 本发明实施例的第二种网络侧设备包括: 处理模块 200和配置模块 210。 处理模块 200, 用于根据收到的包含类型信息的通知信息, 确定本小区无线帧中的每 个子帧的类型, 其中类型信息是邻小区才 居配置的无线帧中的子帧确定的, 无线帧包括可 变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固定不变 的子帧。 As shown in FIG. 4, the second network side device in the embodiment of the present invention includes: a processing module 200 and a configuration module 210. The processing module 200 is configured to determine, according to the received notification information that includes the type information, a type of each subframe in the radio frame of the local cell, where the type information is determined by a subframe in a radio frame configured by the neighboring cell, and the wireless The frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction.
配置模块 210, 用于对本小区无线帧中的子帧进行配置。
其中, 配置模块 210在不能检测本小区与发送通知信息的邻小区之间的千扰强度或能 够检测本小区与发送通知信息的邻小区之间的千扰强度, 且千扰强度不小于阈值时, 如果 需要配置的子帧在邻小区是可变子帧, 不使用该子帧或降低该子帧的使用优先级。 The configuration module 210 is configured to configure a subframe in a radio frame of the local cell. The configuration module 210 can detect the interference strength between the local cell and the neighboring cell that sends the notification information, or can detect the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength is not less than the threshold. If the subframe to be configured is a variable subframe in the neighboring cell, the subframe is not used or the usage priority of the subframe is lowered.
具体的,配置模块 210将不使用的子帧配制成 MBSFN子帧或 ABS子帧或上行子帧但 不进行上行调度。 Specifically, the configuration module 210 configures unused subframes into MBSFN subframes or ABS subframes or uplink subframes but does not perform uplink scheduling.
如果通知信息还包括传输方向信息, 配置模块 210在不能检测本小区与发送通知信息 的邻小区之间的千扰强度时, 配置的子帧类型和传输方向与邻小区中同一子帧标识的子帧 类型和传输方向相同。 If the notification information further includes the transmission direction information, the configuration module 210 configures the subframe type and the transmission direction with the same subframe identifier in the neighboring cell when the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected. The frame type and transmission direction are the same.
其中, 配置模块 210在能够检测本小区与发送通知信息的邻小区之间的千扰强度, 且 千扰强度小区阈值时, 自主对本小区无线帧中的子帧进行配置; 在能够检测本小区与发送 通知信息的邻小区之间的千扰强度, 且千扰强度不小区阈值时, 根据默认配置信息对本小 区无线帧中的子帧进行配置, 或根据网络侧下发的统一配置信息对本小区无线帧中的子帧 进行配置, 或在通知信息中还包括传输方向信息时, 根据收到的通知信息对本小区无线帧 中的子帧进行配置。 When the configuration module 210 can detect the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength cell threshold, the configuration module 210 autonomously configures the subframe in the radio frame of the local cell; If the interference strength between the neighboring cells that send the notification information is not the cell threshold, the subframe in the radio frame of the local cell is configured according to the default configuration information, or the wireless network of the cell is configured according to the unified configuration information sent by the network side. The subframe in the frame is configured, or when the transmission direction information is further included in the notification information, the subframe in the radio frame of the local cell is configured according to the received notification information.
在实施中, 第一种网络侧设备也可能作为接收方。 第二种网络侧设备也可能作为发送 方, 所以第一网络侧设备和第二网络侧设备的功能可以合在一个实体中 (即第一网络侧设 备和第二网络侧设备的模块在一个实体中), 根据需要选择使用第一网络侧设备的功能或 第二网络侧设备的功能。 In implementation, the first type of network side device may also act as a receiver. The second network side device may also function as a sender, so the functions of the first network side device and the second network side device may be combined in one entity (ie, the modules of the first network side device and the second network side device are in one entity) The function of the first network side device or the function of the second network side device is selected as needed.
如图 5所示, 本发明实施例传输信息的方法包括下列步骤: As shown in FIG. 5, the method for transmitting information in the embodiment of the present invention includes the following steps:
步骤 501、 网络侧设备 # ^据本小区配置的无线帧中的子帧, 确定类型信息, 其中无线 帧包括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向 固定不变的子帧。 Step 501: The network side device determines the type information according to the subframe in the radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a variable transmission direction. A frame, a fixed subframe is a subframe in which the transmission direction is fixed.
步骤 502、 网络侧设备将含有类型信息的通知信息发送给邻小区。 Step 502: The network side device sends the notification information including the type information to the neighboring cell.
其中, 这里的邻小区是同频邻小区或异频邻小区; 以及本小区和邻小区可以处于同一 个 TDD网络的邻小区或不同 TDD网络。 The neighboring cell here is an intra-frequency neighboring cell or an inter-frequency neighboring cell; and the neighboring cell and the neighboring cell may be in a neighboring cell of the same TDD network or different TDD networks.
步骤 501中, 网络侧设备确定类型信息的方式有很多种, 下面列举几种。 In step 501, there are many ways for the network side device to determine the type information, and several types are listed below.
方式一、 网络侧设备设置一定时间长度中固定子帧在类型 bitmap (比特位图) 中对应 的比特位的数值, 以及设置上述时间长度中可变子帧在类型 bitmap 中对应的比特位的数 值, 并将该类型 bitmap作为类型信息。 Manner 1: The network side device sets the value of the corresponding bit in the type of the fixed subframe in the type of bit length (bit bitmap) in a certain length of time, and sets the value of the corresponding bit in the type of the variable subframe in the time length. , and use this type of bitmap as type information.
在实施中, 类型 bitmap可以只表示一定时间长度中固定子帧的类型信息。 In an implementation, the type bitmap may only represent the type information of the fixed subframe in a certain length of time.
假设时间长度是 10ms (即一个无线帧长度), 子帧 0、 子帧 1、 子帧 2、 子帧 5、 子帧 6和子帧 7是固定子帧。 "1"表示固定子帧, "0"表示可变子帧, 则如表 1所示, 具体的类 型 bitmap是 1110011100。
在实施中, 类型 bitmap可以只表示一定时间长度中可变子帧的类型信息。 Assuming that the time length is 10 ms (ie, one radio frame length), subframe 0, subframe 1, subframe 2, subframe 5, subframe 6 and subframe 7 are fixed subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe. As shown in Table 1, the specific type bitmap is 1110011100. In an implementation, the type bitmap may only represent the type information of the variable subframe in a certain length of time.
假设时间长度是 10ms (即一个无线帧长度), 子帧 3、 子帧 4、 子帧 8和子帧 9是可变 子帧。 "1"表示固定子帧, "0"表示可变子帧, 则如表 2 所示, 具体的类型 bitmap 是 Assuming that the time length is 10 ms (i.e., one radio frame length), subframe 3, subframe 4, subframe 8 and subframe 9 are variable subframes. "1" indicates a fixed subframe, and "0" indicates a variable subframe. As shown in Table 2, the specific type bitmap is
0001100011。 0001100011.
具体时长可以在协议中规定, 也可以由高层通知。 根据需要还可以对设定的时长进行 更新。 The specific length of time can be specified in the agreement, or it can be notified by the senior management. The set duration can also be updated as needed.
具体类型 bitmap表示哪些子帧、每个比特位对应的子帧以及每个比特位数值的含义可 以在协议中规定, 还可以由高层通知。 The specific type bitmap indicates which subframes, the subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
方式二、 网络侧设备根据类型配置格式和第一序号的对应关系, 确定一定时间长度中 的固定子帧和可变子帧的类型配置格式对应的第一序号, 并将确定的第一序号作为类型信 息。 Manner 2: The network side device determines, according to the correspondence between the type configuration format and the first sequence number, the first sequence number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain length of time, and uses the determined first sequence number as Type information.
类型配置格式和第一序号的对应关系可以参见表 3。 For the correspondence between the type configuration format and the first serial number, see Table 3.
类型配置格式和第一序号的对应关系可以预先在协议中规定, 也可以由高层通知。 根 据需要还可以对配置格式和序号的对应关系进行更新。 The correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer. The correspondence between the configuration format and the serial number can also be updated as needed.
由于不是动态分配时, 网络接口已经交互了上下行配置信息。 因此, 在实施中如果通 知某子帧为固定子帧, 其传输方向与已经通知的上下行配置信息所指示的含义相同; 如果 通知某个子帧为可变子帧, 其传输方向与已经通知的上下行配置信息所指示的含义无关。 Since it is not dynamically allocated, the network interface has already interacted with the uplink and downlink configuration information. Therefore, if a certain subframe is notified as a fixed subframe in the implementation, the transmission direction is the same as that indicated by the already notified uplink and downlink configuration information; if a certain subframe is notified as a variable subframe, the transmission direction is already notified. The meaning indicated by the uplink and downlink configuration information is irrelevant.
较佳的, 网络侧设备还可以将传输方向信息置于通知信息中。 传输方向信息表示每个 子帧是上行传输还是下行传输 Preferably, the network side device can also put the transmission direction information into the notification information. The transmission direction information indicates whether each subframe is uplink transmission or downlink transmission.
具体的, 步骤 501中, 网络侧设备还可以根据本小区配置的无线帧中的子帧, 确定传 输方向信息。 Specifically, in step 501, the network side device may further determine the transmission direction information according to the subframe in the radio frame configured by the cell.
网络侧设备确定传输方向信息的方式有很多种, 下面列举几种。 There are many ways in which the network side device determines the transmission direction information, and several are listed below.
方式一、网络侧设备设置一定时间长度中固定子帧在传输方向 bitmap中对应的比特位 的数值, 以及设置上述时间长度中可变子帧在传输方向 bitmap中对应的比特位的数值, 并 将该传输方向 bitmap作为传输方向信息。 In the first method, the network side device sets the value of the corresponding bit in the transmission direction bitmap of the fixed subframe in a certain length of time, and sets the value of the corresponding bit in the transmission direction bitmap in the time length, and The transmission direction bitmap is used as the transmission direction information.
假设时间长度是 10ms (即一个无线帧长度)。 子帧 2、 子帧 7、 子帧 8和子帧 9的传输 方向是上行。 "1"表示传输方向是上行, "0"表示传输方向是下行, 则如表 4所示, 具体的 传输方向 bitmap是 0010000111。 Assume that the length of time is 10ms (ie a radio frame length). The transmission direction of subframe 2, subframe 7, subframe 8 and subframe 9 is uplink. "1" indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink. As shown in Table 4, the specific transmission direction bitmap is 0010000111.
具体时长可以在协议中规定, 也可以由高层通知。 根据需要还可以对设定的时长进行 更新。 The specific length of time can be specified in the agreement, or it can be notified by the senior management. The set duration can also be updated as needed.
具体传输方向 bitmap表示哪些子帧、每个比特位对应的子帧以及每个比特位数值的含 义可以在协议中规定, 还可以由高层通知。 The specific transmission direction bitmap indicates which subframes, subframes corresponding to each bit, and the meaning of each bit value can be specified in the protocol, and can also be notified by the upper layer.
方式二、 网络侧设备根据传输方向配置格式和第二序号的对应关系, 确定一定时间长
度中的固定子帧和可变子帧的传输方向配置格式对应的第二序号, 并将确定的第二序号作 为传输方向信息。 Manner 2: The network side device determines the correspondence between the format and the second serial number according to the transmission direction, and determines a certain length of time. The transmission direction of the fixed subframe and the variable subframe in the degree configures a second sequence number corresponding to the format, and the determined second sequence number is used as the transmission direction information.
传输方向配置格式和第二序号的对应关系可以参见表 5。 For the correspondence between the transmission direction configuration format and the second serial number, see Table 5.
假设时间长度是 10ms (即一个无线帧长度 ), 子帧 2、 子帧 3、 子帧 4和子帧 7的传输 方向是上行; 子帧 0、 子帧 1、 子帧 5、 子帧 6、 子帧 8和子帧 9的传输方向是下行。 根据 表 5就可以确定第一序号是 3。 Assuming that the length of time is 10 ms (ie, one radio frame length), the transmission direction of subframe 2, subframe 3, subframe 4, and subframe 7 is uplink; subframe 0, subframe 1, subframe 5, subframe 6, and sub-frame The transmission direction of frame 8 and subframe 9 is downlink. According to Table 5, it can be determined that the first serial number is 3.
类型配置格式和第一序号的对应关系可以预先在协议中规定, 也可以由高层通知。 根 据需要还可以对配置格式和序号的对应关系进行更新。 The correspondence between the type configuration format and the first serial number may be specified in the protocol in advance, or may be notified by the upper layer. The correspondence between the configuration format and the serial number can also be updated as needed.
步骤 502中, 网络侧设备可以将传输方向信息和类型信息通过两个不同的通知信息发 送; 也可以将传输方向信息和类型信息都置于同一个通知信息中。 In step 502, the network side device may send the transmission direction information and the type information through two different notification information. The transmission direction information and the type information may also be placed in the same notification information.
如果网络侧设备将传输方向信息和类型信息都置于同一个通知信息中, 则网络侧设备 将传输方向信息和类型信息组合成配置信息, 并将配置信息置于通知信息中。 If the network side device puts both the transmission direction information and the type information in the same notification information, the network side device combines the transmission direction information and the type information into configuration information, and places the configuration information in the notification information.
具体的配置信息可以是类型 bitmap+传输方向 bitmap; 类型 bitmap+第二序号; 第一序 号 +传输方向 bitmap; 第一序号 +第二序号中的一种。 The specific configuration information may be type bitmap+transmission direction bitmap; type bitmap+second sequence number; first sequence number + transmission direction bitmap; first sequence number + one of the second sequence numbers.
具体釆用那种可以在协议中规定; 还可以由高层通知。 The specific use can be specified in the agreement; it can also be notified by the senior management.
如果配置信息可以是类型 bitmap+传输方向 bitmap, 可以前半部分是类型 bitmap, 后 半部分是传输方向 bitmap; 也可以前半部分是传输方向 bitmap, 后半部分是类型 bitmap; 还可以将类型 bitmap和传输方向 bitmap混合在一起。 If the configuration information can be type bitmap+transmission direction bitmap, the first half is the type bitmap, the second half is the transmission direction bitmap; the first half is the transmission direction bitmap, the second half is the type bitmap; the type bitmap and the transmission direction can also be used. The bitmap is mixed together.
如果是将类型 bitmap和传输方向 bitmap混合在一起, 可以直接将每个子帧的类型信 息与传输方向信息用多于一个 bit信息通知给邻小区。 If the type bitmap and the transmission direction bitmap are mixed together, the type information and the transmission direction information of each subframe can be directly notified to the neighboring cell by using more than one bit information.
假设时间长度是 10ms (即一个无线帧长度 ), 子帧 0、 子帧 1、 子帧 2、 子帧 5、 子帧 6和子帧 7是固定子帧, 子帧 3、 子帧 4、 子帧 8和子帧 9是可变子帧 "1 "表示固定子 帧, "0"表示可变子帧; 子帧 2、 子帧 7、 子帧 8和子帧 9传输方向是上行, 子帧 0、 子帧 1、 子帧 3、 子帧 4、 子帧 5和子帧 6传输方向是下行, 1 "表示传输方向是上行, "0"表示传输 方向是下行, 则如表 6所示。 具体的配置信息是 00000110100000011111。 Assuming that the length of time is 10 ms (ie, one radio frame length), subframe 0, subframe 1, subframe 2, subframe 5, subframe 6 and subframe 7 are fixed subframes, subframe 3, subframe 4, subframe 8 and subframe 9 are variable subframes "1" indicating fixed subframes, "0" indicating variable subframes; subframe 2, subframe 7, subframe 8 and subframe 9 are transmitting in the uplink direction, subframe 0, sub-frames The transmission direction of frame 1, subframe 3, subframe 4, subframe 5, and subframe 6 is downlink, 1 " indicates that the transmission direction is uplink, and "0" indicates that the transmission direction is downlink, as shown in Table 6. Specific configuration information Is 00000110100000011111.
其中, 根据需要网络侧设备还可以将下列信息中的一种或多种置于通知信息中: 本小区的小区标识、 本小区的 PLMN标识和邻小区的小区标识。 The network side device may also put one or more of the following information into the notification information according to the requirement: the cell identifier of the current cell, the PLMN identifier of the current cell, and the cell identifier of the neighboring cell.
步骤 502中, 网络侧设备可以通过直接通信接口或间接通信接口将通知消息发送给邻 小区。 In step 502, the network side device may send the notification message to the neighboring cell through the direct communication interface or the indirect communication interface.
如图 6所示, 本发明实施例配置子帧的方法包括下列步骤: As shown in FIG. 6, the method for configuring a subframe in the embodiment of the present invention includes the following steps:
步骤 601、 网络侧设备根据收到的包含类型信息的通知信息, 确定本小区无线帧中的 每个子帧的类型, 其中类型信息是邻小区才 居配置的无线帧中的子帧确定的, 无线帧包括 可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固定不
变的子帧。 Step 601: The network side device determines, according to the received notification information that includes the type information, the type of each subframe in the radio frame of the local cell, where the type information is determined by the subframe in the radio frame configured by the neighboring cell, and the wireless The frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is fixed in the transmission direction. Variable sub-frame.
步骤 602、 网络侧设备对本小区无线帧中的子帧进行配置。 Step 602: The network side device configures a subframe in a radio frame of the local cell.
步骤 602中, 网络侧设备判断是否能够检测本小区与发送通知信息的邻小区之间的千 扰强度。 In step 602, the network side device determines whether the interference strength between the local cell and the neighboring cell that sends the notification information can be detected.
这里的千扰强度包括但不限于下列值中的一种: The intensity of the disturbance here includes but is not limited to one of the following values:
RSRP值、 RIP值、 CQI值和 RSRQ值。 RSRP value, RIP value, CQI value, and RSRQ value.
在确定不能够检测本小区与发送通知信息的邻小区之间的千扰强度时, 如果需要配置 的子帧在邻小区是可变子帧, 则网络侧设备不使用该子帧或降低该子帧的使用优先级。 If it is determined that the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected, if the subframe to be configured is a variable subframe in the neighboring cell, the network side device does not use the subframe or lower the subframe. The priority of the use of the frame.
具体的,网络侧设备可以将不使用的子帧配制成 MBSFN子帧或 ABS或上行子帧但不 进行上行调度。 Specifically, the network side device may configure the unused subframe as an MBSFN subframe or an ABS or an uplink subframe but does not perform uplink scheduling.
如果通知信息包括传输方向信息, 并且确定不能够检测本' j、区与发送通知信息的邻 'J、 区之间的千扰强度, 如果需要配置的子帧在邻小区是可变子帧时, 网络侧设备可以配置的 子帧类型和传输方向与邻小区中同一子帧标识的子帧类型和传输方向相同。 If the notification information includes the transmission direction information, and it is determined that the interference strength between the 'j, the area and the neighboring node J of the transmission notification information cannot be detected, if the subframe to be configured is a variable subframe when the neighboring cell is a variable subframe The subframe type and the transmission direction that can be configured by the network side device are the same as the subframe type and the transmission direction of the same subframe identifier in the neighboring cell.
在确定不能够检测本小区与发送通知信息的邻小区之间的千扰强度, 如果需要配置的 子帧在邻小区是固定子帧, 网络侧设备可以配置的子帧类型和传输方向与邻小区中同一子 帧标识的子帧类型和传输方向相同。 After determining that the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected, if the subframe to be configured is a fixed subframe in the neighboring cell, the subframe type and the transmission direction and the neighboring cell that the network side device can configure The subframe type identified by the same subframe is the same as the transmission direction.
由于固定子帧的传输方向可以根据预先设定的信息或上下行配置信息确定, 所以通知 信息中如果没有包括传输方向信息, 也可以知道固定子帧的传输方向。 当然, 如果通知信 息中包括传输方向信息, 则以通知信息中的传输方向信息为准。 Since the transmission direction of the fixed subframe can be determined according to preset information or uplink and downlink configuration information, if the transmission direction information is not included in the notification information, the transmission direction of the fixed subframe can also be known. Of course, if the transmission direction information is included in the notification information, the transmission direction information in the notification information is taken as the standard.
其中, 如果网络侧设备确定能够检测本小区与发送通知信息的邻小区之间的千扰强 度, 则进一步将千扰强度与阈值进行比较。 具体阈值的设定可以根据经验值或仿真结果在 协议中规定或由高层通知。 不同的千扰强度对应不同的阈值。 If the network side device determines that the interference strength between the local cell and the neighboring cell that sends the notification information can be detected, the interference intensity is further compared with the threshold. The specific threshold setting can be specified in the agreement or notified by the upper layer based on the empirical value or simulation result. Different interference strengths correspond to different thresholds.
如果千扰强度不小于阈值, 并且需要配置的子帧在邻小区是可变子帧时, 网络侧设备 不使用该子帧或降低该子帧的使用优先级。 不使用子帧的具体方式与上述不使用子帧的方 式相同, 在此不再赘述。 If the interference strength is not less than the threshold, and the subframe to be configured is a variable subframe in the neighboring cell, the network side device does not use the subframe or lowers the usage priority of the subframe. The specific manner of not using the subframe is the same as the method of not using the subframe described above, and details are not described herein again.
如果千扰强度不小于阈值, 不管是可变子帧还是固定子帧, 网络侧设备都可以根据默 认配置信息对本小区无线帧中的子帧进行配置, 或根据网络侧下发的统一配置信息对本小 区无线帧中的子帧进行配置 , 或在通知信息中还包括传输方向信息时, 根据收到的通知信 息对本小区无线帧中的子帧进行配置。 If the interference strength is not less than the threshold, whether it is a variable subframe or a fixed subframe, the network side device may configure the subframe in the radio frame of the local cell according to the default configuration information, or according to the unified configuration information sent by the network side. The subframe in the cell radio frame is configured, or when the notification direction further includes the transmission direction information, the subframe in the radio frame of the local cell is configured according to the received notification information.
如果千扰强度小于阈值, 不管是可变子帧还是固定子帧, 网络侧设备自主对本小区无 线帧中的子帧进行配置。 If the interference strength is less than the threshold, whether it is a variable subframe or a fixed subframe, the network side device autonomously configures the subframe in the wireless frame of the cell.
在自主配置时, 网络侧设备可以考虑业务需求、信道负荷、终端数量等情况中的一种, 也可以考虑多种, 然后才 居具体情况对本小区无线帧中的子帧进行配置。
其中, 图 5和图 6可以合成一个流程, 形成一个新的配置子帧的方法, 即先执行步骤 501和步骤 502, 再执行步骤 601和步骤 602。 In autonomous configuration, the network side device may consider one of the service requirements, the channel load, the number of terminals, and the like, and may also consider multiple types, and then configure the subframes in the radio frame of the local cell in a specific case. 5 and FIG. 6 can synthesize a process to form a new method for configuring a subframe, that is, step 501 and step 502 are performed first, and then step 601 and step 602 are performed.
本领域内的技术人员应明白, 本发明的实施例可提供为方法、 系统、 或计算机程序产 品。 因此, 本发明可釆用完全硬件实施例、 完全软件实施例、 或结合软件和硬件方面的实 施例的形式。 而且, 本发明可釆用在一个或多个其中包含有计算机可用程序代码的计算机 可用存储介盾 (包括但不限于磁盘存储器、 CD-ROM、 光学存储器等)上实施的计算机程 序产品的形式。 Those skilled in the art will appreciate that embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or a combination of software and hardware. Moreover, the present invention can be embodied in the form of a computer program product embodied on one or more computer-usable storage interfaces (including but not limited to disk storage, CD-ROM, optical storage, etc.) containing computer usable program code.
本发明是参照根据本发明实施例的方法、 设备(系统)、 和计算机程序产品的流程图 和 /或方框图来描述的。 应理解可由计算机程序指令实现流程图和 /或方框图中的每一流 程和 /或方框、 以及流程图和 /或方框图中的流程和 /或方框的结合。 可提供这些计算机 程序指令到通用计算机、 专用计算机、 嵌入式处理机或其他可编程数据处理设备的处理器 以产生一个机器, 使得通过计算机或其他可编程数据处理设备的处理器执行的指令产生用 于实现在流程图一个流程或多个流程和 /或方框图一个方框或多个方框中指定的功能的 装置。 The present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (system), and computer program products according to embodiments of the invention. It will be understood that each process and/or block of the flowchart illustrations and/or FIG. These computer program instructions can be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing device to produce a machine for the execution of instructions for execution by a processor of a computer or other programmable data processing device. Means for implementing the functions specified in one or more of the flow or in a block or blocks of the flow chart.
这些计算机程序指令也可存储在能引导计算机或其他可编程数据处理设备以特定方 式工作的计算机可读存储器中, 使得存储在该计算机可读存储器中的指令产生包括指令装 置的制造品, 该指令装置实现在流程图一个流程或多个流程和 /或方框图一个方框或多个 方框中指定的功能。 The computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device. The apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
这些计算机程序指令也可装载到计算机或其他可编程数据处理设备上, 使得在计算机 或其他可编程设备上执行一系列操作步骤以产生计算机实现的处理, 从而在计算机或其他 可编程设备上执行的指令提供用于实现在流程图一个流程或多个流程和 /或方框图一个 方框或多个方框中指定的功能的步骤。 These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device. The instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.
尽管已描述了本发明的优选实施例, 但本领域内的技术人员一旦得知了基本创造性概 念, 则可对这些实施例作出另外的变更和修改。 所以, 所附权利要求意欲解释为包括优选 实施例以及落入本发明范围的所有变更和修改。 Although the preferred embodiment of the invention has been described, it will be apparent to those of ordinary skill in the art that <RTIgt; Therefore, the appended claims are intended to be construed as including the preferred embodiments and the modifications
显然, 本领域的技术人员可以对本发明实施例进行各种改动和变型而不脱离本发明实 施例的精神和范围。 这样, 倘若本发明实施例的这些修改和变型属于本发明权利要求及其 等同技术的范围之内, 则本发明也意图包含这些改动和变型在内。
It is apparent that those skilled in the art can make various modifications and variations to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, it is intended that the present invention cover the modifications and modifications of the inventions
Claims
1、 一种传输信息的方法, 其特征在于, 该方法包括: A method for transmitting information, characterized in that the method comprises:
网络侧设备 #居本小区配置的无线帧中的子帧, 确定类型信息, 其中所述无线帧包 括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固 定不变的子帧; The network side device is configured to determine the type information in the subframe in the radio frame configured by the local cell, where the radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction. A fixed subframe is a subframe in which a transmission direction is fixed;
所述网络侧设备将含有类型信息的通知信息发送给邻小区。 The network side device sends the notification information including the type information to the neighboring cell.
2、 如权利要求 1所述的方法, 其特征在于, 所述网络侧设备确定类型信息包括: 所述网络侧设备设置一定时间长度中固定子帧在类型比特位图 bitmap 中对应的比特 位的数值, 以及设置所述时间长度中可变子帧在所述类型 bitmap 中对应的比特位的数 值, 并将所述类型 bitmap作为类型信息; 或 2. The method according to claim 1, wherein the determining, by the network side device, the type information comprises: the network side device setting a corresponding bit of the fixed subframe in the type bit bitmap bitmap in a certain length of time a value, and setting a value of a corresponding bit of the variable subframe in the type of bitmap in the time length, and using the type bitmap as type information; or
所述网络侧设备根据类型配置格式和第一序号的对应关系, 确定一定时间长度中的 固定子帧和可变子帧的类型配置格式对应的第一序号, 并将确定的第一序号作为类型信 息。 The network side device determines, according to the correspondence between the type configuration format and the first serial number, the first serial number corresponding to the type configuration format of the fixed subframe and the variable subframe in a certain length of time, and uses the determined first serial number as the type. information.
3、 如权利要求 1所述的方法, 其特征在于, 所述通知信息还包括传输方向信息; 所述网络侧设备发送通知信息之前还包括: The method of claim 1, wherein the notification information further includes transmission direction information, and the network side device further includes:
所述网络侧设备根据本小区配置的无线帧中的子帧, 确定传输方向信息。 The network side device determines the transmission direction information according to the subframe in the radio frame configured by the cell.
4、 如权利要求 3 所述的方法, 其特征在于, 所述网络侧设备确定传输方向信息包 括: The method according to claim 3, wherein the determining, by the network side device, the transmission direction information includes:
所述网络侧设备设置一定时间长度中固定子帧在传输方向 bitmap 中对应的比特位的 数值, 以及设置所述时间长度中可变子帧在所述传输方向 bitmap 中对应的比特位的数 值, 并将所述传输方向 bitmap作为传输方向信息; 或 The network side device sets a value of a bit corresponding to a fixed subframe in a transmission direction bitmap in a certain length of time, and sets a value of a bit corresponding to the variable subframe in the transmission direction bitmap in the time length, And using the transmission direction bitmap as the transmission direction information; or
所述网络侧设备根据传输方向配置格式和第二序号的对应关系, 确定一定时间长度 中的固定子帧和可变子帧的传输方向配置格式对应的第二序号, 并将确定的第二序号作 为传输方向信息。 Determining, by the network side device, a second sequence number corresponding to a transmission direction configuration format of the fixed subframe and the variable subframe in a certain length of time according to the correspondence between the configuration of the transmission direction and the second sequence number, and determining the second sequence number As the transmission direction information.
5、 如权利要求 3 所述的方法, 其特征在于, 所述网络侧设备确定传输方向信息之 后, 发送通知信息之前还包括: The method according to claim 3, wherein after the network side device determines the transmission direction information, before the sending the notification information, the method further includes:
所述网络侧设备将所述传输方向信息和所述类型信息组合成配置信息, 并将配置信 息置于所述通知信息中。 The network side device combines the transmission direction information and the type information into configuration information, and places configuration information in the notification information.
6、 如权利要求 1 所述的方法, 其特征在于, 所述通知信息还包括下列信息中的一种 或多种: 6. The method according to claim 1, wherein the notification information further comprises one or more of the following information:
本小区的小区标识、 本小区的公共陆地移动网 PLMN标识和邻小区的小区标识。 The cell identifier of the current cell, the PLMN identity of the public land mobile network of the current cell, and the cell identity of the neighboring cell.
7、 如权利要求 1 ~ 6任一所述的方法, 其特征在于, 所述网络侧设备发送所述通知信 息包括: 所述网络侧设备通过直接或间接通信接口将所述通知消息发送给邻小区。 The method according to any one of claims 1 to 6, wherein the sending, by the network side device, the notification information comprises: The network side device sends the notification message to the neighboring cell through a direct or indirect communication interface.
8、 如权利要求 1 ~ 6任一所述的方法, 其特征在于, 所述邻小区是同频邻小区或异频 邻小区; The method according to any one of claims 1 to 6, wherein the neighboring cell is an intra-frequency neighboring cell or an inter-frequency neighboring cell;
所述邻小区是与所述本小区处于同一个 TDD 网络的邻小区或不同 TDD 网络的邻小 区。 The neighboring cell is a neighboring cell of the same TDD network or a neighboring cell of a different TDD network.
9、 一种传输信息的设备, 其特征在于, 该设备包括: 9. A device for transmitting information, characterized in that the device comprises:
信息确定模块, 用于根据本小区配置的无线帧中的子帧, 确定类型信息, 其中所述 无线帧包括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传 输方向固定不变的子帧; An information determining module, configured to determine type information according to a subframe in a radio frame configured by the cell, where the radio frame includes a variable subframe and/or a fixed subframe, where the variable subframe is a variable transmission direction A fixed subframe is a subframe in which the transmission direction is fixed;
发送模块, 用于将含有类型信息的通知信息发送给邻小区。 The sending module is configured to send the notification information including the type information to the neighboring cell.
10、 如权利要求 9所述的设备, 其特征在于, 所述信息确定模块具体用于: 设置一定时间长度中固定子帧在类型比特位图 bitmap 中对应的比特位的数值, 以及 设置所述时间长度中可变子帧在所述类型 bitmap 中对应的比特位的数值, 并将所述类型 bitmap作为类型信息; 或根据类型配置格式和第一序号的对应关系, 确定一定时间长度中 的固定子帧和可变子帧的类型配置格式对应的第一序号, 并将确定的第一序号作为类型 信息。 The device according to claim 9, wherein the information determining module is specifically configured to: set a value of a corresponding bit of a fixed subframe in a type bit bitmap in a certain length of time, and set the The value of the corresponding bit in the type of bitmap in the time length of the variable subframe, and the type bitmap is used as the type information; or the fixed relationship in a certain length of time according to the correspondence between the type configuration format and the first serial number The type of the subframe and the variable subframe is configured with a first sequence number corresponding to the format, and the determined first sequence number is used as the type information.
11、 如权利要求 9所述的设备, 其特征在于, 所述通知信息还包括传输方向信息; 所述信息确定模块还用于: The device according to claim 9, wherein the notification information further includes transmission direction information; the information determining module is further configured to:
根据本小区配置的无线帧中的子帧, 确定传输方向信息。 The transmission direction information is determined according to the subframe in the radio frame configured by the cell.
12、 如权利要求 11所述的设备, 其特征在于, 所述信息确定模块具体用于: 设置一定时间长度中固定子帧在传输方向 bitmap 中对应的比特位的数值, 以及设置 所述时间长度中可变子帧在所述传输方向 bitmap 中对应的比特位的数值, 并将所述传输 方向 bitmap作为传输方向信息; 或根据传输方向配置格式和第二序号的对应关系, 确定 一定时间长度中的固定子帧和可变子帧的传输方向配置格式对应的第二序号, 并将确定 的第二序号作为传输方向信息。 The device according to claim 11, wherein the information determining module is specifically configured to: set a value of a corresponding bit of the fixed subframe in the transmission direction bitmap in a certain length of time, and set the length of time a value of a corresponding bit in the transmission direction bitmap, and the transmission direction bitmap is used as transmission direction information; or according to a correspondence between a transmission direction configuration format and a second serial number, determining a certain length of time The transmission direction of the fixed subframe and the variable subframe is configured by a second sequence number corresponding to the format, and the determined second sequence number is used as the transmission direction information.
13、 如权利要求 11所述的设备, 其特征在于, 所述信息确定模块还用于: 将所述传输方向信息和所述类型信息组合成配置信息, 并将配置信息置于所述通知 信息中。 The device according to claim 11, wherein the information determining module is further configured to: combine the transmission direction information and the type information into configuration information, and place the configuration information in the notification information. in.
14、 如权利要求 9 ~ 13任一所述的设备, 其特征在于, 所述发送模块具体用于: 通过直接或间接通信接口将所述通知消息发送给邻小区。 The device according to any one of claims 9 to 13, wherein the sending module is specifically configured to: send the notification message to a neighboring cell by using a direct or indirect communication interface.
15、 一种配置子帧的方法, 其特征在于, 该方法包括: A method for configuring a subframe, the method comprising:
网络侧设备根据收到的包含类型信息的通知信息, 确定本小区无线帧中的每个子帧 的类型, 其中所述类型信息是邻小区根据配置的无线帧中的子帧确定的, 所述无线帧包 括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方向固 定不变的子帧; The network side device determines, according to the received notification information that includes the type information, the type of each subframe in the radio frame of the local cell, where the type information is determined by the neighboring cell according to the subframe in the configured radio frame, where the wireless Frame package Including variable subframes and/or fixed subframes, the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction;
所述网络侧设备对本小区无线帧中的子帧进行配置。 The network side device configures a subframe in a radio frame of the local cell.
16、 如权利要求 15 所述的方法, 其特征在于, 所述网络侧设备对本小区无线帧中的 子帧进行配置包括: The method according to claim 15, wherein the configuring, by the network side device, the subframe in the radio frame of the local cell includes:
所述网络侧设备在不能检测本小区与发送通知信息的邻小区之间的千扰强度或能够 检测本小区与发送通知信息的邻小区之间的千扰强度, 且千扰强度不小于阈值时, 如果 需要配置的子帧在邻小区是可变子帧, 不使用该子帧或降低该子帧的使用优先级。 The network side device cannot detect the interference strength between the local cell and the neighboring cell that sends the notification information, or can detect the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength is not less than the threshold. If the subframe to be configured is a variable subframe in the neighboring cell, the subframe is not used or the usage priority of the subframe is lowered.
17、 如权利要求 16 所述的方法, 其特征在于, 所述网络侧设备将不使用的子帧配制 成多播广播单频网络 MBSFN子帧或空白子帧 ABS或上行子帧但不进行上行调度。 The method according to claim 16, wherein the network side device configures the unused subframe into a multicast broadcast single frequency network MBSFN subframe or a blank subframe ABS or an uplink subframe but does not perform uplink. Scheduling.
18、 如权利要求 15所述的方法, 其特征在于, 所述通知信息还包括传输方向信息; 所述网络侧设备对本小区无线帧中的子帧进行配置包括: The method according to claim 15, wherein the notification information further includes transmission direction information, and the configuring, by the network side device, the subframe in the radio frame of the local cell includes:
所述网络侧设备在不能检测本小区与发送通知信息的邻小区之间的千扰强度时, 配 置的子帧类型和传输方向与邻小区中同一子帧标识的子帧类型和传输方向相同。 When the network side device cannot detect the interference strength between the local cell and the neighboring cell that sends the notification information, the configured subframe type and the transmission direction are the same as the subframe type and the transmission direction of the same subframe identifier in the neighboring cell.
19、 如权利要求 15 ~ 18任一所述的方法, 其特征在于, 所述网络侧设备对本小区无 线帧中的子帧进行配置包括: The method according to any one of claims 15 to 18, wherein the configuring, by the network side device, the subframe in the wireless frame of the local cell includes:
所述网络侧设备在能够检测本小区与发送通知信息的邻小区之间的千扰强度, 且千 扰强度小区阈值时, 自主对本小区无线帧中的子帧进行配置; The network side device autonomously configures a subframe in a radio frame of the local cell when detecting the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength cell threshold;
所述网络侧设备在能够检测本小区与发送通知信息的邻小区之间的千扰强度, 且千 扰强度不小区阈值时, 根据默认配置信息对本小区无线帧中的子帧进行配置, 或根据网 络侧下发的统一配置信息对本小区无线帧中的子帧进行配置, 或在通知信息中还包括传 输方向信息时, 根据收到的通知信息对本小区无线帧中的子帧进行配置。 When the network side device can detect the interference strength between the local cell and the neighboring cell that sends the notification information, and the interference strength is not the cell threshold, configure the subframe in the radio frame of the local cell according to the default configuration information, or according to the default configuration information. The unified configuration information delivered by the network side configures the subframe in the radio frame of the local cell, or when the notification information further includes the transmission direction information, configures the subframe in the radio frame of the local cell according to the received notification information.
20、 一种配置子帧的设备, 其特征在于, 该设备包括: 20. A device for configuring a subframe, the device comprising:
处理模块, 用于根据收到的包含类型信息的通知信息, 确定本小区无线帧中的每个 子帧的类型, 其中所述类型信息是邻小区根据配置的无线帧中的子帧确定的, 所述无线 帧包括可变子帧和 /或固定子帧, 可变子帧是传输方向可变的子帧, 固定子帧是传输方 向固定不变的子帧; a processing module, configured to determine, according to the received notification information that includes the type information, a type of each subframe in the radio frame of the local cell, where the type information is determined by the neighboring cell according to the subframe in the configured radio frame, where The radio frame includes a variable subframe and/or a fixed subframe, and the variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction;
配置模块, 用于对本小区无线帧中的子帧进行配置。 The configuration module is configured to configure a subframe in a radio frame of the local cell.
21、 如权利要求 20所述的设备, 其特征在于, 所述配置模块具体用于: The device according to claim 20, wherein the configuration module is specifically configured to:
在不能检测本小区与发送通知信息的邻小区之间的千扰强度或能够检测本小区与发 送通知信息的邻小区之间的千扰强度, 且千扰强度不小于阈值时, 如果需要配置的子帧 在邻小区是可变子帧, 不使用该子帧或降低该子帧的使用优先级。 If the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected or the interference strength between the local cell and the neighboring cell that sends the notification information can be detected, and the interference strength is not less than the threshold, if configuration is required A subframe is a variable subframe in a neighboring cell, and the subframe is not used or the use priority of the subframe is lowered.
22、 如权利要求 21所述的设备, 其特征在于, 所述配置模块具体用于: 将不使用的子帧配制成 MBSFN子帧或 ABS子帧或上行子帧但不进行上行调度。The device according to claim 21, wherein the configuration module is specifically configured to: The unused subframes are configured as MBSFN subframes or ABS subframes or uplink subframes without uplink scheduling.
23、 如权利要求 20所述的设备, 其特征在于, 所述通知信息还包括传输方向信息; 所述配置模块具体用于: The device according to claim 20, wherein the notification information further includes transmission direction information; and the configuration module is specifically configured to:
在不能检测本小区与发送通知信息的邻小区之间的千扰强度时, 配置的子帧类型和 传输方向与邻小区中同一子帧标识的子帧类型和传输方向相同。 When the interference strength between the local cell and the neighboring cell that sends the notification information cannot be detected, the configured subframe type and the transmission direction are the same as the subframe type and the transmission direction of the same subframe identifier in the neighboring cell.
24、 如权利要求 20 - 23任一所述的设备, 其特征在于, 所述配置模块具体用于: 在能够检测本小区与发送通知信息的邻小区之间的千扰强度, 且千扰强度小区阈值 时, 自主对本小区无线帧中的子帧进行配置; 在能够检测本小区与发送通知信息的邻小 区之间的千扰强度, 且千扰强度不小区阈值时, 根据默认配置信息对本小区无线帧中的 子帧进行配置, 或根据网络侧下发的统一配置信息对本小区无线帧中的子帧进行配置, 或在通知信息中还包括传输方向信息时, 根据收到的通知信息对本小区无线帧中的子帧 进行配置。 The device according to any one of claims 20 to 23, wherein the configuration module is specifically configured to: detect interference intensity between the local cell and the neighboring cell that sends the notification information, and the interference strength When the cell threshold is used, the subframe in the radio frame of the local cell is configured autonomously; when the interference strength between the local cell and the neighboring cell that sends the notification information can be detected, and the interference strength is not the cell threshold, the cell is configured according to the default configuration information. The subframe in the radio frame is configured, or the subframe in the radio frame of the local cell is configured according to the unified configuration information sent by the network side, or when the notification direction further includes the transmission direction information, according to the received notification information, the local cell is configured. The subframes in the radio frame are configured.
25、 一种配置子帧的系统, 其特征在于, 该系统包括: 25. A system for configuring a subframe, the system comprising:
网络侧设备, 用于根据本小区配置的无线帧中的子帧, 确定类型信息, 将含有类型 信息的通知信息发送给邻小区, 其中所述无线帧包括可变子帧和 /或固定子帧, 可变子 帧是传输方向可变的子帧, 固定子帧是传输方向固定不变的子帧; a network side device, configured to determine, according to a subframe in a radio frame configured by the cell, type information, and send the notification information that includes the type information to the neighboring cell, where the radio frame includes a variable subframe and/or a fixed subframe. The variable subframe is a subframe with a variable transmission direction, and the fixed subframe is a subframe with a fixed transmission direction;
收到所述通知信息的网络侧设备 , 用于根据收到的包含类型信息的通知信息, 确定 本小区无线帧中的每个子帧的类型, 对本小区无线帧中的子帧进行配置。 The network side device that receives the notification information is configured to determine, according to the received notification information including the type information, the type of each subframe in the radio frame of the local cell, and configure the subframe in the radio frame of the local cell.
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