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CN105450358A - Indication method and indication device of the quantity of MAC (Medium Access Control) PDU (Protocol Data Unit) - Google Patents

Indication method and indication device of the quantity of MAC (Medium Access Control) PDU (Protocol Data Unit) Download PDF

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Publication number
CN105450358A
CN105450358A CN201410498692.7A CN201410498692A CN105450358A CN 105450358 A CN105450358 A CN 105450358A CN 201410498692 A CN201410498692 A CN 201410498692A CN 105450358 A CN105450358 A CN 105450358A
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China
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reference value
network side
side entity
macpdu
indicates
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CN201410498692.7A
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Chinese (zh)
Inventor
杨瑾
李儒岳
吴栓栓
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ZTE Corp
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ZTE Corp
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Priority to CN201410498692.7A priority Critical patent/CN105450358A/en
Priority to PCT/CN2015/080812 priority patent/WO2016045410A1/en
Publication of CN105450358A publication Critical patent/CN105450358A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The present invention provides an indication method and indication device of the quantity of a MAC (Medium Access Control) PDU (Protocol Data Unit). The indication method provided by the invention comprises: indicating the quantity of the MAC PDU transmitted in turn on PSSCH (Physical Side link Shared Channel) subframes in a D2D (Device-to-Device) resource period in a SCI (Sidelink Control Information), wherein the quantity Q is indicated by at least one following methods: a network side entity is configured to indicate the quantity Q through a high signaling and/or a physical layer signaling; determining and indicating the quantity Q through UE (User Equipment) at a sending end; indicating the quantity Q of the MAC PDU or the reference value Q0 of the quantity Q of the MAC PDU by the network side entity through the high signaling and/or the physical layer signaling, and determining and indicating the quantity Q of the MAC PDU by the UE at the sending end, wherein Q <=Q0. According to the invention, the problem is solved that the D2D data transmission flexibility is low in the prior art, and the D2D data transmission flexibility and the resource utilization are improved.

Description

The indicating means of MAC PDU quantity and device
Technical field
The present invention relates to the communications field, in particular to a kind of indicating means and device of MACPDU quantity.
Background technology
At device-to-device (Device-to-Device, referred to as D2D) in communication system, subscriber equipment (UserEquipment, referred to as UE) between when having service needed to transmit, business datum between UE is without the forwarding of base station, but directly by data source UE by air interface transmission to object UE, as shown in Figure 1, Fig. 1 is the structured flowchart of the D2D communication in correlation technique, this communication pattern has the feature being obviously different from conventional cellular systems communication pattern, for the short-range communication user that can apply D2D communication mode, D2D transmission not only saves radio spectrum resources, and reduce the transfer of data pressure of core net, system resource can be reduced take, increase frequency spectrum efficiency of cellular communication system, reduce terminal transmission power consumption, and save network operation cost to a great extent.
In traditional cellular communication system, the Radio Resource of UE is by evolved base station (evolvedNodeB, referred to as eNB) unified Control and Schedule, eNB is by Physical Downlink Control Channel (PhysicalDownlinkControlChannel, referred to as PDCCH) the downlink or uplink resource that indicates UE to configure, UE receives the data-signal of eNB transmitting according to the configuration instruction of eNB on corresponding downlink resource, or transmits to eNB on ascending resource.
In Long Term Evolution (Long-TermEvolution, referred to as LTE) system, Radio Resource divides resource in time domain in units of radio frames, and each radio frames is 10ms, comprises 10 subframes.Each subframe is 1ms, is divided into 2 slot of 0.5ms, and as shown in Figure 2, this Fig. 2 is the LTE system frame structure block diagram in correlation technique.
In cellular communications, eNB indicates to UE scheduling the Physical Downlink Shared Channel (PhysicalDownlinkSharedChannel configured at present sub-frame in the PDCCH resource of descending sub frame #n, referred to as PDSCH) resource, UE receives the indication information in PDCCH, and the respective resources block (ResourceBlock be received according to indication information in subframe #n, referred to as RB) on medium education (MediumAccessControl, referred to as MAC) protocol Data Unit (ProtocolDataUnit, referred to as PDU), obtain the data of eNB transmission, as shown in Figure 3, Fig. 3 is the LTE scheduling of resource indicator diagram in correlation technique.And in D2D communication system, between UE, directly carrying out the transmission of data, transmitting terminal UE itself needs to send D2D control information, to relevant informations such as the resources that receiving terminal UE indicates the data-signal transmitted to use.Due to the particularity of D2D communication, transmitting terminal UE is according to the scheduling of eNB, or in effective resource pool, select one or more physics limit link shared channels (PhysicalSidelinkSharedChannel, referred to as PSSCH) resource carries out the transmission of D2D data, and at limit link control message (SidelinkControlInformation, referred to as SCI) indicate used PSSCH resource and relevant control information in signaling, as shown in Figure 4, Fig. 4 is the D2D communication resource scheduling indicator diagram in correlation technique, due to the time-domain resource pattern (TimeResourcePattern of instruction PSSCH resource, referred to as TRP) information indicates corresponding PSSCH subframe with the bitmap bitmap of cyclic mapping, limit the flexibility of D2D transfer of data.
For the problem that the flexibility of the D2D transfer of data existed in correlation technique is low, at present effective solution is not yet proposed.
Summary of the invention
The invention provides a kind of indicating means and device of media access control protocol data unit MACPDU quantity, with the problem that the flexibility at least solving the D2D transfer of data existed in correlation technique is low.
According to an aspect of the present invention, provide a kind of indicating means of media access control protocol data unit MACPDU quantity, comprise: the quantity Q being shown in the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively at limit link control message SCI middle finger, wherein, described quantity Q is indicated by least one in following method: network side entity indicates described quantity Q by high-level signaling and/or physical layer signaling; Transmitting terminal UE determines according to local information and indicates described quantity Q; Network side entity indicates the reference value Q of described MACPDU quantity Q or described MACPDU quantity Q by high-level signaling and/or physical layer signaling 0, and transmitting terminal UE determines and indicates the quantity Q of described MACPDU, wherein, and Q≤Q 0.
Preferably, network side entity indicates described quantity Q or described reference value Q by high-level signaling and/or physical layer signaling 0, comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by described high-level signaling 0comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0, described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0, described quantity Q or described reference value Q 0for unique numeric; Described network side entity indicates described quantity Q or described reference value Q by described physical layer signaling 0comprise: described network side entity indicates described quantity Q or described reference value Q by the nbit indication information in D2D private downlink control information form DCIformat5 0, described quantity Q or described reference value Q 0for unique numeric, described n=1,2,3,4; Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling and described physical layer signaling 0comprise: described network side entity indicates one or more described quantity Q by high-level signaling, or one or more described reference value Q 0, described network side entity indicates unique quantity Q by physical layer signaling in described one or more described quantity Q, or at described one or more described reference value Q 0the unique quantity Q of middle instruction.
Preferably, when described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0time, described quantity Q or described reference value Q 0effective to D2D transmitting terminal UE all in community, or effective to the transmitting terminal UE in the D2D group specified.
Preferably, when described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0time, described RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
Preferably, when described transmitting terminal UE to determine according to local information and indicates described quantity Q, or the described quantity Q value indicated according to network side entity as described transmitting terminal UE or described reference value Q 0when determining and indicate described quantity Q, described transmitting terminal UE one of at least determines according to following and indicates described quantity Q: the number of transmissions of the PSSCH sub-frame number in the described cycle, each described MACPDU, the data volume to be sent of described transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
Preferably, the quantity Q of described MACPDU or described reference value Q 0be less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
Preferably, when indicating described quantity Q in described SCI, indicate described quantity Q with nbit, wherein, described n=1,2,3,4.
Preferably, the described PSSCH subframe in described D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Preferably, network side entity comprises following entity one of at least: evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
According to a further aspect in the invention, provide a kind of indicating device of media access control protocol data unit MACPDU quantity, be applied to network implementation side, comprise: the first indicating module, the quantity Q of the media access control protocol data unit MACPDU transmitted successively in the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period by high-level signaling and/or physical layer signaling instruction, or the reference value Q of described MACPDU quantity 0.
Preferably, described first indicating module one of at least instruction described quantity Q or described reference value Q in the following manner 0: described network side entity indicates described quantity Q or described reference value Q by described high-level signaling 0comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0, described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0, described quantity Q or described reference value Q 0for unique numeric; Described network side entity indicates described quantity Q or described reference value Q by described physical layer signaling 0comprise: described network side entity indicates described quantity Q or described reference value Q by the nbit indication information in D2D private downlink control information form DCIformat5 0, described quantity Q or described reference value Q 0for unique numeric, described n=1,2,3,4; Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling and described physical layer signaling 0comprise: described network side entity indicates one or more described quantity Q by high-level signaling, or one or more described reference value Q 0, described network side entity indicates unique quantity Q by physical layer signaling in described one or more described quantity Q, or at described one or more described reference value Q 0the quantity Q that middle instruction is unique.
Preferably, when described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0time, described quantity Q or described reference value Q 0effective to D2D transmitting terminals all in community, or effective to the transmitting terminal UE in the D2D group specified.
Preferably, when described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0time, described RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
Preferably, described quantity Q or described reference value Q 0be less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
Preferably, the described PSSCH subframe in described D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Preferably, described network side entity comprises following entity one of at least: evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
In accordance with a further aspect of the present invention, provide a kind of indicating device of media access control protocol data unit MACPDU quantity, be applied to transmitting terminal UE side, comprise: the second indicating module, for determining according to local information and indicating the quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively.
Preferably, described second indicating module one of is at least determined according to following and indicates described quantity Q: the number of transmissions of the PSSCH sub-frame number in the described cycle, each described MACPDU, the data volume to be sent of described transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
Preferably, the described quantity Q that described transmitting terminal UE indicates is less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
Preferably, described transmitting terminal UE indicates described quantity Q with nbit in the link control message SCI of limit, wherein, and described n=1,2,3,4.
Preferably, the described PSSCH subframe in described D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
According to another aspect of the invention, provide a kind of indicating device of media access control protocol data unit MACPDU quantity, be applied in system, described system at least comprises transmitting terminal UE and network side entity, wherein, the quantity Q of the media access control protocol data unit MACPDU that described network side entity by high-level signaling and/or physical layer signaling instruction, the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively, or the reference value Q of described MACPDU quantity 0, and, the described quantity Q that described transmitting terminal UE indicates according to described network side or described reference value Q 0, determine and indicate the quantity Q of described MACPDU of transmission, wherein, described Q≤Q 0.
Preferably, described network side entity indicates described quantity Q or described reference value Q by high-level signaling and/or physical layer signaling 0, comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by described high-level signaling 0comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0, described network side entity indicates described quantity Q or described reference value Q0 by radio resource control RRC message, described quantity Q or described reference value Q 0for unique numeric; Described network side entity indicates described quantity Q or described reference value Q by described physical layer signaling 0comprise: described network side entity indicates described quantity Q or described reference value Q by the nbit indication information in D2D private downlink control information form DCIformat5 0, described quantity Q or described reference value Q 0for unique numeric, described n=1,2,3,4; Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling and described physical layer signaling 0comprise: described network side entity indicates one or more described quantity Q by high-level signaling, described network side entity indicates unique quantity Q by physical layer signaling in one or more described quantity Q, or at described one or more described reference value Q 0the quantity Q that middle instruction is unique.
Preferably, when described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0time, described quantity Q or described reference value Q 0effective to D2D transmitting terminals all in community, or effective to the transmitting terminal UE in the D2D group specified.
Preferably, when described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0time, described RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
Preferably, the described quantity Q indicated according to network side entity as described transmitting terminal UE or described reference value Q 0and when determining and indicate described quantity Q, described transmitting terminal UE one of at least determines according to following and indicates described quantity Q: the number of transmissions of the PSSCH sub-frame number in the described cycle, each described MACPDU, the data volume to be sent of described transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
Preferably, described quantity Q or described reference value Q 0be less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
Preferably, described transmitting terminal UE indicates described quantity Q with nbit in the link control message SCI of limit, wherein, and described n=1,2,3,4.
Preferably, the described PSSCH subframe in described D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Preferably, described network side entity comprises following entity one of at least: evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
Pass through the present invention, employing is shown in the quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively at limit link control message SCI middle finger, wherein, described quantity Q is indicated by least one in following method: network side entity indicates described quantity Q by high-level signaling and/or physical layer signaling; Transmitting terminal UE determines according to local information and indicates described quantity Q; Network side entity indicates the reference value Q of described MACPDU quantity Q or described MACPDU quantity Q by high-level signaling and/or physical layer signaling 0, and transmitting terminal UE determines and indicates the quantity Q of described MACPDU, wherein, and Q≤Q 0, solve the problem that the flexibility of the D2D transfer of data existed in correlation technique is low, and then reach the flexibility improving D2D transfer of data, improve the effect of resource utilization.
Accompanying drawing explanation
Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the structured flowchart of the D2D communication in correlation technique;
Fig. 2 is the LTE system frame structure block diagram in correlation technique;
Fig. 3 is the LTE scheduling of resource indicator diagram in correlation technique;
Fig. 4 is the D2D communication resource scheduling indicator diagram in correlation technique;
Fig. 5 is the flow chart of the indicating means of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention;
Fig. 6 is the structured flowchart of the indicating device one of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention;
Fig. 7 is the structured flowchart of the indicating device two of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention;
Fig. 8 is the structured flowchart of the indicating device three of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention;
Fig. 9 indicates MACPDU to transmit the signaling process figure of quantity Q according to the network side of the embodiment of the present invention by SIB information configuration;
Figure 10 indicates MACPDU to transmit the signaling process figure of quantity Q according to the network side of the embodiment of the present invention by RRC information configuration;
Figure 11 is the transfer of data schematic diagram according to the embodiment of the present invention two;
Figure 12 indicates MACPDU to transmit the signaling process figure of quantity Q according to the network side of the embodiment of the present invention by RRC information and D2DDCI signal deployment;
Figure 13 determines according to the transmitting terminal UE of the embodiment of the present invention and indicates MACPDU to transmit the signaling process figure of quantity Q;
Figure 14 is the transfer of data schematic diagram according to the embodiment of the present invention four;
Figure 15 indicates MACPDU quantity reference value Q according to the network side of the embodiment of the present invention by RRC information 0, and transmitting terminal UE determines and indicates MACPDU to transmit the signaling process figure of quantity Q.
Embodiment
Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.
Provide a kind of indicating means of media access control protocol data unit MACPDU quantity in embodiments of the present invention, Fig. 5 is the flow chart of the indicating means of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention, as shown in Figure 5, this flow process comprises the steps:
Step S502, the quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively is shown at limit link control message SCI middle finger, wherein, quantity Q is indicated by least one in following method: network side entity indicates quantity Q by high-level signaling and/or physical layer signaling; Transmitting terminal UE determines according to local information and indicates quantity Q; Network side entity indicates the reference value Q of MACPDU quantity Q or MACPDU quantity Q by high-level signaling and/or physical layer signaling 0, and transmitting terminal UE determines and indicates the quantity Q of MACPDU, wherein, and Q≤Q 0.
Pass through above-mentioned steps, employing is shown in the quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively at limit link control message SCI middle finger, wherein, quantity Q is indicated by least one in following method: network side entity indicates quantity Q by high-level signaling and/or physical layer signaling; Transmitting terminal UE determines according to local information and indicates quantity Q; Network side entity indicates the reference value Q of MACPDU quantity Q or MACPDU quantity Q by high-level signaling and/or physical layer signaling 0, and transmitting terminal UE determines and indicates the quantity Q of MACPDU, wherein, and Q≤Q 0, solve the problem that the flexibility of the D2D transfer of data existed in correlation technique is low, and then reach the flexibility improving D2D transfer of data, improve the effect of resource utilization.
In a preferred embodiment, network side entity is by high-level signaling and/or physical layer signaling instruction quantity Q or reference value Q 0, can comprise following one of at least: network side entity is by high-level signaling instruction quantity Q or reference value Q 0comprise following one of at least: network side entity indicates quantity Q or reference value Q by system information block SIB 0, network side entity by radio resource control RRC message instruction quantity Q or reference value Q 0, quantity Q or reference value Q 0for unique numeric; Network side entity is by physical layer signaling instruction quantity Q or reference value Q 0comprise: network side entity is by the nbit indication information instruction quantity Q or reference value Q in D2D private downlink control information form DCIformat5 0, quantity Q or reference value Q 0for unique numeric, n=1,2,3,4; Network side entity is by high-level signaling and physical layer signaling instruction quantity Q or reference value Q 0comprise: network side entity indicates one or more quantity Q by high-level signaling, or one or more reference value Q 0, network side entity indicates unique quantity Q by physical layer signaling in one or more quantity Q, or at one or more reference value Q 0the unique quantity Q of middle instruction.
In above-mentioned preferred embodiment, when network side entity indicates quantity Q or reference value Q by system information block SIB 0time, quantity Q or reference value Q 0effective to D2D transmitting terminal UE all in community, or effective to the transmitting terminal UE in the D2D group specified.
Wherein, when network side entity is by radio resource control RRC message instruction quantity Q or reference value Q 0time, RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
Wherein, when transmitting terminal UE to determine according to local information and indicates quantity Q, or the quantity Q value indicated according to network side entity as transmitting terminal UE or reference value Q 0when determining and indicate quantity Q, transmitting terminal UE one of at least determines according to following and indicates quantity Q: the PSSCH sub-frame number in the cycle, the number of transmissions of each MACPDU, the data volume to be sent of transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
Wherein, the quantity Q of MACPDU or reference value Q 0be less than or equal to the quantity of the maximum MACPDU that PSSCH subframe in the cycle can carry.
Wherein, in SCI, when indicated number amount Q, indicate quantity Q with nbit above-mentioned, wherein, n=1,2,3,4.
Further, the PSSCH subframe in D2D resource period can comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Wherein, network side entity comprises following entity one of at least: evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
Additionally provide a kind of indicating device of media access control protocol data unit MACPDU quantity in the present embodiment, this device is used for realizing above-described embodiment and preferred implementation, has carried out repeating no more of explanation.As used below, term " module " can realize the software of predetermined function and/or the combination of hardware.Although the device described by following examples preferably realizes with software, hardware, or the realization of the combination of software and hardware also may and conceived.
Fig. 6 is the structured flowchart of the indicating device one of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention, as shown in Figure 6, the indicating device 1 of this MACPDU quantity is applied to network implementation side, comprises the first indicating module 62, is described below to this device.
First indicating module 62, the quantity Q of the media access control protocol data unit MACPDU transmitted successively in the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period by high-level signaling and/or physical layer signaling instruction, or the reference value Q of MACPDU quantity 0.
Wherein, the first indicating module 62 can one of at least instruction quantity Q or reference value Q in the following manner 0: network side entity is by high-level signaling instruction quantity Q or reference value Q 0comprise following one of at least: network side entity indicates quantity Q or reference value Q by system information block SIB 0, network side entity by radio resource control RRC message instruction quantity Q or reference value Q 0, quantity Q or reference value Q 0for unique numeric; Network side entity is by physical layer signaling instruction quantity Q or reference value Q 0comprise: network side entity is by the nbit indication information instruction quantity Q or reference value Q in D2D private downlink control information form DCIformat5 0, quantity Q or reference value Q 0for unique numeric, n=1,2,3,4; Network side entity is by high-level signaling and physical layer signaling instruction quantity Q or reference value Q 0comprise: network side entity indicates one or more quantity Q by high-level signaling, or one or more reference value Q 0, network side entity indicates unique quantity Q by physical layer signaling in one or more quantity Q, or at one or more reference value Q 0the quantity Q that middle instruction is unique.
Wherein, when network side entity indicates quantity Q or reference value Q by system information block SIB 0time, quantity Q or reference value Q 0effective to D2D transmitting terminals all in community, or effective to the transmitting terminal UE in the D2D group specified.
Wherein, when network side entity is by radio resource control RRC message instruction quantity Q or reference value Q 0time, RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
Wherein, quantity Q or reference value Q 0be less than or equal to the quantity of the maximum MACPDU that PSSCH subframe in the cycle can carry.
Wherein, the PSSCH subframe in D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Wherein, network side entity comprises following entity one of at least: evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
Fig. 7 is the structured flowchart of the indicating device two of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention, as shown in Figure 7, the indicating device 2 70 of this MACPDU quantity is applied to transmitting terminal UE side, comprises the second indicating module 72, is described below to this device.
Second indicating module 72, for determining according to local information and indicating the quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively.
Wherein, the second indicating module 72 one of at least can be determined and indicate quantity Q according to following: the PSSCH sub-frame number in the cycle, the number of transmissions of each MACPDU, the data volume to be sent of transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
Wherein, the quantity Q that transmitting terminal UE indicates is less than or equal to the quantity of the maximum MACPDU that PSSCH subframe in the cycle can carry.
Wherein, transmitting terminal UE indicates quantity Q with nbit in the link control message SCI of limit, wherein, and n=1,2,3,4.
Wherein, the PSSCH subframe in D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Fig. 8 is the structured flowchart of the indicating device three of media access control protocol data unit MACPDU quantity according to the embodiment of the present invention, as shown in Figure 8, the indicating device 3 80 of this MACPDU quantity is applied in system, at least comprise transmitting terminal UE82 and network side entity 84, below this device is described.
The quantity Q of the media access control protocol data unit MACPDU that network side entity 84 by high-level signaling and/or physical layer signaling instruction, the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively, or the reference value Q of MACPDU quantity 0, and, the quantity Q that transmitting terminal UE82 indicates according to network side or reference value Q 0, determine and indicate the quantity Q of MACPDU of transmission, wherein, Q≤Q 0.
Wherein, network side entity is by high-level signaling and/or physical layer signaling instruction quantity Q or reference value Q 0, comprise following one of at least: network side entity is by high-level signaling instruction quantity Q or reference value Q 0comprise following one of at least: network side entity indicates quantity Q or reference value Q by system information block SIB 0, network side entity by radio resource control RRC message instruction quantity Q or reference value Q 0, quantity Q or reference value Q 0for unique numeric; Network side entity is by physical layer signaling instruction quantity Q or reference value Q 0comprise: network side entity is by the nbit indication information instruction quantity Q or reference value Q in D2D private downlink control information form DCIformat5 0, quantity Q or reference value Q 0for unique numeric, n=1,2,3,4; Network side entity is by high-level signaling and physical layer signaling instruction quantity Q or reference value Q 0comprise: network side entity indicates one or more quantity Q by high-level signaling, network side entity indicates unique quantity Q by physical layer signaling in one or more quantity Q, or at one or more reference value Q 0the quantity Q that middle instruction is unique.
Wherein, when network side entity indicates quantity Q or reference value Q by system information block SIB 0time, quantity Q or reference value Q 0effective to D2D transmitting terminals all in community, or effective to the transmitting terminal UE in the D2D group specified.
Wherein, when network side entity is by radio resource control RRC message instruction quantity Q or reference value Q 0time, RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
Wherein, the quantity Q indicated according to network side entity as transmitting terminal UE or reference value Q 0, and when determining and indicate quantity Q, transmitting terminal UE one of at least determines according to following and indicates quantity Q: the PSSCH sub-frame number in the cycle, the number of transmissions of each MACPDU, the data volume to be sent of transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
Wherein, quantity Q or reference value Q 0be less than or equal to the quantity of the maximum MACPDU that PSSCH subframe in the cycle can carry.
Wherein, transmitting terminal UE indicates quantity Q with nbit in the link control message SCI of limit, wherein, and n=1,2,3,4.
Wherein, the PSSCH subframe in D2D resource period comprise following one of at least: the subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
Wherein, network side entity comprises following entity one of at least: evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
For the indicating means and the equipment that also proposed a kind of transfer of data in the problem embodiment of the present invention that the flexibility of the D2D transfer of data existed in correlation technique is low, wherein, indicated in D2D communication cycle by physical layer and/or high-rise control signal, the data medium access control protocol data cell MACPDU quantity that transmitting terminal UE transmits, there is provided efficient, Data Transmission Controlling instruction flexibly, thus solve MACPDU the number of transmissions and the unmatched problem of PSSCH sub-frame number, the resource distribution meeting D2D traffic demands is provided, improve the configuration flexibility of D2D transfer of data, improve resource utilization.
For making the above-mentioned purpose of the embodiment of the present invention, technical scheme and advantage clearly understand, hereinafter will be described in detail to embodiments of the invention by reference to the accompanying drawings.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combination in any mutually.
Network side can comprise in following entity one or more: evolved base station (evolvedNodeB, referred to as eNB), relay station (RelayNode, referred to as RN), cell cooperative entity (Multi-cell/multicastCoordinationEntity, referred to as MCE), gateway (GateWay, referred to as GW), mobility management apparatus (MobilityManagementEntity, referred to as MME), Evolved UTRAN (EvolvedUniversalTerrestrialRadioAccessNetwork, referred to as EUTRAN), operational administrative and maintenance manager (OperationAdministrationandMaintenance, referred to as OAM), configuration controlled entity below for eNB as network side is described.
In D2D communication system, the D2D transmitting terminal UE having D2D data to be sent can obtain the physics limit link shared channels (PhysicalSidelinkSharedChannel of D2D communication from eNB, referred to as PSSCH) resource distribution, or in the predefined resource pool of system, select certain PSSCH resource to use, no matter how transmitting terminal UE obtains PSSCH resource, transmitting terminal UE needs to control indication information by D2D, also side chain road (i.e. D2D link) control information (SidelinkControlInformation can be called, referred to as SCI) the PSSCH resource used is indicated to receiving terminal UE, and other launch relevant control information to D2D data, as message control system (MessageControlSystem, referred to as MCS), UEID etc.In a D2D resource period, the physics limit link control channel (PhysicalSidelinkControlChannel at SCI place, referred to as PSCCH) channel resource divides in units of subframe subframe with the PSSCH resource of carrying D2D data, PSCCHsubframe carries D2D and controls indication information, PSSCHsubframe carries D2D data, as shown in Figure 4, PSSCHsubframe can refer to whole system uplink subframe, or the subframe in the PSSCH sub-frame resources pond of system predefine or configuration, or by time-domain resource pattern (TimeResourcePattern, referred to as TRP) subframe that indicates.Transmitting terminal UE carries the control indication information about PSSCH subframe in SCI, is used to indicate the relevant information of the D2Ddata transmitted in one-period, comprises PSSCH configuration, MCS etc.Transmitting terminal UE indicates the configuration of corresponding D2D data resource by SCI to one or more receiving terminal UE, make receiving terminal UE after receiving control indication information, the instruction of PSSCH subframe can be obtained, and on corresponding channel resource, receive required data according to instruction.
The PSSCH of transmitting terminal UE in one-period can transmit one or more MACPDU, and namely transmitted MACPDU quantity Q is more than or equal to 1.The defining method of the value of quantity Q can have following three kinds:
Method one
Q value is indicated to transmitting terminal UE by eNB:
When the PSSCH resource that transmitting terminal UE uses configures instruction by eNB, eNB can also configure the MACPDU quantity that the PSSCH subframe of instruction transmitting terminal UE within the cycle is transmitted further, for further accurate adjustment control D2D resource distribution.
Wherein, eNB can indicate transmitting terminal UE about the configuration of Q value by high-level signaling and/or physical layer signaling.
When Q is indicated by high-level signaling or physical layer signaling, the Q value indicated by eNB is unique numeric, and transmitting terminal UE transmits Q MACPDU within the cycle;
When Q is indicated by high-level signaling and physical layer signaling, eNB indicates one or more described Q value by high-level signaling, namely one group of Q value list is indicated, and in Q value list, indicate an actual Q value used further by physical layer signaling, the Q value that transmitting terminal UE indicates with final physical layer, transmits Q MACPDU within the cycle.
Wherein, when eNB is by high-level signaling instruction Q value, system information block SIB (SystemInformationBlock can be adopted, also referred to as system broadcast message) indicate, the Q value now indicated in SIB is cell-level parameter, and in Ji Dui community, all D2DUE are unified effective, or, further, SIB can carry out the configuration of Q value according to different D2DUEgroup, then the Q value configuring instruction is all unified effective for the UE belonging to corresponding D2Dgroup.
Wherein, when eNB is by high-level signaling instruction Q value, wireless heterogeneous networks (RadioResourceControl can also be adopted, referred to as RRC) message indicates, RRC information is UE level configuration indication information, can independently for each UE to carry out the configuration instruction of Q value, indicated Q value is only effective to the transmitting terminal UE receiving this RRC information.Further, the RRC information of Q value is indicated to be D2D communication specialized configuration Indication message D2DReconfiguration for configuring.
Wherein, when eNB is by physical layer signaling instruction Q value, D2D private downlink control information form DCIformat5 can be adopted to indicate, indicate by the corresponding instruction bit position in D2DDCI the Q value configured to transmitting terminal UE.
Method two
Q value oneself is determined by transmitting terminal UE:
When transmitting terminal UE selects PSSCH subframe voluntarily for transmitting D2DMACPDU in D2D resource pool, or eNB indicates configured PSSCH sub-frame resources to transmitting terminal UE, but when not indicating corresponding Q value, transmitting terminal UE oneself can determine Q value, and PSSCH subframe within the cycle transmits Q MACPDU, reach the object meeting own data transmission demand.
Wherein, when transmitting terminal UE determines Q value, this Q value can be determined based on the one or more of following factors: the data volume to be sent, D2D ChannelMeasurementReport DETAILED etc. of the PSSCH sub-frame number in the cycle, the number of transmissions of each MACPDU, transmitting terminal UE.
Wherein, the Q value that transmitting terminal UE determines can not exceed the maximum MACPDU quantity that PSSCH subframe in the cycle can carry.
Wherein, transmitting terminal UE indicates Q value in SCI, enables receiving terminal UE in PSSCH subframe, accurately receive the MACPDU sent, and reaches and saves the effect such as power, reduction receiving terminal complexity.Wherein, transmitting terminal UE indicates Q value with nbit in SCI, n=1,2,3,4.
Method three
Q value is jointly determined by eNB and transmitting terminal UE:
ENB sends a reference value Q of MACPDU by high-level signaling or physical layer signaling instruction transmitting terminal UE 0, transmitting terminal UE determines the MACPDU quantity Q of actual transmission further voluntarily, and Q≤Q 0.
ENB indicates Q by high-level signaling 0during value, system information block SIB (SystemInformationBlock, also referred to as system broadcast message) can be adopted to indicate, the Q now indicated in SIB 0value is cell-level parameter, and in Ji Dui community, all D2DUE are unified effective, or further, SIB can carry out Q according to different D2DUEgroup 0value configuration, then configure the Q of instruction 0value is all unified effective for the UE belonging to corresponding D2Dgroup.
ENB indicates Q by high-level signaling 0during value, radio resource control RRC (RadioResourceControl) message can also be adopted to indicate, RRC information is UE level configuration indication information, independently can carry out Q for each UE 0the configuration instruction of value, indicated Q 0value is only effective to the transmitting terminal UE receiving this RRC information.Further, for configuring instruction Q 0the RRC information of value is D2D communication specialized configuration Indication message D2DReconfiguration.
ENB indicates Q by physical layer signaling 0during value, D2D private downlink control information form DCIformat5 can be adopted to indicate, indicate by the corresponding instruction bit position in D2DDCI the Q configured to transmitting terminal UE 0value.
Wherein, the Q that configures based on eNB of transmitting terminal UE 0value, determines the MACPDU quantity Q of actual transmission, and PSSCH subframe within the cycle transmits Q MACPDU, reaches the object meeting own data transmission demand.
When transmitting terminal UE determines Q value, Q value can be determined: the data volume to be sent, D2D ChannelMeasurementReport DETAILED etc. of the PSSCH sub-frame number in the cycle, the number of transmissions of each MACPDU, transmitting terminal UE based on the one or more of following factors, wherein, the Q value that transmitting terminal UE determines can not more than the reference value Q of eNB configuration 0, i.e. Q≤Q 0.
Wherein, transmitting terminal UE indicates Q value in SCI, enables receiving terminal UE in PSSCH subframe, accurately receive the MACPDU sent, and reaches and saves the effect such as power, reduction receiving terminal complexity.Wherein, transmitting terminal UE indicates Q value with nbit in SCI, n=1,2,3,4.
Be described below in conjunction with the method for specific embodiment to the value of above-mentioned instruction quantity Q:
Embodiment one
Fig. 9 indicates MACPDU to transmit the signaling process figure of quantity Q according to the network side of the embodiment of the present invention by SIB information configuration, as shown in Figure 9, eNB passes through the Q value that in SIB information configuration indicating cell, all D2DUE are unified, indicated Q=4, then D2DUE is according to configuration instruction, in SCI, indicate Q=4 with 2bit, and corresponding PSSCH subframe in D2D resource period transmits 4 MACPDU successively; Or, because SIB message can be received by D2DUE in all communities, therefore transmitting terminal UE can not need the Q value that again indicates eNB to configure, namely in SCI, no longer carry the instruction about Q value, then receiving terminal UE is according to the Q value configuration received from SIB, in conjunction with the relevant control instruction in transmitting terminal UESCI signaling, receive 4 MACPDU transmitted.
By the MACPDU quantity that SIB configuration D2DUE transmits within the cycle, more accurate scheduling of resource can be reached control, for transmitting terminal UE and receiving terminal UE is energy-conservation, reduce data receiver complexity, and can resource utilization be improved, under the United Dispatching configuration of eNB, make full use of the effect of system resource.
Embodiment two
Figure 10 indicates MACPDU to transmit the signaling process figure of quantity Q according to the network side of the embodiment of the present invention by RRC information configuration, as shown in Figure 10, eNB is by the Q value of D2DReconfiguration message arrangement instruction D2D transmitting terminal UE, indicated Q=3, then transmitting terminal UE is according to configuration instruction, in SCI, indicate Q=3 with 2bit, and corresponding PSSCH subframe in D2D resource period transmits 3 MACPDU successively.
The PSSCH sub-frame configuration of transmitting terminal UE and 3 MACPDU resource distributions of transmission are as shown in figure 11, Figure 11 is the transfer of data schematic diagram according to the embodiment of the present invention two, in a D2D resource period, transmitting terminal UE obtains the configuration of 15 PSSCH subframes, according to system requirements, each MACPDU needs transmission 4 times, each transmission needs to take a PSSCH subframe in time domain, therefore 15 PSSCH subframes can not meet the requirement each MACPDU being transmitted to 4 times just, thus there is residue subframe, eNB is while configuring instruction PSSCH subframe for transmitting terminal UE, the MACPDU quantity Q=3 transmitted within the cycle is indicated by RRC signaling, then transmitting terminal UE is according to PSSCH sub-frame configuration and the configuration of Q value, only need the PSSCH subframe within the cycle transmits 3 MACPDU successively, use 12 PSSCH subframes altogether, in remaining 3 PSSCH subframes, transmitting terminal UE does not send data, respective resources can be carried out scheduling by eNB and be used.
ENB controls the MACPDU quantity indicating transmitting terminal UE to transmit within the cycle by RRC information, more accurate scheduling of resource can be reached control, for transmitting terminal UE and receiving terminal UE is energy-conservation, reduce data receiver complexity, and can resource utilization be improved, under the United Dispatching configuration of eNB, make full use of the effect of system resource.
Embodiment three
Figure 12 indicates MACPDU to transmit the signaling process figure of quantity Q according to the network side of the embodiment of the present invention by RRC information and D2DDCI signal deployment, as shown in figure 12, the Q value list that eNB indicates D2D transmitting terminal UE mono-group available by D2DReconfiguration message arrangement, comprise Q=[1, 4, 8, 12], and the Q value of actual use is dynamically indicated further by DCIformat5, when the 3rd numerical value that eNB indicates transmitting terminal UE to use in available Q value list in DCIformat5, i.e. Q=8, then transmitting terminal UE is according to configuration instruction, Q=8 is indicated with 3bit in SCI, and corresponding PSSCH subframe in D2DSCI/data resource period transmits 8 MACPDU successively.
ENB controls instruction transmitting terminal UE transmission MACPDU quantity available within the cycle by RRC information, and configured by the Q value of the actual use of DCIformat5 dynamic conditioning, accurate scheduling of resource more in real time can be reached control, for transmitting terminal UE and receiving terminal UE is energy-conservation, meet the business demand of transmitting terminal UE, reduce the data receiver complexity of receiving terminal UE, and can resource utilization be improved, under the United Dispatching configuration of eNB, make full use of the effect of system resource.
Embodiment four
Figure 13 determines according to the transmitting terminal UE of the embodiment of the present invention and indicates MACPDU to transmit the signaling process figure of quantity Q, as shown in figure 13, D2D transmitting terminal UE selects some subframes as the PSSCH subframe of oneself in predefined PSSCH sub-frame resources pond, for transmitting D2DMACPDU.Based on selected PSSCH subframe, transmitting terminal UE can determine corresponding Q value, such as selected by TRP and indicate 10 PSSCH subframes, and according to system requirements, each MACPDU needs to carry out 4 transmission, then transmitting terminal UE at most can only complete transmission 2 MACPDU, therefore transmitting terminal UE determines Q=2, and Q=2 is indicated with 3bit in SCI, further, the corresponding PSSCH subframe in D2D resource period transmits 2 MACPDU successively.
As shown in figure 14, this Figure 14 is the transfer of data schematic diagram according to the embodiment of the present invention four for the PSSCH sub-frame configuration of transmitting terminal UE and 2 MACPDU resource distributions of transmission.Within a SCI/data cycle, transmitting terminal UE have selected the configuration of 10 PSSCH subframes, according to system requirements, each MACPDU needs transmission 4 times, each transmission needs to take a PSSCH subframe in time domain, therefore 10 PSSCH subframes can not meet the requirement each MACPDU being transmitted to 4 times just, thus there is residue subframe, transmitting terminal UE is according to the requirement of PSSCH sub-frame configuration and MACPDU the number of transmissions, determine Q=2, PSSCH subframe within the cycle is transmitted successively 2 MACPDU, use 8 PSSCH subframes altogether, in remaining 2 PSSCH subframes, transmitting terminal UE does not send data.
Transmitting terminal UE is according to PSSCH sub-frame resources situation, and the requirement such as MACPDU the number of transmissions, oneself determine the quantity Q transmitting MACPDU in one-period, and in SCI, indicate determined Q value, transmitting terminal UE is enable to determine Q value according to own service demand and PSSCH subframe situation etc., reach the business demand meeting transmitting terminal UE, reduce the effect of the data receiver complexity of receiving terminal UE.
Embodiment five
ENB is by D2DReconfiguration message arrangement instruction D2D transmitting terminal MACPDU quantity forwarded reference value Q 0, indicated Q 0=6, and be transmitting terminal UE configuration PSSCH resource.D2DUE, according to configuration instruction, in conjunction with self business demand and channel situation, determines to send 4 MACPDU, i.e. Q=4 in configured PSSCH resource.
Transmitting terminal UE indicates Q=4 with 2bit in SCI, and corresponding PSSCH subframe in D2D resource period transmits 4 MACPDU successively, as shown in figure 15, this Figure 15 indicates MACPDU quantity reference value Q according to the network side of the embodiment of the present invention by RRC information to signaling process 0, and transmitting terminal UE determines and indicates MACPDU to transmit the signaling process figure of quantity Q.
The MACPDU quantity reference value that eNB is transmitted within the cycle by RRC configuration D2DUE, and adjust the actual MACPDU quantity sent more accurately by transmitting terminal UE further, the effect that transmitting terminal UE and receiving terminal UE is energy-conservation, reduce data receiver complexity can be reached, and can resource utilization be improved, under the United Dispatching configuration of eNB, make full use of the effect of system resource.
Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, and in some cases, step shown or described by can performing with the order be different from herein, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (30)

1. an indicating means for media access control protocol data unit MACPDU quantity, is characterized in that, comprising:
The quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively is shown at limit link control message SCI middle finger, wherein, described quantity Q is indicated by least one in following method:
Network side entity indicates described quantity Q by high-level signaling and/or physical layer signaling;
Transmitting terminal UE determines according to local information and indicates described quantity Q;
Network side entity indicates the reference value Q of described MACPDU quantity Q or described MACPDU quantity Q by high-level signaling and/or physical layer signaling 0, and transmitting terminal UE determines and indicates the quantity Q of described MACPDU, wherein, and Q≤Q 0.
2. method according to claim 1, is characterized in that, network side entity indicates described quantity Q or described reference value Q by high-level signaling and/or physical layer signaling 0, comprise following one of at least:
Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling 0comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0, described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0, described quantity Q or described reference value Q 0for unique numeric;
Described network side entity indicates described quantity Q or described reference value Q by described physical layer signaling 0comprise: described network side entity indicates described quantity Q or described reference value Q by the nbit indication information in D2D private downlink control information form DCIformat5 0, described quantity Q or described reference value Q 0for unique numeric, described n=1,2,3,4;
Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling and described physical layer signaling 0comprise: described network side entity indicates one or more described quantity Q by high-level signaling, or one or more described reference value Q 0, described network side entity indicates unique quantity Q by physical layer signaling in described one or more described quantity Q, or at described one or more described reference value Q 0the quantity Q that middle instruction is unique.
3. method according to claim 2, is characterized in that, when described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0time, described quantity Q or described reference value Q 0effective to D2D transmitting terminal UE all in community, or effective to the transmitting terminal UE in the D2D group specified.
4. method according to claim 2, is characterized in that, when described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0time, described RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
5. method according to claim 1, is characterized in that, when described transmitting terminal UE to determine according to local information and indicates described quantity Q, or the described quantity Q value indicated according to network side entity as described transmitting terminal UE or described reference value Q 0when determining and indicate described quantity Q, described transmitting terminal UE one of at least determines according to following and indicates described quantity Q:
The number of transmissions of the PSSCH sub-frame number in the described cycle, each described MACPDU, the data volume to be sent of described transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
6. method according to claim 1, is characterized in that, the quantity Q of described MACPDU or described reference value Q 0be less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
7. method according to claim 1, is characterized in that, when indicating described quantity Q in described SCI, indicates described quantity Q with nbit, wherein, and described n=1,2,3,4.
8. method according to claim 1, is characterized in that, the described PSSCH subframe in described D2D resource period comprise following one of at least:
Subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
9. method according to claim 1, is characterized in that, network side entity comprises following entity one of at least:
Evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
10. an indicating device for media access control protocol data unit MACPDU quantity, is characterized in that, is applied to network implementation side, comprises:
First indicating module, the quantity Q of the media access control protocol data unit MACPDU transmitted successively in the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period by high-level signaling and/or physical layer signaling instruction, or the reference value Q of described MACPDU quantity 0.
11. devices according to claim 10, is characterized in that, described first indicating module one of at least instruction described quantity Q or described reference value Q in the following manner 0:
Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling 0comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0, described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0, described quantity Q or described reference value Q 0for unique numeric;
Described network side entity indicates described quantity Q or described reference value Q by described physical layer signaling 0comprise: described network side entity indicates described quantity Q or described reference value Q by the nbit indication information in D2D private downlink control information form DCIformat5 0, described quantity Q or described reference value Q 0for unique numeric, described n=1,2,3,4;
Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling and described physical layer signaling 0comprise: described network side entity indicates one or more described quantity Q by high-level signaling, or one or more described reference value Q 0, described network side entity indicates unique quantity Q by physical layer signaling in described one or more described quantity Q, or at described one or more described reference value Q 0the quantity Q that middle instruction is unique.
12. devices according to claim 11, is characterized in that, when described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0time, described quantity Q or described reference value Q 0effective to D2D transmitting terminals all in community, or effective to the transmitting terminal UE in the D2D group specified.
13. devices according to claim 11, is characterized in that, when described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0time, described RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
14. devices according to claim 10, is characterized in that, described quantity Q or described reference value Q 0be less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
15. devices according to claim 10, is characterized in that, the described PSSCH subframe in described D2D resource period comprise following one of at least:
Subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
16. devices according to claim 10, is characterized in that, described network side entity comprises following entity one of at least:
Evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
The indicating device of 17. 1 kinds of media access control protocol data unit MACPDU quantity, is characterized in that, is applied to transmitting terminal UE side, comprises:
Second indicating module, for determining according to local information and indicating the quantity Q of the media access control protocol data unit MACPDU that the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively.
18. devices according to claim 17, is characterized in that, described second indicating module one of is at least determined according to following and indicates described quantity Q:
The number of transmissions of the PSSCH sub-frame number in the described cycle, each described MACPDU, the data volume to be sent of described transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
19. devices according to claim 17, is characterized in that, the described quantity Q that described transmitting terminal UE indicates is less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
20. devices according to claim 17, is characterized in that, described transmitting terminal UE indicates described quantity Q with nbit in the link control message SCI of limit, wherein, and described n=1,2,3,4.
21. devices according to claim 17, is characterized in that, the described PSSCH subframe in described D2D resource period comprise following one of at least:
Subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
The indicating device of 22. 1 kinds of media access control protocol data unit MACPDU quantity, is characterized in that, is applied in system, and described system at least comprises transmitting terminal UE and network side entity, wherein,
The quantity Q of the media access control protocol data unit MACPDU that described network side entity by high-level signaling and/or physical layer signaling instruction, the physics limit link shared channels PSSCH subframe in a device-to-device D2D resource period is transmitted successively, or the reference value Q of described MACPDU quantity 0, and, the described quantity Q that described transmitting terminal UE indicates according to described network side or described reference value Q 0, determine and indicate the quantity Q of described MACPDU of transmission, wherein, described Q≤Q 0.
23. devices according to claim 22, is characterized in that, described network side entity indicates described quantity Q or described reference value Q by high-level signaling and/or physical layer signaling 0, comprise following one of at least:
Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling 0comprise following one of at least: described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0, described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0, described quantity Q or described reference value Q 0for unique numeric;
Described network side entity indicates described quantity Q or described reference value Q by described physical layer signaling 0comprise: described network side entity indicates described quantity Q or described reference value Q by the nbit indication information in D2D private downlink control information form DCIformat5 0, described quantity Q or described reference value Q 0for unique numeric, described n=1,2,3,4;
Described network side entity indicates described quantity Q or described reference value Q by described high-level signaling and described physical layer signaling 0comprise: described network side entity indicates one or more described quantity Q by high-level signaling, described network side entity indicates unique quantity Q by physical layer signaling in one or more described quantity Q, or at described one or more described reference value Q 0the quantity Q that middle instruction is unique.
24. devices according to claim 23, is characterized in that, when described network side entity indicates described quantity Q or described reference value Q by system information block SIB 0time, described quantity Q or described reference value Q 0effective to D2D transmitting terminals all in community, or effective to the transmitting terminal UE in the D2D group specified.
25. devices according to claim 23, is characterized in that, when described network side entity indicates described quantity Q or described reference value Q by radio resource control RRC message 0time, described RRC information is D2D specialized configuration Indication message D2D reconfiguration message.
26. devices according to claim 22, is characterized in that, the described quantity Q indicated according to network side entity as described transmitting terminal UE or described reference value Q 0, and when determining and indicate described quantity Q, described transmitting terminal UE one of at least determines according to following and indicates described quantity Q:
The number of transmissions of the PSSCH sub-frame number in the described cycle, each described MACPDU, the data volume to be sent of described transmitting terminal UE, D2D ChannelMeasurementReport DETAILED.
27. devices according to claim 22, is characterized in that, described quantity Q or described reference value Q 0be less than or equal to the quantity of the maximum described MACPDU that described PSSCH subframe can carry in the cycle.
28. devices according to claim 22, is characterized in that, described transmitting terminal UE indicates described quantity Q with nbit in the link control message SCI of limit, wherein, and described n=1,2,3,4.
29. devices according to claim 22, is characterized in that, the described PSSCH subframe in described D2D resource period comprise following one of at least:
Subframe in system uplink subframe or PSSCH sub-frame resources pond or the subframe indicated by time-domain resource pattern TRP.
30. devices according to claim 22, is characterized in that, described network side entity comprises following entity one of at least:
Evolved base station eNB, relay station RN, cell cooperative entity MCE, gateway GW, mobility management apparatus MME, Evolved UTRAN EUTRAN, operational administrative and maintenance manager OAM.
CN201410498692.7A 2014-09-25 2014-09-25 Indication method and indication device of the quantity of MAC (Medium Access Control) PDU (Protocol Data Unit) Withdrawn CN105450358A (en)

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