WO2012097724A1 - Semi-persistent scheduling method, user equipment, and network device - Google Patents

Semi-persistent scheduling method, user equipment, and network device Download PDF

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Publication number
WO2012097724A1
WO2012097724A1 PCT/CN2012/070477 CN2012070477W WO2012097724A1 WO 2012097724 A1 WO2012097724 A1 WO 2012097724A1 CN 2012070477 W CN2012070477 W CN 2012070477W WO 2012097724 A1 WO2012097724 A1 WO 2012097724A1
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WO
WIPO (PCT)
Prior art keywords
user equipment
sps
successfully
control signaling
feedback
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Application number
PCT/CN2012/070477
Other languages
French (fr)
Chinese (zh)
Inventor
权威
姜怡
张戬
陈小锋
黄曲芳
Original Assignee
华为技术有限公司
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Publication of WO2012097724A1 publication Critical patent/WO2012097724A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/12Wireless traffic scheduling
    • H04W72/1263Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows

Definitions

  • the present invention relates to mobile communication technologies, and in particular, to a semi-static scheduling method, user equipment, and network equipment.
  • a base station eNodeB, eNB uses a Physical Downlink Control Channel (PDCCH) to transmit control signaling for scheduling User Equipment (UE).
  • UE User Equipment
  • the control signaling is performed by using the Cell Radio Network Temporary Identity (C-RNTI) of the UE, and after the UE monitors the control signaling transmitted on the PDCCH,
  • C-RNTI Cell Radio Network Temporary Identity
  • the control signaling transmitted on the PDCCH may be de-masked by using its own C-RNTI, and the de-masked control signaling includes a physical channel resource allocated to the UE and a specifically used modulation and coding manner.
  • the UE performs data transmission and reception on the corresponding physical channel according to the related information carried in the control signaling and according to the indication therein.
  • the control signaling transmitted on the PDCCH itself is also carried on a certain physical resource for transmission.
  • TTI Transmission Time Interval
  • the control signaling that can be carried in a Transmission Time Interval (TTI) is usually only a dozen or so, which also includes uplink and downlink scheduling signaling. Therefore, on average, up to or down, only a few to a dozen users can be scheduled in one cell at a time.
  • control signaling may be sent only in certain subframes. At this time, the number of control signaling transmitted on the PDCCH will be less. The number of users that can be scheduled because the number of control signaling transmitted on the PDCCH is limited The amount is also limited, resulting in limited system capacity.
  • SPS Semi-Persistent Scheduling
  • the eNB may configure an SPS period and a Physical Uplink Control Channel (PUCCH) feedback resource to the UE through a Radio Resource Control (RRC) message.
  • RRC Radio Resource Control
  • the eNB may activate the SPS by using the control signaling transmitted on the PDCCH.
  • the UE receives the downlink data at the corresponding time point according to the SPS period configured by the RRC message, and feeds back the resources in the configured PUCCH. Feedback is performed on the PDCCH without scheduling each time the UE is scheduled.
  • the eNB may send an SPS modification or release command by using control signaling transmitted on the PDCCH.
  • control signaling transmitted on the PDCCH may be frequently used to modify the SPS resources as the radio channel conditions change, resulting in PDCCH resources. waste.
  • VoIP voice over IP
  • Embodiments of the present invention provide a semi-persistent scheduling method, user equipment, and network equipment to save
  • PDCCH resources improve system capacity and resource utilization.
  • An aspect of the present invention provides a semi-persistent scheduling method, including:
  • the first user equipment acquires a semi-persistent scheduling SPS group scheduling identifier, where user equipments in the same group share one SPS group scheduling identifier;
  • the first user equipment receives the control signaling that is masked on the physical downlink control channel PDCCH, and demasks the control signaling according to the SPS group scheduling identifier, to obtain the de-masked control signaling;
  • Another aspect of the present invention provides a semi-persistent scheduling method, including:
  • the network device sends, on the PDCCH, the control that uses the SPS group scheduling identifier to mask the first user equipment.
  • the signaling device wherein the user equipment in the same group shares an SPS group scheduling identifier; the network device sends a MAC PDU to the user equipment on the PDSCH, where the MAC PDU includes at least one user in the group where the first user equipment is located.
  • the packet of the device is not limited to the PDCCH, the control that uses the SPS group scheduling identifier to mask the first user equipment.
  • the signaling device wherein the user equipment in the same group shares an SPS group scheduling identifier; the network device sends a MAC PDU to the user equipment on the PDSCH, where the MAC PDU includes at least one user in the group where the first user equipment is located.
  • Another aspect of the present invention provides a user equipment, including:
  • An acquiring module configured to acquire a semi-persistent scheduling SPS group scheduling identifier, where the user equipment shares an SPS group scheduling identifier with other user equipments in the same group;
  • a demodulation module configured to receive control signaling that is masked on the physical downlink control channel PDCCH, and demask the control signaling according to the SPS group scheduling identifier, to obtain a demodulated control signaling user equipment; Receiving, according to the demodulated control signaling, a media access control MAC protocol data unit PDU on the physical downlink shared channel PDSCH, where the MAC PDU includes a data packet of at least one user equipment in the packet where the user equipment is located.
  • Another aspect of the present invention provides a network device, including:
  • a signaling sending module configured to send, to the first user equipment, a control signaling that is masked by the SPS group scheduling identifier, where the user equipment in the same group shares an SPS group scheduling identifier, and the data sending module is configured to Sending a MAC PDU to the user equipment on the PDSCH, the MAC
  • the PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
  • the embodiment of the present invention uses the SPS control signaling transmitted on the PDCCH to schedule the UE of the same group, so that multiple UEs can be activated, modified, or released by the SPS of the same PDCCH, thereby avoiding The use of the control signaling to perform the activation, modification, or release of the SPS frequently saves the PDCCH resources.
  • the SPS resources of multiple UEs are simultaneously operated, thereby improving System capacity and resource utilization.
  • FIG. 1 is a schematic flow chart of a method according to an embodiment of the present invention.
  • FIG. 2 is a schematic flow chart of a method according to another embodiment of the present invention.
  • FIG. 3 is a schematic flow chart of a method according to another embodiment of the present invention.
  • FIG. 4 is a schematic flow chart of a method according to another embodiment of the present invention.
  • FIG. 5 is a schematic structural diagram of a user equipment according to another embodiment of the present disclosure.
  • FIG. 6 is a schematic structural diagram of a network device according to another embodiment of the present invention.
  • FIG. 1 is a schematic flowchart of a method according to an embodiment of the present invention, including:
  • Step 11 The first UE acquires an SPS group scheduling identifier, where UEs in the same group share an SPS group scheduling identifier.
  • the first UE may obtain the SPS group scheduling identifier in the following manner:
  • the first user equipment receives radio resource control sent by the network device (Radio Resouce)
  • the RRC message carries the SPS group scheduling identifier allocated by the network device to the first user equipment; or the first user equipment receives a paging message, where the paging message carries a group identifier corresponding to the paging message, where the group identifier corresponding to the paging message is used as the
  • the SPS group scheduling identifier that is, the Paging-Radio Network Temporary Identity (P-RNTI) corresponding to the paging message is used as the SPS group scheduling identifier; or the first user equipment according to the pre-configured information.
  • P-RNTI Paging-Radio Network Temporary Identity
  • Step 12 The first UE receives the control signaling on the PDCCH, and demasks the control signaling according to the SPS group scheduling identifier, to obtain the de-masked control signaling including the SPS command. And configured to perform SPS scheduling on a UE in a packet where the first UE is located.
  • Step 13 The first UE receives a Media Access Control (MAC) Protocol Data Unit (PDU) on the PDSCH according to the demodulated control signaling that includes the SPS command.
  • the MAC PDU includes a data packet of at least one UE in the packet where the first UE is located.
  • the embodiment may further include:
  • the first UE sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information according to the SPS command and the receiving of the control signaling and the MAC PDU.
  • the first UE may obtain the SPS information in the following manner:
  • the first user equipment receives an RRC message sent by the network device, where the RRC message includes the SPS information, where the SPS information includes: an SPS period, a physical uplink control channel PUCCH feedback resource.
  • the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the first UE
  • the SPS command is an SPS activation or modification command
  • the first UE according to the SPS command and the The control signaling and the receiving of the MAC PDU, and the sending of the feedback information or the feedback on the feedback resource indicated by the SPS information includes:
  • the first UE succeeds in de-masking the control signaling, and successfully decoding the MAC PDU, feeding back ACK information on the PUCCH feedback resource according to the SPS period; or, if the first UE succeeds Unmasking the control signaling, but failing to successfully decode the MAC PDU, and feeding back NACK information on the PUCCH feedback resource according to the SPS period; or if the first UE fails to unmask the control successfully Signaling, no feedback is made.
  • the PUCCH feedback resource is a shared PUCCH feedback resource configured for the first UE, and the SPS command is activated or modified by the SPS, the first UE is configured according to the SPS command. And sending the feedback information or not performing the feedback SPS command on the feedback resource indicated by the SPS information, and the receiving the control signaling and the MAC PDU, including:
  • the ACK information is fed back on the PUCCH feedback resource according to the SPS period; or If the first UE does not successfully unmask the control signaling, or if the first UE successfully demasks the control signaling, but does not successfully decode the MAC PDU, or if the first UE The control signaling is successfully masked, and the MAC PDU is successfully decoded, but the data packet corresponding to the first UE is not included in the successfully decoded MAC PDU, and no feedback is performed.
  • the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the first UE
  • the SPS command is an SPS release command
  • the first UE according to the SPS command and the control signaling and
  • the sending of the MAC PDU includes:
  • the first user equipment successfully demasks the control signaling, feedback ACK information on the PUCCH feedback resource according to the SPS period; or if the first UE fails to unmask the control signal Order, no feedback.
  • this embodiment may further include:
  • the feedback information includes the ACK information or the NACK information;
  • the first UE receives the masked control signaling that is retransmitted by the network device on the PDCCH, where the re-transmitted masked control signaling is that the network device does not receive the first user equipment. Sent after the feedback information.
  • the UEs of the same group are scheduled by using the SPS control signaling transmitted on the PDCCH, so that multiple UEs can be SPS activated, modified, or released by the control signaling of the same PDCCH. Avoiding frequent use of control signaling to perform activation, modification, or release of SPS, saving PDCCH resources; by including multiple data packets of UEs belonging to the same packet in a MAC PDU, simultaneously operating SPS resources of multiple UEs, Increased system capacity and resource utilization.
  • FIG. 2 is a schematic flowchart of a method according to another embodiment of the present invention, including:
  • Step 21 The network device sends a control signaling that is masked by the SPS group scheduling identifier to the first UE on the PDCCH, where the control signaling includes an SPS command, where the user equipment in the same group shares an SPS group scheduling identifier.
  • the SPS command is used to perform SPS scheduling on the user equipment in the group where the first user equipment is located;
  • the network device includes but is not limited to: an eNB, an eNodeB.
  • Step 22 The network device sends a MAC PDU to the user equipment on the PDSCH, where
  • the MAC PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
  • the embodiment may further include:
  • the network device sends an RRC message to the first user equipment, where the RRC message carries an SPS group scheduling identifier that is allocated by the network device to the first user equipment, so that the first user equipment is scheduled according to the SPS group. Decrypting the control signaling; or: the network device sends a paging message to the first user equipment, where the paging message carries a group identifier corresponding to the paging message, so that the first user equipment is configured according to The group identifier demasks the control signaling.
  • this embodiment may further include:
  • the network device learns the receiving situation of the first UE according to the feedback situation of the first user equipment, and the feedback situation of the first UE includes: feeding back information on the feedback resource indicated by the SPS information or not performing feedback.
  • the method may further include: the network device sending an RRC message to the first user equipment, before the network device is configured to receive the first user equipment according to the feedback situation of the first user equipment, where
  • the SPS information is included in the RRC message, and the SPS information includes: an SPS period and a PUCCH feedback resource.
  • the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment
  • the SPS command is an SPS activation or modification command
  • the user equipment if the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling, and Successfully decoding the MAC PDU; or, if the NACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully unmasks the control Signaling, but the MAC PDU is not successfully decoded; or if the information fed back by the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling.
  • the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is activated or modified by the SPS
  • the user of the first user equipment is informed according to the feedback situation of the first user equipment.
  • the device includes: if the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully unmasks the control signaling, and succeeds After decoding the MAC PDU, the decoded MAC PDU includes a data packet corresponding to the first user equipment; or, if the information fed back by the first user equipment is not received, the first The user equipment does not successfully unmask the control signaling, or the first user equipment successfully unmasks the control signaling, but the MAC PDU is not successfully decoded, or the first user equipment successfully decrypts the The control signaling is performed, and the MAC PDU is successfully decoded, but the data packet corresponding to the first user equipment is not in the successfully decoded MAC P
  • the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment
  • the SPS command is an SPS release command
  • the user equipment of the first user equipment is obtained according to the feedback situation of the first user equipment.
  • the method includes: if the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling; or if not received
  • the feedback information to the first user equipment is used to learn that the first user equipment does not successfully unmask the control signaling.
  • the embodiment may further include: if the network device receives the feedback information sent by the first user equipment, transmitting the data packet of the first user equipment according to the SPS resource, where the feedback information includes the ACK information or NACK information; or, if the network device does not receive the information fed back by the first user equipment, re-send the masked control signaling to the first user equipment on the PDCCH.
  • FIG. 3 is a schematic flowchart of a method according to another embodiment of the present invention.
  • a PUCCH feedback resource is used as an example for configuring a dedicated feedback resource for a UE to a UE.
  • this embodiment includes:
  • Step 31 The eNB sends an RRC message to the UE, where the RRC message includes SPS information configured for the UE.
  • the SPS information includes: an SPS period and a PUCCH feedback resource.
  • a dedicated PUCCH feedback resource is configured for the UE, that is, each UE in the group has its own PUCCH feedback resource.
  • the method for the UE to identify whether the dedicated PUCCH feedback resource is configured for itself includes, but is not limited to, the following:
  • the eNB indicates whether the PUCCH feedback resource is UE-specific in the RRC message, or adds a new allocation non-dedicated (ie, shared within the group)
  • the parameter of the PUCCH feedback resource if the PUCCH resource allocated by the existing parameter is used, is a dedicated resource of the UE, and if it is a PUCCH resource allocated by the new parameter, it is not a dedicated resource of the UE; or when the eNB indicates in the RRC message
  • the number of PUCCHs is 1, the UE considers that the PUCCH feedback resources are UE-specific, and when the number is greater than 1, it is considered not to be dedicated
  • the SPS group scheduling identifier (such as the Group-SPS-RNTI) may be configured for the UE by using the RRC message, or the SPS group scheduling identifier may also be the group identifier corresponding to the paging message, because the paging message has a group identifier. Therefore, the group identifier may be directly used as the SPS group scheduling identifier; or may be configured in the static configuration manner and configured in advance on the UE side. The UE may use the SPS group scheduling identifier to mask the control signaling corresponding to itself, so as to perform data reception according to the demodulated control signaling.
  • Step 32 The eNB sends the masked control signaling on the PDCCH, where the control signaling includes an SPS command, where the SPS command is used to perform SPS adjustment on the UE in the group where the UE is located. Degree.
  • the eNB sends a MAC PDU on a Physical Downlink Shared Channel (PDSCH), where the MAC PDU includes a data packet of at least one UE of the packet where the UE is located, and the data packet may be one or more MAC service data.
  • PDSCH Physical Downlink Shared Channel
  • the SPS commands include: SPS activation/modification commands and SPS release commands.
  • group-based SPS scheduling may be implemented.
  • the UEs in the group may be simultaneously activated/modified or released through the control signaling transmitted by the PDCCH.
  • Step 33 The UE monitors the PDCCH, and uses the SPS group scheduling identifier to demask the control signaling transmitted on the PDCCH.
  • the UEs in the same group share one SPS group scheduling identifier.
  • the SPS group scheduling identifier of the UE side may be configured by the eNB to the UE by using an RRC message, or may be a group identifier corresponding to the paging message, or may be pre-configured in the UE.
  • Step 34 The UE receives the MAC PDU on the PDSCH according to the demodulated control signaling, where the MAC PDU includes a data packet of at least one UE in the packet where the UE is located.
  • the demodulated control signaling includes a physical channel resource corresponding to the UE, so that the UE can receive data on the corresponding PDSCH.
  • the UE configured with the SPS information may perform a corresponding SPS receiving operation. For example, if the SPS command is an activation/modification command, after receiving the SPS activation/modification command, the UE starts from the time point when the SPS activation/modification command is received or the time point indicated in the SPS activation/modification command, The configured SPS period is a period, and the periodic attempt is made in the manner indicated by the SPS command on the PDSCH resource indicated in the SPS command (such as the modulation used) The code mode, the size of the transmitted data block, and the like are received, and feedback is performed using the PUCCH resource configured as described above according to the data reception condition. If the SPS command is an SPS release command, the UE does not receive the subsequent.
  • Step 35 The UE sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information acquired in advance according to the SPS command and the receiving of the control signaling and the MAC PDU.
  • the SPS command is an SPS activation/modification command
  • the UE successfully demodulates the control signaling transmitted on the PDCCH and successfully decodes the MAC PDU transmitted by the PDSCH whether the MAC PDU successfully decoded has its own data packet or not
  • the ACK information is fed back to the eNB through the PUCCH configured as described above. If the UE successfully decodes the control signaling carried by the PDCCH but fails to successfully decode the MAC PDU carried by the PDSCH, the NACK information is fed back to the eNB through the configured PUCCH; If the control signaling carried by the PDCCH is successfully masked, no feedback is performed.
  • the SPS command is an SPS release command
  • feedback is performed according to the reception condition of the control signaling. For example, when the UE successfully receives the control signaling, that is, the UE successfully unmasks the control signaling, the ACK information is fed back. Otherwise, no feedback is made.
  • Step 36 The eNB performs corresponding processing according to the feedback situation of the UE.
  • the control signaling and the data are all successfully received by the UE when the ACK is received; if the NACK is received, the UE is considered to receive only the PDCCH and the PDSCH is not solved; if nothing is received , it is considered that the UE does not receive the PDCCH.
  • the group SPS resource can be used to transmit the data of the UE; if nothing is received, the UE is considered not to receive the PDCCH, and the subsequent SPS cannot be transmitted on the PDCCH.
  • the data of the UE is transmitted on the SPS resource notified by the command.
  • the eNB re-sends the SPS activation command on the PDCCH to activate, and for the UE that has received the SPS activation command, the SPS activation command may be used. Understand the SPS modification command.
  • the UE successfully receives the MAC PDU transmitted on the PDSCH resource indicated by the SPS activation/modification command, and the MAC PDU has its own data, and the ACK is received in the preset PUCCH resource. If the MAC PDU is successfully received but does not have its own data, it may not feed back or feed back NACK or feedback ACK.
  • the PDU can monitor the control signaling of the scheduled SPS group scheduling identifier and mask the retransmission, perform SPS retransmission, and control the CCE (Control Channel Element) on the pre-configured PUCCH resource or according to the control signaling. The relative position of the channel unit is fed back accordingly.
  • the eNB may ignore the feedback of the UE.
  • the eNB may perform the scheduling retransmission.
  • the eNB may continue to use the group scheduling manner to schedule the data of the UE. , or notify the dedicated scheduling method to retransmit the UE data.
  • the UE does not need to listen to the group SPS scheduling, and the eNB may explicitly notify the UE by using signaling, or the UE may determine according to the configuration.
  • the SPS scheduling of the group can implement SPS group scheduling of multiple UEs in different SPS periods. For example, some UEs are SPS periods of 20 ms, and some UEs are SPS periods of 40 ms.
  • group SPS scheduling UEs using SPS periods of 20 ms only need to receive data at the time of integer multiple of +20 ms at the activation time point, and use 40 ms. The UE of the SPS cycle only needs to receive data at the time of an integral multiple of +40 ms at the activation time point.
  • the same UE group SPS scheduling and dedicated SPS scheduling cannot be activated at the same time.
  • the priority of dedicated SPS scheduling signaling is higher than the group SPS scheduling optimization level, namely: When the UE is using dedicated SPS scheduling for data reception, the UE no longer listens to the signaling and data scheduled by the group SPS;
  • the dedicated SPS release command may be used for modification or release.
  • the eNB and the UE perform SPS transmission according to the dedicated SPS command, and subsequently, the UE does not listen to the same as the prior art.
  • the group SPS schedules signaling and data; when released, the UE does not receive the data corresponding to the previous group SPS command unless the UE listens to the group SPS activation command again.
  • the service using the SPS scheduling mode usually has a small amount of data
  • a plurality of UEs that need to use SPS scheduling are grouped together, and group scheduling is used, which can further improve the resource utilization of the PDSCH on the basis of reducing the PDCCH overhead.
  • FIG. 4 is a schematic flowchart of a method according to another embodiment of the present invention.
  • a PUCCH feedback resource is used as an example for a shared feedback resource configured by a base station to a UE.
  • this embodiment includes:
  • Step 41 The eNB sends an RRC message to the UE, where the RRC message includes SPS information configured for the UE.
  • the PUCCH feedback resource configured in this embodiment is in the group.
  • Step 42 The eNB sends the masked control signaling on the PDCCH, where the control signaling includes an SPS command, where the SPS command is used to perform SPS scheduling on the UE in the packet where the UE is located.
  • the eNB sends a MAC PDU on the PDSCH, where the MAC PDU includes a data packet of at least one UE of the packet that the UE is in, and the data packet may be one or more MAC SDUs and/or one or more MAC CEs.
  • Step 43 The UE monitors the PDCCH, and uses the SPS group scheduling identifier to demask the control signaling transmitted on the PDCCH, where the UEs in the same group share one SPS group scheduling identifier.
  • Step 44 The UE receives a MAC PDU on the PDSCH according to the demodulated control signaling, where the MAC PDU includes a data packet of at least one UE in the packet where the UE is located.
  • the MAC PDU includes a data packet of at least one UE in the packet where the UE is located.
  • Step 45 The UE sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information acquired in advance according to the SPS command and the receiving of the control signaling and the MAC PDU.
  • the SPS command is an SPS activation/modification command
  • the UE successfully unmasks the control signaling sent on the PDCCH and successfully decodes the MAC PDU transmitted by the PDSCH, and the successfully decoded MAC PDU has its own data packet Then, the ACK information is fed back to the eNB through the PUCCH feedback resource configured as described above; if the UE successfully de-masks the control signaling transmitted on the PDCCH, and successfully decodes the MAC PDU transmitted on the PDSCH, but the successfully decoded MAC PDU does not have its own data.
  • the UE's resources are usually released using a dedicated SPS release command.
  • the UE successfully receives the MAC PDU transmitted on the PDSCH resource indicated by the SPS activation/modification command, and the MAC PDU has its own data, and the ACK is fed back to the corresponding PUCCH resource obtained through calculation. If the MAC PDU is received but does not have its own data, or if the UE does not successfully receive the MAC PDU, it does not feed back; meanwhile, if the UE does not successfully resolve the MAC PDU, it can listen to the possible group SPS retransmission and is pre-configured.
  • Corresponding feedback is made on the PUCCH resource or in the relative position of the CCE (Control Channel Element) according to the control signaling. For example, if 10 PUCCH resources are pre-configured, and the currently scheduled UE data is 2, the first UE uses the first PUCCH resource, and the second UE uses the second PUCCH resource.
  • Step 46 The eNB performs corresponding processing according to the feedback situation of the UE.
  • the eNB sends control signaling and schedules data of a certain UE: If the ACK is received, the control signaling and the data are considered to be successfully received by the UE; otherwise, the UE is considered not to receive the PDCCH.
  • the data of the UE may not be transmitted on the SPS resource notified by the command.
  • the eNB re-sends the PDCCH command for activation. For the UE that has received the command, the command can be understood as a modification command.
  • the eNB makes the following determination: The data of a certain UE is scheduled, and if the ACK is received, the data is successfully received by the UE; if no feedback is received, the data is not successfully received by the UE, and retransmission needs to be scheduled; if the eNB does not schedule data of a certain UE, The eNB can ignore the feedback of the UE.
  • the eNB may continue to use the group scheduling manner to schedule data of the UE, or notify the dedicated scheduling manner to retransmit the data of the UE.
  • the UE after receiving the PDSCH on the SPS resource and having its own data, the UE performs feedback on the calculated corresponding PUCCH resource; at the same time, the UE may listen to the possible group SPS retransmission and perform the Corresponding feedback.
  • the UE does not need to listen to the SPS scheduling of the group, and may be explicitly notified by signaling, or may be determined according to the configuration.
  • the SPS scheduling of the group can implement SPS group scheduling of multiple UEs in different SPS periods. For example, some UEs are SPS periods of 20 ms, and some UEs are SPS periods of 40 ms.
  • group SPS scheduling UEs using SPS periods of 20 ms only need to receive data at the time of integer multiple of +20 ms at the activation time point, and use 40 ms. The UE of the SPS cycle only needs to receive data at the time of an integral multiple of +40 ms at the activation time point.
  • the same UE group SPS scheduling and dedicated SPS scheduling cannot be activated at the same time.
  • the priority of dedicated SPS scheduling signaling is higher than the group SPS scheduling optimization level, namely:
  • the UE When the UE is using dedicated SPS scheduling for data reception, the UE no longer listens to the group SPS tone. Degree of signaling and data;
  • the dedicated SPS release command can be used to perform the 1/release; after the modification, the eNB and the UE perform the SPS transmission according to the dedicated SPS command, and the UE is no longer listening to the group.
  • the SPS schedules the signaling and data; after release, the UE does not receive the data corresponding to the previous group SPS command unless the UE listens to the group SPS activation command again.
  • the service using the SPS scheduling mode usually has a small amount of data
  • a plurality of UEs that need to use SPS scheduling are grouped together, and group scheduling is used, which can further improve the resource utilization of the PDSCH on the basis of reducing the PDCCH overhead.
  • FIG. 5 is a schematic structural diagram of a user equipment according to another embodiment of the present invention, which is used to implement the corresponding steps in the foregoing method, including an obtaining module 51, a demasking module 52, and a receiving module 53.
  • the module 51 is configured to acquire an SPS group scheduling identifier, where the user equipment shares an SPS group scheduling identifier with other user equipments in the same group;
  • the demasking module 52 is configured to receive control signaling on the PDCCH, according to the The SPS group scheduling identifier de-masks the control signaling, and obtains a de-masked control signaling user equipment that includes an SPS command, where the SPS command is used to perform SPS scheduling on the user equipment in the packet where the user equipment is located;
  • the receiving module 53 is configured to receive, according to the demodulated control signaling that includes the SPS command, a media access control MAC protocol data unit PDU on the physical downlink shared channel PDSCH, where the MAC PDU includes the packet in the user equipment.
  • the implementation may further include a feedback module, configured to send feedback information or not feedback on the feedback resource indicated by the SPS information according to the SPS command and the receiving of the control signaling and the MAC PDU.
  • a feedback module configured to send feedback information or not feedback on the feedback resource indicated by the SPS information according to the SPS command and the receiving of the control signaling and the MAC PDU.
  • the feedback module may be specifically used if the user equipment successfully unmasks the control when the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command. Signaling, and successfully decoding the MAC PDU, according to the In the SPS period, the ACK information is fed back on the PUCCH feedback resource; or, if the user equipment successfully demasks the control signaling but fails to successfully decode the MAC PDU, according to the SPS period, in the PUCCH The NACK information is fed back on the feedback resource; or, if the user equipment does not successfully unmask the control signaling, no feedback is performed;
  • the feedback module is specifically configured to: if the user equipment successfully unmasks the After the signaling is successfully decoded, and the MAC PDU is successfully decoded, the ACK information is fed back on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the packet Controlling signaling, or if the user equipment successfully de-masks the control signaling, but does not successfully decode the MAC PDU, or if the user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU, but if there is no data packet corresponding to the user equipment in the successfully decoded MAC PDU, no feedback is performed.
  • the feedback module is specifically configured to: if the user equipment successfully unmasks the control And signaling, the ACK information is fed back on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the control signaling, no feedback is performed.
  • the acquiring module 51 is specifically configured to receive a radio resource control RRC message, where the RRC message carries the SPS group scheduling identifier that is allocated by the network device to the user equipment, or is used to receive a paging message.
  • the paging message carries the group identifier corresponding to the paging message, and the group identifier corresponding to the paging message is used as the SPS group scheduling identifier; or is used to obtain the SPS group scheduling identifier according to the pre-configured information.
  • the acquiring module 51 is further configured to: receive an RRC message sent by the network device, where the RRC message includes the SPS information, where the SPS information includes: an SPS period, a physical uplink control channel PUCCH feedback resource.
  • the receiving module 53 is specifically configured to receive a data packet that is transmitted by the network device, where the transmitted data packet is that the network device schedules the user equipment and receives feedback information sent by the user equipment. After being sent, the feedback information includes the ACK information or the NACK information; or, for receiving the masked control signaling that the network device retransmits on the PDCCH, the re-transmitted masked control signaling And transmitting, after the network device does not receive the feedback information sent by the user equipment.
  • FIG. 6 is a schematic structural diagram of a network device according to another embodiment of the present invention, which is used to implement the corresponding steps in the foregoing method, including a signaling sending module 61 and a data sending module 62;
  • the module 61 is configured to send the control signaling that is masked by the SPS group scheduling identifier to the first user equipment, where the control signaling includes an SPS command, where the user equipment in the same group shares an SPS group scheduling identifier.
  • the SPS command is used to perform SPS scheduling on the user equipment in the group where the first user equipment is located; the data sending module 62 is configured to send a MAC PDU to the user equipment on the PDSCH, where the MAC PDU includes the first user equipment.
  • the embodiment may further include a receiving module, configured to learn, according to the feedback situation of the first user equipment, the receiving situation of the first user equipment, where the feedback situation of the first user equipment includes: feedback indicated by the SPS information Feedback on resources or no feedback.
  • a receiving module configured to learn, according to the feedback situation of the first user equipment, the receiving situation of the first user equipment, where the feedback situation of the first user equipment includes: feedback indicated by the SPS information Feedback on resources or no feedback.
  • the receiving module may be specifically used to feed back resources in the PUCCH according to the SPS period, when the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command.
  • the SPS command is an SPS activation or modification command.
  • the receiving module is specifically configured to: if received according to the SPS period, receive on the PUCCH feedback resource After the ACK information is sent back to the first user equipment, the first user equipment is successfully masked by the first user equipment, and the data packet corresponding to the first user equipment is successfully decoded after the MAC PDU is successfully decoded; or If the information fed back by the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling, or the first user equipment successfully unmasks the control signaling. However, the MAC PDU is not successfully decoded, or the first user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU, but the first user equipment does not correspond to the successfully decoded MAC PDU. Data packet
  • the receiving module is specifically configured to receive on the PUCCH feedback resource according to the SPS period. Obtaining the ACK information that is fed back by the first user equipment, and learning that the first user equipment successfully unmasks the control signaling; or, if the feedback information of the first user equipment is not received, knowing that the first user equipment is not The control signaling is successfully masked.
  • the signaling sending module 61 is further configured to send an RRC message to the first user equipment, where the RRC message carries an SPS group scheduling identifier that is allocated by the network device to the first user equipment, so that Decoding the control signaling according to the SPS group scheduling identifier; or sending a paging message to the first user equipment, where the paging message carries a group identifier corresponding to the paging message So that the first user equipment demasks the control signaling according to the group identifier.
  • the signaling sending module 61 is further configured to send an RRC message to the first user equipment, where the RRC message includes the SPS information, where the SPS information includes: an SPS period, a PUCCH feedback resource.
  • the data sending module 62 is further configured to: if the network device receives the feedback information sent by the first user equipment, transmit the number of the first user equipment according to the SPS resource. According to the packet, the feedback information includes the ACK information or NACK information;
  • the signaling sending module 61 is further configured to: if the network device does not receive the information fed back by the first user equipment, resend the masking control to the first user equipment on the PDCCH. Signaling.
  • the foregoing program may be stored in a computer readable storage medium, and when executed, the program includes The foregoing steps of the method embodiment; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.

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Abstract

Provided in the present invention are a semi-persistent scheduling (SPS) method, user equipment, and network device. The method comprises: a first user equipment acquiring an SPS group scheduling identifier, one SPS group scheduling identifier is shared by user equipment of same group; the first user equipment receiving a masked control signal on a PDCCH, unmasking the control signal on the basis of the SPS group scheduling identifier, acquiring an unmasked control signal comprising an SPS command, the SPS command being for use in scheduling the user equipment of the same group wherein the first user equipment is established; on the basis of the unmasked control signal comprising the SPS command, the first user equipment receiving a MAC PDU on a PDSCH, the MAC PDU comprising a data packet of at lease one user equipment within the group wherein the first user equipment is established. Embodiments of the present invention allows for PDCCH resource conservation, increased system capacity and resource utilization rate.

Description

半静态调度方法、 用户设备及网络设备  Semi-static scheduling method, user equipment and network equipment
本申请要求于 2011 年 1 月 17 日提交中国专利局、 申请号为 201110009896.6, 发明名称为"半静态调度方法、 用户设备及网络设备"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。  This application claims priority to Chinese Patent Application No. 201110009896.6, entitled "Semi-static scheduling method, user equipment and network equipment", which is filed on January 17, 2011, the entire contents of which are incorporated by reference. In this application.
技术领域 Technical field
本发明涉及移动通信技术, 尤其涉及一种半静态调度方法、用户设备及网 络设备。  The present invention relates to mobile communication technologies, and in particular, to a semi-static scheduling method, user equipment, and network equipment.
背景技术 Background technique
在长期演进(Long Term Evolution, LTE ) 系统中, 基站(eNodeB, eNB ) 使用物理下行控制信道 ( Physical Downlink Control Channel, PDCCH )传输用 于调度用户设备(User Equipment, UE ) 的控制信令。 调度处于连接态的 UE 的数据时, 该控制信令采用 UE的小区无线网络临时标识(Cell Radio Network Temporary Identity, C-RNTI )进行加掩, UE在监听到 PDCCH上传输的控制信 令后, 可以用自身的 C-RNTI对 PDCCH上传输的控制信令进行解掩, 解掩后的 控制信令包括为 UE分配的物理信道资源及具体使用的调制编码方式  In a Long Term Evolution (LTE) system, a base station (eNodeB, eNB) uses a Physical Downlink Control Channel (PDCCH) to transmit control signaling for scheduling User Equipment (UE). When the data of the UE in the connected state is scheduled, the control signaling is performed by using the Cell Radio Network Temporary Identity (C-RNTI) of the UE, and after the UE monitors the control signaling transmitted on the PDCCH, The control signaling transmitted on the PDCCH may be de-masked by using its own C-RNTI, and the de-masked control signaling includes a physical channel resource allocated to the UE and a specifically used modulation and coding manner.
( Modulation and Coding Scheme, MCS )等。 UE根据该控制信令中携带的相 关信息, 并按照其中的指示到对应的物理信道上进行数据的收发。  (Modulation and Coding Scheme, MCS) and the like. The UE performs data transmission and reception on the corresponding physical channel according to the related information carried in the control signaling and according to the indication therein.
PDCCH上传输的控制信令本身也是承载在一定的物理资源上进行传输 的。 以一个 5MHz带宽的小区为例, 一个传输时间间隔( Transmission Time Interval, TTI ) 中能够承载的控制信令通常只有十几个, 这同时包含了上、 下 行调度信令。 因此, 平均到上行或下行, 则一个 ΤΉ内只能同时调度几个到十 几个用户。 另外, 在一些场景下, 例如异构网络中, 为了降低小区间的干扰, 可能只在某些子帧上发送控制信令, 此时, PDCCH上传输的控制信令的数量 将会更少。 由于 PDCCH上传输的控制信令的数量受限, 则能够调度的用户数 量也受限, 则造成系统容量的受限。 The control signaling transmitted on the PDCCH itself is also carried on a certain physical resource for transmission. Taking a cell with a bandwidth of 5 MHz as an example, the control signaling that can be carried in a Transmission Time Interval (TTI) is usually only a dozen or so, which also includes uplink and downlink scheduling signaling. Therefore, on average, up to or down, only a few to a dozen users can be scheduled in one cell at a time. In addition, in some scenarios, such as a heterogeneous network, in order to reduce inter-cell interference, control signaling may be sent only in certain subframes. At this time, the number of control signaling transmitted on the PDCCH will be less. The number of users that can be scheduled because the number of control signaling transmitted on the PDCCH is limited The amount is also limited, resulting in limited system capacity.
半静态调度 ( Semi-Persistent Scheduling, SPS )是指资源的调度是预配置、 周期性的。 eNB可以通过无线资源控制 (Radio Resource Control, RRC ) 消息 向 UE配置 SPS周期以及采用的物理上行控制信道( Physical Uplink Control Channel, PUCCH )反馈资源。 对于下行 SPS, eNB可以采用 PDCCH上传输的 控制信令激活 SPS, 在后续的数据传输过程中, UE按照 RRC消息配置的 SPS周 期在对应的时间点上接收下行数据,并在配置的 PUCCH反馈资源上进行反馈, 而不需要每次调度 UE时都采用 PDCCH进行调度。 当需要修改或者释放 SPS资 源时, eNB可以采用 PDCCH上传输的控制信令下发 SPS修改或者释放命令。  Semi-Persistent Scheduling (SPS) means that resource scheduling is pre-configured and periodic. The eNB may configure an SPS period and a Physical Uplink Control Channel (PUCCH) feedback resource to the UE through a Radio Resource Control (RRC) message. For the downlink SPS, the eNB may activate the SPS by using the control signaling transmitted on the PDCCH. In the subsequent data transmission process, the UE receives the downlink data at the corresponding time point according to the SPS period configured by the RRC message, and feeds back the resources in the configured PUCCH. Feedback is performed on the PDCCH without scheduling each time the UE is scheduled. When the SPS resource needs to be modified or released, the eNB may send an SPS modification or release command by using control signaling transmitted on the PDCCH.
在半静态调度业务中, 如网络电话(Voice over IP, VoIP ) 业务中, 可能 随着无线信道条件的改变, 需要频繁地使用 PDCCH上传输的控制信令来修改 SPS资源, 造成了 PDCCH资源的浪费。  In a semi-persistent scheduling service, such as a voice over IP (VoIP) service, the control signaling transmitted on the PDCCH may be frequently used to modify the SPS resources as the radio channel conditions change, resulting in PDCCH resources. waste.
发明内容 Summary of the invention
本发明实施例是提供一种半静态调度方法、用户设备及网络设备, 以节省 Embodiments of the present invention provide a semi-persistent scheduling method, user equipment, and network equipment to save
PDCCH资源、 提高系统容量及资源利用率。 PDCCH resources, improve system capacity and resource utilization.
本发明一方面提供了一种半静态调度方法, 包括:  An aspect of the present invention provides a semi-persistent scheduling method, including:
第一用户设备获取半静态调度 SPS组调度标识, 其中, 同一分组内的用 户设备共享一个 SPS组调度标识;  The first user equipment acquires a semi-persistent scheduling SPS group scheduling identifier, where user equipments in the same group share one SPS group scheduling identifier;
所述第一用户设备接收物理下行控制信道 PDCCH上加掩的控制信令,根 据所述 SPS组调度标识解掩所述控制信令, 得到解掩后的控制信令;  The first user equipment receives the control signaling that is masked on the physical downlink control channel PDCCH, and demasks the control signaling according to the SPS group scheduling identifier, to obtain the de-masked control signaling;
所述第一用户设备根据所述解掩后的控制信令, 接收物理下行共享信道 Receiving, by the first user equipment, the physical downlink shared channel according to the demodulated control signaling
PDSCH上的媒体接入控制 MAC协议数据单元 PDU, 所述 MAC PDU包括所 述第一用户设备所在分组内至少一个用户设备的数据包。 The media access control MAC protocol data unit PDU on the PDSCH, the MAC PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
本发明另一方面提供了一种半静态调度方法, 包括:  Another aspect of the present invention provides a semi-persistent scheduling method, including:
网络设备在 PDCCH上向第一用户设备发送采用 SPS组调度标识加掩的控 制信令, 其中, 同一分组内的用户设备共享一个 SPS组调度标识; 所述网络设备在 PDSCH上向用户设备发送 MAC PDU, 所述 MAC PDU 包括所述第一用户设备所在分组内至少一个用户设备的数据包。 The network device sends, on the PDCCH, the control that uses the SPS group scheduling identifier to mask the first user equipment. The signaling device, wherein the user equipment in the same group shares an SPS group scheduling identifier; the network device sends a MAC PDU to the user equipment on the PDSCH, where the MAC PDU includes at least one user in the group where the first user equipment is located. The packet of the device.
本发明另一方面提供了一种用户设备, 包括:  Another aspect of the present invention provides a user equipment, including:
获取模块, 用于获取半静态调度 SPS组调度标识, 其中, 所述用户设备 与同一分组内的其它用户设备共享一个 SPS组调度标识;  An acquiring module, configured to acquire a semi-persistent scheduling SPS group scheduling identifier, where the user equipment shares an SPS group scheduling identifier with other user equipments in the same group;
解掩模块, 用于接收物理下行控制信道 PDCCH上加掩的控制信令, 根据 所述 SPS组调度标识解掩所述控制信令, 得到解掩后的控制信令用户设备; 接收模块, 用于根据所述解掩后的控制信令, 接收物理下行共享信道 PDSCH上的媒体接入控制 MAC协议数据单元 PDU, 所述 MAC PDU包括所 述用户设备所在分组内至少一个用户设备的数据包。  a demodulation module, configured to receive control signaling that is masked on the physical downlink control channel PDCCH, and demask the control signaling according to the SPS group scheduling identifier, to obtain a demodulated control signaling user equipment; Receiving, according to the demodulated control signaling, a media access control MAC protocol data unit PDU on the physical downlink shared channel PDSCH, where the MAC PDU includes a data packet of at least one user equipment in the packet where the user equipment is located.
本发明另一方面提供了一种网络设备, 包括:  Another aspect of the present invention provides a network device, including:
信令发送模块,用于在 PDCCH上向第一用户设备发送采用 SPS组调度标 识加掩的控制信令, 其中, 同一分组内的用户设备共享一个 SPS组调度标识; 数据发送模块, 用于在 PDSCH上向用户设备发送 MAC PDU, 所述 MAC a signaling sending module, configured to send, to the first user equipment, a control signaling that is masked by the SPS group scheduling identifier, where the user equipment in the same group shares an SPS group scheduling identifier, and the data sending module is configured to Sending a MAC PDU to the user equipment on the PDSCH, the MAC
PDU包括所述第一用户设备所在分组内至少一个用户设备的数据包。 The PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
由上述技术方案可知,本发明实施例通过使用 PDCCH上传输的 SPS控制 信令调度同一个分组的 UE, 使得多个 UE可以被同一个 PDCCH的控制信令 进行 SPS激活、 修改或释放, 避免了频繁使用控制信令进行 SPS的激活、 修 改或者释放, 节省了 PDCCH资源; 通过在 MAC PDU中包含属于同一个分组 的 UE的多个数据包, 同时对多个 UE的 SPS资源进行操作, 提高了系统容量 及资源利用率。  According to the foregoing technical solution, the embodiment of the present invention uses the SPS control signaling transmitted on the PDCCH to schedule the UE of the same group, so that multiple UEs can be activated, modified, or released by the SPS of the same PDCCH, thereby avoiding The use of the control signaling to perform the activation, modification, or release of the SPS frequently saves the PDCCH resources. By including multiple data packets of the UEs belonging to the same packet in the MAC PDU, the SPS resources of multiple UEs are simultaneously operated, thereby improving System capacity and resource utilization.
附图说明 DRAWINGS
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所 需要使用的附图做一简单地介绍,显而易见地, 下面描述中的附图是本发明的 一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动性的前提下, 还可以根据这些附图获得其他的附图。 In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are the present invention. For some embodiments, other drawings may be obtained from those skilled in the art without departing from the drawings.
图 1为本发明一实施例的方法流程示意图;  1 is a schematic flow chart of a method according to an embodiment of the present invention;
图 2为本发明另一实施例的方法流程示意图;  2 is a schematic flow chart of a method according to another embodiment of the present invention;
图 3为本发明另一实施例的方法流程示意图;  3 is a schematic flow chart of a method according to another embodiment of the present invention;
图 4为本发明另一实施例的方法流程示意图;  4 is a schematic flow chart of a method according to another embodiment of the present invention;
图 5为本发明另一实施例提供的用户设备的结构示意图;  FIG. 5 is a schematic structural diagram of a user equipment according to another embodiment of the present disclosure;
图 6为本发明另一实施例提供的网络设备的结构示意图。  FIG. 6 is a schematic structural diagram of a network device according to another embodiment of the present invention.
具体实施方式 detailed description
为使本发明实施例的目的、技术方案和优点更加清楚, 下面将结合本发明 实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然, 所描述的实施例是本发明一部分实施例, 而不是全部的实施例。基于本发明中 的实施例 ,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其 他实施例, 都属于本发明保护的范围。  The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is a partial embodiment of the invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.
图 1为本发明一实施例的方法流程示意图, 包括:  FIG. 1 is a schematic flowchart of a method according to an embodiment of the present invention, including:
步骤 11 : 第一 UE获取 SPS组调度标识, 其中, 同一分组内的 UE共享一 个 SPS组调度标识。  Step 11: The first UE acquires an SPS group scheduling identifier, where UEs in the same group share an SPS group scheduling identifier.
其中, 第一 UE可以采用如下方式获取 SPS组调度标识:  The first UE may obtain the SPS group scheduling identifier in the following manner:
所述第一用户设备接收网络设备发送的无线资源控制 (Radio Resouce The first user equipment receives radio resource control sent by the network device (Radio Resouce)
Control , RRC ) 消息, 所述 RRC消息中携带网络设备为所述第一用户设备分 配的所述 SPS组调度标识; 或者, 所述第一用户设备接收寻呼消息, 所述寻 呼消息中携带寻呼消息对应的组标识,将所述寻呼消息对应的组标识作为所述Control, RRC) message, the RRC message carries the SPS group scheduling identifier allocated by the network device to the first user equipment; or the first user equipment receives a paging message, where the paging message carries a group identifier corresponding to the paging message, where the group identifier corresponding to the paging message is used as the
SPS组调度标识, 即将寻呼消息对应的寻呼无线网络临时标识( Paging-Radio Network Temporary Identity, P-RNTI )作为 SPS组调度标识; 或者, 所述第一 用户设备根据自身预先配置的信息, 获取所述 SPS组调度标识。 步骤 12: 所述第一 UE收 PDCCH上加掩的控制信令,根据所述 SPS组调 度标识解掩所述控制信令,得到包含 SPS命令的解掩后的控制信令,所述 SPS 命令用于对所述第一 UE所在分组内的 UE进行 SPS调度。 The SPS group scheduling identifier, that is, the Paging-Radio Network Temporary Identity (P-RNTI) corresponding to the paging message is used as the SPS group scheduling identifier; or the first user equipment according to the pre-configured information. Obtaining the SPS group scheduling identifier. Step 12: The first UE receives the control signaling on the PDCCH, and demasks the control signaling according to the SPS group scheduling identifier, to obtain the de-masked control signaling including the SPS command. And configured to perform SPS scheduling on a UE in a packet where the first UE is located.
步骤 13: 所述第一 UE根据所述包含 SPS命令的解掩后的控制信令, 接 收 PDSCH上的媒体接入控制 (Media Access Control, MAC )协议数据单元 ( Protocol Data Unit, PDU ) , 所述 MAC PDU包括所述第一 UE所在分组内 至少一个 UE的数据包。  Step 13: The first UE receives a Media Access Control (MAC) Protocol Data Unit (PDU) on the PDSCH according to the demodulated control signaling that includes the SPS command. The MAC PDU includes a data packet of at least one UE in the packet where the first UE is located.
进一步地, 在步骤 13之后, 本实施例还可以进一步包括:  Further, after the step 13, the embodiment may further include:
第一 UE根据所述 SPS命令以及对所述控制信令和所述 MAC PDU的接收 情况, 在 SPS信息所指示的反馈资源上发送反馈信息或者不进行反馈。  The first UE sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information according to the SPS command and the receiving of the control signaling and the MAC PDU.
其中, 第一 UE可以采用如下方式获取 SPS信息:  The first UE may obtain the SPS information in the following manner:
所述第一用户设备接收网络设备发送的 RRC消息,所述 RRC消息中包含 所述 SPS信息, 所述 SPS信息包括: SPS周期、 物理上行控制信道 PUCCH反 馈资源。  The first user equipment receives an RRC message sent by the network device, where the RRC message includes the SPS information, where the SPS information includes: an SPS period, a physical uplink control channel PUCCH feedback resource.
具体如,当所述 PUCCH反馈资源是为所述第一 UE配置的专用的 PUCCH 反馈资源, 且所述 SPS命令为 SPS激活或修改命令时, 所述第一 UE根据所 述 SPS命令以及对所述控制信令和所述 MAC PDU的接收情况, 在 SPS信息 所指示的反馈资源上发送反馈信息或者不进行反馈, 包括:  For example, when the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the first UE, and the SPS command is an SPS activation or modification command, the first UE according to the SPS command and the The control signaling and the receiving of the MAC PDU, and the sending of the feedback information or the feedback on the feedback resource indicated by the SPS information includes:
如果所述第一 UE成功解掩所述控制信令, 且成功解码所述 MAC PDU, 则根据所述 SPS周期, 在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如 果所述第一 UE成功解掩所述控制信令, 但未成功解码所述 MAC PDU, 则根 据所述 SPS周期, 在所述 PUCCH反馈资源上反馈 NACK信息; 或者, 如果 所述第一 UE未成功解掩所述控制信令, 则不进行反馈。  If the first UE succeeds in de-masking the control signaling, and successfully decoding the MAC PDU, feeding back ACK information on the PUCCH feedback resource according to the SPS period; or, if the first UE succeeds Unmasking the control signaling, but failing to successfully decode the MAC PDU, and feeding back NACK information on the PUCCH feedback resource according to the SPS period; or if the first UE fails to unmask the control successfully Signaling, no feedback is made.
当所述 PUCCH反馈资源是为所述第一 UE配置的共享的 PUCCH反馈资 源, 且所述 SPS命令为 SPS激活或修改时, 所述第一 UE根据所述 SPS命令 以及对所述控制信令和所述 MAC PDU的接收情况, 在 SPS信息所指示的反 馈资源上发送反馈信息或者不进行反馈 SPS命令, 包括: When the PUCCH feedback resource is a shared PUCCH feedback resource configured for the first UE, and the SPS command is activated or modified by the SPS, the first UE is configured according to the SPS command. And sending the feedback information or not performing the feedback SPS command on the feedback resource indicated by the SPS information, and the receiving the control signaling and the MAC PDU, including:
如果所述第一 UE成功解掩所述控制信令,且成功解码所述 MAC PDU后 有自身对应的数据包, 则根据所述 SPS周期,在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如果所述第一 UE未成功解掩所述控制信令, 或, 如果所 述第一 UE成功解掩所述控制信令, 但未成功解码所述 MAC PDU, 或, 如果 所述第一 UE成功解掩所述控制信令, 且成功解码所述 MAC PDU, 但成功解 码后的 MAC PDU中无所述第一 UE对应的数据包, 则不进行反馈。  If the first UE succeeds in de-masking the control signaling, and successfully decodes the MAC PDU and has its own corresponding data packet, the ACK information is fed back on the PUCCH feedback resource according to the SPS period; or If the first UE does not successfully unmask the control signaling, or if the first UE successfully demasks the control signaling, but does not successfully decode the MAC PDU, or if the first UE The control signaling is successfully masked, and the MAC PDU is successfully decoded, but the data packet corresponding to the first UE is not included in the successfully decoded MAC PDU, and no feedback is performed.
当所述 PUCCH反馈资源是为所述第一 UE配置的专用的 PUCCH反馈资 源, 且所述 SPS命令为 SPS释放命令时, 所述第一 UE根据所述 SPS命令以 及对所述控制信令和所述 MAC PDU的接收情况, 在 SPS信息所指示的反馈 资源上发送反馈信息或者不进行反馈, 包括:  When the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the first UE, and the SPS command is an SPS release command, the first UE according to the SPS command and the control signaling and The sending of the MAC PDU, the sending of the feedback information or the feedback on the feedback resource indicated by the SPS information includes:
如果所述第一用户设备成功解掩所述控制信令, 则根据所述 SPS 周期, 在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如果所述第一 UE未成功 解掩所述控制信令, 则不进行反馈。  If the first user equipment successfully demasks the control signaling, feedback ACK information on the PUCCH feedback resource according to the SPS period; or if the first UE fails to unmask the control signal Order, no feedback.
进一步地, 本实施例还可以包括:  Further, this embodiment may further include:
所述第一 UE接收网络设备传输的数据包,所述传输的数据包为所述网络 设备在调度所述第一用户设备且接收到所述第一用户设备发送的反馈信息后 发送的, 所述反馈信息包括所述 ACK信息或所述 NACK信息;  Receiving, by the first UE, a data packet transmitted by the network device, where the transmitted data packet is sent by the network device after scheduling the first user equipment and receiving feedback information sent by the first user equipment, where The feedback information includes the ACK information or the NACK information;
或者,  Or,
所述第一 UE接收网络设备在 PDCCH上重传的加掩的控制信令, 所述重 传的加掩的控制信令为所述网络设备在没有接收到所述第一用户设备发送的 所述反馈信息后发送的。  The first UE receives the masked control signaling that is retransmitted by the network device on the PDCCH, where the re-transmitted masked control signaling is that the network device does not receive the first user equipment. Sent after the feedback information.
本实施例通过使用 PDCCH上传输的 SPS控制信令调度同一个分组的 UE, 使得多个 UE可以被同一个 PDCCH的控制信令进行 SPS激活、 修改或释放, 避免了频繁使用控制信令进行 SPS的激活、修改或者释放, 节省了 PDCCH资 源; 通过在 MAC PDU中包含属于同一个分组的 UE的多个数据包, 同时对多 个 UE的 SPS资源进行操作, 提高了系统容量及资源利用率。 In this embodiment, the UEs of the same group are scheduled by using the SPS control signaling transmitted on the PDCCH, so that multiple UEs can be SPS activated, modified, or released by the control signaling of the same PDCCH. Avoiding frequent use of control signaling to perform activation, modification, or release of SPS, saving PDCCH resources; by including multiple data packets of UEs belonging to the same packet in a MAC PDU, simultaneously operating SPS resources of multiple UEs, Increased system capacity and resource utilization.
图 2为本发明另一实施例的方法流程示意图, 包括:  2 is a schematic flowchart of a method according to another embodiment of the present invention, including:
步骤 21 :网络设备在 PDCCH上向第一 UE发送采用 SPS组调度标识加掩 的控制信令, 所述控制信令包含 SPS命令, 其中, 同一分组内的用户设备共 享一个 SPS组调度标识, 所述 SPS命令用于对所述第一用户设备所在分组内 的用户设备进行 SPS调度;  Step 21: The network device sends a control signaling that is masked by the SPS group scheduling identifier to the first UE on the PDCCH, where the control signaling includes an SPS command, where the user equipment in the same group shares an SPS group scheduling identifier. The SPS command is used to perform SPS scheduling on the user equipment in the group where the first user equipment is located;
该网络设备包括但不限于: eNB、 eNodeB。  The network device includes but is not limited to: an eNB, an eNodeB.
步骤 22: 所述网络设备在 PDSCH上向用户设备发送 MAC PDU, 所述 Step 22: The network device sends a MAC PDU to the user equipment on the PDSCH, where
MAC PDU包括所述第一用户设备所在分组内至少一个用户设备的数据包。 The MAC PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
在步骤 21之前, 本实施例还可以包括:  Before the step 21, the embodiment may further include:
所述网络设备向所述第一用户设备发送 RRC消息,所述 RRC消息中携带 网络设备为所述第一用户设备分配的 SPS组调度标识, 以便所述第一用户设 备根据所述 SPS组调度标识解掩所述控制信令; 或者, 所述网络设备向所述 第一用户设备发送寻呼消息, 所述寻呼消息中携带寻呼消息对应的组标识, 以 便所述第一用户设备根据所述组标识解掩所述控制信令。  The network device sends an RRC message to the first user equipment, where the RRC message carries an SPS group scheduling identifier that is allocated by the network device to the first user equipment, so that the first user equipment is scheduled according to the SPS group. Decrypting the control signaling; or: the network device sends a paging message to the first user equipment, where the paging message carries a group identifier corresponding to the paging message, so that the first user equipment is configured according to The group identifier demasks the control signaling.
进一步地, 本实施例还可以包括:  Further, this embodiment may further include:
所述网络设备根据所述第一用户设备的反馈情况获知所述第一 UE的接收 情况, 所述第一 UE的反馈情况包括: 在 SPS信息所指示的反馈资源上反馈信 息或者不进行反馈。  The network device learns the receiving situation of the first UE according to the feedback situation of the first user equipment, and the feedback situation of the first UE includes: feeding back information on the feedback resource indicated by the SPS information or not performing feedback.
其中 ,所述网络设备根据所述第一用户设备的反馈情况获知所述第一用户 设备的接收情况之前, 所述方法还可以包括: 所述网络设备向所述第一用户设 备发送 RRC消息, 所述 RRC消息中包含所述 SPS信息, 所述 SPS信息包括: SPS周期、 PUCCH反馈资源。 当所述 PUCCH反馈资源为用户设备的专用 PUCCH反馈资源,且所述 SPS 命令为 SPS 激活或修改命令时, 所述根据所述第一用户设备的反馈情况获知 所述第一用户设备的接收情况用户设备, 包括: 如果根据所述 SPS 周期, 在 所述 PUCCH反馈资源上接收到所述第一用户设备反馈的 ACK信息, 则获知 所述第一用户设备成功解掩所述控制信令,且成功解码所述 MAC PDU;或者, 如果根据所述 SPS周期,在所述 PUCCH反馈资源上接收到所述第一用户设备 反馈的 NACK信息, 则获知所述第一用户设备成功解掩所述控制信令, 但未 成功解码所述 MAC PDU;或者,如果接收不到所述第一用户设备反馈的信息, 则获知所述第一用户设备未成功解掩所述控制信令。 The method may further include: the network device sending an RRC message to the first user equipment, before the network device is configured to receive the first user equipment according to the feedback situation of the first user equipment, where The SPS information is included in the RRC message, and the SPS information includes: an SPS period and a PUCCH feedback resource. When the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command, the receiving, by the first user equipment, the receiving situation of the first user equipment is obtained. The user equipment, if the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling, and Successfully decoding the MAC PDU; or, if the NACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully unmasks the control Signaling, but the MAC PDU is not successfully decoded; or if the information fed back by the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling.
当所述 PUCCH反馈资源为用户设备共享的 PUCCH反馈资源,且所述 SPS 命令为 SPS 激活或修改时, 所述根据所述第一用户设备的反馈情况获知所述 第一用户设备的接收情况用户设备, 包括: 如果根据所述 SPS周期, 在所述 PUCCH反馈资源上接收到所述第一用户设备反馈的 ACK信息, 则获知所述 第一用户设备成功解掩所述控制信令,且成功解码所述 MAC PDU后, 所述解 码的所述 MAC PDU中有所述第一用户设备对应的数据包; 或者,如果接收不 到所述第一用户设备反馈的信息,则获知所述第一用户设备未成功解掩所述控 制信令, 或, 所述第一用户设备成功解掩所述控制信令, 但未成功解码所述 MAC PDU, 或, 所述第一用户设备成功解掩所述控制信令, 且成功解码所述 MAC PDU,但成功解码后的 MAC PDU中无所述第一用户设备对应的数据包。  When the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is activated or modified by the SPS, the user of the first user equipment is informed according to the feedback situation of the first user equipment. The device includes: if the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully unmasks the control signaling, and succeeds After decoding the MAC PDU, the decoded MAC PDU includes a data packet corresponding to the first user equipment; or, if the information fed back by the first user equipment is not received, the first The user equipment does not successfully unmask the control signaling, or the first user equipment successfully unmasks the control signaling, but the MAC PDU is not successfully decoded, or the first user equipment successfully decrypts the The control signaling is performed, and the MAC PDU is successfully decoded, but the data packet corresponding to the first user equipment is not in the successfully decoded MAC PDU.
当所述 PUCCH反馈资源为用户设备共享的 PUCCH反馈资源,且所述 SPS 命令为 SPS释放命令时, 所述根据所述第一用户设备的反馈情况获知所述第 一用户设备的接收情况用户设备, 包括: 如果根据所述 SPS 周期, 在所述 PUCCH反馈资源上接收到第一用户设备反馈的 ACK信息, 则获知所述第一 用户设备成功解掩所述控制信令; 或者,如果没有接收到第一用户设备的反馈 信息, 则获知所述第一用户设备未成功解掩所述控制信令。 本实施例还可以包括:如果所述网络设备接收到所述第一用户设备发送的 反馈信息, 则根据 SPS 资源传输所述第一用户设备的数据包, 所述反馈信息 包括所述 ACK信息或 NACK信息; 或者, 如果所述网络设备没有接收到所述 第一用户设备反馈的信息, 则在 PDCCH上向所述第一用户设备重新发送加掩 的控制信令。 When the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is an SPS release command, the user equipment of the first user equipment is obtained according to the feedback situation of the first user equipment. The method includes: if the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling; or if not received The feedback information to the first user equipment is used to learn that the first user equipment does not successfully unmask the control signaling. The embodiment may further include: if the network device receives the feedback information sent by the first user equipment, transmitting the data packet of the first user equipment according to the SPS resource, where the feedback information includes the ACK information or NACK information; or, if the network device does not receive the information fed back by the first user equipment, re-send the masked control signaling to the first user equipment on the PDCCH.
图 3为本发明另一实施例的方法流程示意图,本实施例以 PUCCH反馈资 源为基站配置给 UE的专用的反馈资源为例。 参见图 3 , 本实施例包括:  FIG. 3 is a schematic flowchart of a method according to another embodiment of the present invention. In this embodiment, a PUCCH feedback resource is used as an example for configuring a dedicated feedback resource for a UE to a UE. Referring to FIG. 3, this embodiment includes:
步骤 31 : eNB向 UE下发 RRC消息, 该 RRC消息中包含为 UE配置的 SPS信息。  Step 31: The eNB sends an RRC message to the UE, where the RRC message includes SPS information configured for the UE.
其中, 该 SPS信息包括: SPS周期和 PUCCH反馈资源。 本实施例中, 为 该 UE配置专用的 PUCCH反馈资源, 即, 组内每个 UE都有自己的 PUCCH 反馈资源。 UE识别是否为自己配置了专用的 PUCCH反馈资源的方法包括但 不限于如下几种: eNB在 RRC消息指示该 PUCCH反馈资源是否为 UE专用, 或增加新分配非专用的 (即组内共享的) PUCCH反馈资源的参数, 如果使用 现有参数分配的 PUCCH资源, 则是 UE的专用资源, 如果是通过新的参数分 配的 PUCCH资源, 则不是 UE的专用资源; 或当 eNB在 RRC消息中指示的 PUCCH数量为 1时, UE认为所述 PUCCH反馈资源是 UE专用的, 当数量大 于 1时, 认为不是专用的。  The SPS information includes: an SPS period and a PUCCH feedback resource. In this embodiment, a dedicated PUCCH feedback resource is configured for the UE, that is, each UE in the group has its own PUCCH feedback resource. The method for the UE to identify whether the dedicated PUCCH feedback resource is configured for itself includes, but is not limited to, the following: The eNB indicates whether the PUCCH feedback resource is UE-specific in the RRC message, or adds a new allocation non-dedicated (ie, shared within the group) The parameter of the PUCCH feedback resource, if the PUCCH resource allocated by the existing parameter is used, is a dedicated resource of the UE, and if it is a PUCCH resource allocated by the new parameter, it is not a dedicated resource of the UE; or when the eNB indicates in the RRC message When the number of PUCCHs is 1, the UE considers that the PUCCH feedback resources are UE-specific, and when the number is greater than 1, it is considered not to be dedicated.
另外, 也可以通过 RRC消息为 UE配置 SPS组调度标识(如 Group-SPS -RNTI ) , 或者, SPS组调度标识也可以是寻呼消息对应的组标识, 由于寻呼 消息中自带组标识, 因此可以直接将该组标识作为 SPS组调度标识; 也可以 是采用静态配置的方式, 预先配置在 UE侧的。 UE可以采用 SPS组调度标识 解掩出对应自身的控制信令, 以便根据解掩的控制信令进行数据接收。  In addition, the SPS group scheduling identifier (such as the Group-SPS-RNTI) may be configured for the UE by using the RRC message, or the SPS group scheduling identifier may also be the group identifier corresponding to the paging message, because the paging message has a group identifier. Therefore, the group identifier may be directly used as the SPS group scheduling identifier; or may be configured in the static configuration manner and configured in advance on the UE side. The UE may use the SPS group scheduling identifier to mask the control signaling corresponding to itself, so as to perform data reception according to the demodulated control signaling.
步骤 32: eNB在 PDCCH上发送经过加掩的控制信令, 该控制信令中包 含 SPS命令, 其中,该 SPS命令用于对所述 UE所在分组内的 UE进行 SPS调 度。 另外, eNB 在物理下行共享信道 ( Physical Downlink Shared Channel, PDSCH )上发送 MAC PDU, 该 MAC PDU中包含该 UE所在分组的至少一个 UE的数据包,该数据包可以为一个或多个 MAC服务数据单元( MAC Service Data Unit, SDU )和 /或一个或多个 MAC控制单元 ( MAC Control Elements, CE ) 。 Step 32: The eNB sends the masked control signaling on the PDCCH, where the control signaling includes an SPS command, where the SPS command is used to perform SPS adjustment on the UE in the group where the UE is located. Degree. In addition, the eNB sends a MAC PDU on a Physical Downlink Shared Channel (PDSCH), where the MAC PDU includes a data packet of at least one UE of the packet where the UE is located, and the data packet may be one or more MAC service data. A MAC Service Data Unit (SDU) and/or one or more MAC Control Elements (CE).
其中, SPS命令包括: SPS激活 /修改命令和 SPS释放命令。 可以采用现 有 PDCCH上传输的控制信令中的一个或多个域表明该 SPS命令是 SPS激活 / 修改命令, 还是 SPS释放命令。 例如, 当 NDI=0, 表示 SPS激活 /修改命令, 当 NDI=1 , 表示 SPS释放命令。  The SPS commands include: SPS activation/modification commands and SPS release commands. One or more of the control signaling transmitted on the existing PDCCH may be used to indicate whether the SPS command is an SPS activation/modification command or an SPS release command. For example, when NDI=0, it means that the SPS activates/modifies the command, and when NDI=1, it means the SPS release command.
本发明实施例中, 可以实现基于组的 SPS调度, 即需要调度的 UE的个数 多于一个时,可以通过 PDCCH传输的控制信令同时激活 /修改或者释放该组内 的 UE。  In the embodiment of the present invention, group-based SPS scheduling may be implemented. When the number of UEs to be scheduled is more than one, the UEs in the group may be simultaneously activated/modified or released through the control signaling transmitted by the PDCCH.
步骤 33: UE监听 PDCCH, 采用 SPS组调度标识解掩在 PDCCH上传输 的控制信令, 其中,同一分组内的 UE共享一个 SPS组调度标识。 其中, UE侧 的 SPS组调度标识可以是 eNB采用 RRC消息配置给 UE的,也可以是寻呼消 息对应的组标识, 也可以是预先配置在 UE中的。  Step 33: The UE monitors the PDCCH, and uses the SPS group scheduling identifier to demask the control signaling transmitted on the PDCCH. The UEs in the same group share one SPS group scheduling identifier. The SPS group scheduling identifier of the UE side may be configured by the eNB to the UE by using an RRC message, or may be a group identifier corresponding to the paging message, or may be pre-configured in the UE.
步骤 34: UE根据所述解掩后的控制信令, 接收 PDSCH上的 MAC PDU, 所述 MAC PDU包括所述 UE所在分组内至少一个 UE的数据包。  Step 34: The UE receives the MAC PDU on the PDSCH according to the demodulated control signaling, where the MAC PDU includes a data packet of at least one UE in the packet where the UE is located.
其中, 解掩后的控制信令中包含 UE对应的物理信道资源, 以便 UE可以 到对应的 PDSCH上接收数据。  The demodulated control signaling includes a physical channel resource corresponding to the UE, so that the UE can receive data on the corresponding PDSCH.
具体地, 配置了 SPS信息的 UE在获取到 SPS命令后, 可以进行相应的 SPS接收操作。 例如, 如果 SPS命令为激活 /修改命令, 则 UE在接收到 SPS 激活 /修改命令后, 则从接收到 SPS激活 /修改命令的时间点或 SPS激活 /修改 命令中指示的时间点开始, 以上述配置的 SPS 周期为周期, 周期性的尝试在 SPS命令中指示的 PDSCH资源上以 SPS命令指示的方式(如所使用的调制编 码方式, 所传输的数据块的大小等)进行数据接收, 并根据数据接收情况使用 上述配置的 PUCCH资源进行反馈。如果 SPS命令为 SPS释放命令, 则 UE后 续不再进行接收。 Specifically, after acquiring the SPS command, the UE configured with the SPS information may perform a corresponding SPS receiving operation. For example, if the SPS command is an activation/modification command, after receiving the SPS activation/modification command, the UE starts from the time point when the SPS activation/modification command is received or the time point indicated in the SPS activation/modification command, The configured SPS period is a period, and the periodic attempt is made in the manner indicated by the SPS command on the PDSCH resource indicated in the SPS command (such as the modulation used) The code mode, the size of the transmitted data block, and the like are received, and feedback is performed using the PUCCH resource configured as described above according to the data reception condition. If the SPS command is an SPS release command, the UE does not receive the subsequent.
步骤 35: UE根据所述 SPS命令以及对所述控制信令和所述 MAC PDU的 接收情况, 在预先获取的 SPS信息所指示的反馈资源上发送反馈信息或者不 进行反馈。  Step 35: The UE sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information acquired in advance according to the SPS command and the receiving of the control signaling and the MAC PDU.
例如, 当 SPS命令为 SPS激活 /修改命令时, 如果 UE成功解掩 PDCCH 上传输的控制信令, 且成功解码 PDSCH传输的 MAC PDU, 则不论成功解码 后的 MAC PDU中是否有自己的数据包, 则通过上述配置的 PUCCH向 eNB 反馈 ACK信息; 如果 UE成功解掩 PDCCH携带的控制信令, 但未成功解码 PDSCH携带的 MAC PDU, 则通过上述配置的 PUCCH向 eNB反馈 NACK信 息; 如果 UE未成功解掩 PDCCH携带的控制信令, 则不进行反馈。  For example, when the SPS command is an SPS activation/modification command, if the UE successfully demodulates the control signaling transmitted on the PDCCH and successfully decodes the MAC PDU transmitted by the PDSCH, whether the MAC PDU successfully decoded has its own data packet or not The ACK information is fed back to the eNB through the PUCCH configured as described above. If the UE successfully decodes the control signaling carried by the PDCCH but fails to successfully decode the MAC PDU carried by the PDSCH, the NACK information is fed back to the eNB through the configured PUCCH; If the control signaling carried by the PDCCH is successfully masked, no feedback is performed.
再例如, 如果 SPS命令为 SPS释放命令时, 则根据控制信令的接收情况 进行反馈, 例如, 当 UE成功接收到该控制信令, 即 UE成功解掩出控制信令, 则反馈 ACK信息, 否则, 不进行反馈。  For example, if the SPS command is an SPS release command, feedback is performed according to the reception condition of the control signaling. For example, when the UE successfully receives the control signaling, that is, the UE successfully unmasks the control signaling, the ACK information is fed back. Otherwise, no feedback is made.
步骤 36: eNB根据 UE的反馈情况进行相应处理。  Step 36: The eNB performs corresponding processing according to the feedback situation of the UE.
例如, 如果调度了所述 UE的数据: 收到 ACK则认为控制信令和数据都 被 UE成功接收; 如果收到 NACK, 则认为 UE只接收到 PDCCH没有解出 PDSCH; 如果什么也没有收到, 则认为 UE没有收到 PDCCH。 在收到 ACK 或 NACK后, 认为 UE接收到 PDCCH, 后续可以使用组 SPS资源传输该 UE 的数据; 如果什么也没有收到, 则认为 UE没有收到 PDCCH, 后续不能在该 PDCCH上传输的 SPS命令通知的 SPS资源上传输该 UE的数据。 可选的, 为 了提高可靠性, 当某个或某些 UE没有反馈时, eNB会重新发送 PDCCH上的 SPS激活命令进行激活, 对于已经收到该 SPS激活命令的 UE, 可以将该 SPS 激活命令理解成 SPS修改命令。 其中, 当 SPS成功激活或修改之后, UE在后续成功接收到在该 SPS激活 /修改命令指示的 PDSCH资源上传输的 MAC PDU且该 MAC PDU中有自己的 数据, 在预设的 PUCCH资源反馈 ACK, 如果成功接收到 MAC PDU但没有 自己的数据, 可以不反馈或反馈 NACK或反馈 ACK, 如果 UE没有成功接收 到 MAC PDU, 则可以不反馈, 或反馈 NACK; 同时, UE如果没有成功解出 MAC PDU, 可以监听可能的 SPS组调度标识加掩的调度重传的控制信令, 进 行 SPS 重传, 并在预配置的 PUCCH 资源上或在根据控制信令所占的 CCE ( Control Channel Element, 控制信道单位) 的相对位置进行相应反馈。 相应 的, 在 eNB侧, 如果 eNB没有调度所述 UE的数据, 则 eNB可以忽略该 UE 的反馈。 For example, if the data of the UE is scheduled: the control signaling and the data are all successfully received by the UE when the ACK is received; if the NACK is received, the UE is considered to receive only the PDCCH and the PDSCH is not solved; if nothing is received , it is considered that the UE does not receive the PDCCH. After receiving the ACK or the NACK, it is considered that the UE receives the PDCCH, and then the group SPS resource can be used to transmit the data of the UE; if nothing is received, the UE is considered not to receive the PDCCH, and the subsequent SPS cannot be transmitted on the PDCCH. The data of the UE is transmitted on the SPS resource notified by the command. Optionally, in order to improve reliability, when some or some UEs do not have feedback, the eNB re-sends the SPS activation command on the PDCCH to activate, and for the UE that has received the SPS activation command, the SPS activation command may be used. Understand the SPS modification command. After the SPS is successfully activated or modified, the UE successfully receives the MAC PDU transmitted on the PDSCH resource indicated by the SPS activation/modification command, and the MAC PDU has its own data, and the ACK is received in the preset PUCCH resource. If the MAC PDU is successfully received but does not have its own data, it may not feed back or feed back NACK or feedback ACK. If the UE does not successfully receive the MAC PDU, it may not feed back or feed back NACK. Meanwhile, if the UE does not successfully solve the MAC address, The PDU can monitor the control signaling of the scheduled SPS group scheduling identifier and mask the retransmission, perform SPS retransmission, and control the CCE (Control Channel Element) on the pre-configured PUCCH resource or according to the control signaling. The relative position of the channel unit is fed back accordingly. Correspondingly, on the eNB side, if the eNB does not schedule data of the UE, the eNB may ignore the feedback of the UE.
其中, 当 eNB调度了某 UE的数据且接收到 UE反馈的 NACK,则可以进 行调度重传, 当 eNB重传某个或某些 UE的数据时, 可以继续使用组调度的 方式调度 UE的数据, 或者通知专用调度的方式重传 UE的数据。  When the eNB schedules the data of a certain UE and receives the NACK that the UE feeds back, the eNB may perform the scheduling retransmission. When the eNB retransmits the data of the certain UE or some UEs, the eNB may continue to use the group scheduling manner to schedule the data of the UE. , or notify the dedicated scheduling method to retransmit the UE data.
如果 UE退出了该组, 或 UE对应的 SPS业务被释放, 则该 UE不需要再 监听组 SPS调度, 可以是 eNB通过信令显式通知给 UE, 也可以是 UE根据配 置进行判断。  If the UE quits the group, or the SPS service corresponding to the UE is released, the UE does not need to listen to the group SPS scheduling, and the eNB may explicitly notify the UE by using signaling, or the UE may determine according to the configuration.
值的注意的是, 由于不同 UE的业务不同, SPS周期也不同, 但在满足一 定条件下, 组 SPS调度可以实现不同 SPS周期的多个 UE的 SPS组调度。 比 如,有些 UE是 20ms的 SPS周期,有些 UE是 40ms的 SPS周期,使用组 SPS 调度时, 使用 20ms的 SPS周期的 UE只需要在激活时间点 +20ms整数倍的时 刻进行数据接收, 而使用 40ms的 SPS周期的 UE只需要在激活时间点 +40ms 整数倍的时刻进行数据接收。  The value of the SPS period is different because the services of different UEs are different. However, under certain conditions, the SPS scheduling of the group can implement SPS group scheduling of multiple UEs in different SPS periods. For example, some UEs are SPS periods of 20 ms, and some UEs are SPS periods of 40 ms. When using group SPS scheduling, UEs using SPS periods of 20 ms only need to receive data at the time of integer multiple of +20 ms at the activation time point, and use 40 ms. The UE of the SPS cycle only needs to receive data at the time of an integral multiple of +40 ms at the activation time point.
通常情况下, 同一个 UE组 SPS调度和专用的 SPS调度(以 SPS-RNTI 加掩)不能同时激活。 但专用 SPS调度信令的优先级比组 SPS调度优化级高, 即: 当 UE正在使用专用的 SPS调度进行数据接收时, UE不再监听组 SPS调 度的信令和数据; Normally, the same UE group SPS scheduling and dedicated SPS scheduling (with SPS-RNTI masking) cannot be activated at the same time. However, the priority of dedicated SPS scheduling signaling is higher than the group SPS scheduling optimization level, namely: When the UE is using dedicated SPS scheduling for data reception, the UE no longer listens to the signaling and data scheduled by the group SPS;
当 UE正在使用组 SPS进行调度时, 可以使用专用的 SPS释放命令进行 修改或释放; 当为修改时, eNB和 UE按照专用 SPS命令进行 SPS传输, 后 续与现有技术相同, UE也不再监听组 SPS调度的信令和数据; 当为释放时, UE也不再接收之前使用组 SPS命令所对应的数据,除非 UE再次监听到组 SPS 激活命令。  When the UE is using the group SPS for scheduling, the dedicated SPS release command may be used for modification or release. When the modification is performed, the eNB and the UE perform SPS transmission according to the dedicated SPS command, and subsequently, the UE does not listen to the same as the prior art. The group SPS schedules signaling and data; when released, the UE does not receive the data corresponding to the previous group SPS command unless the UE listens to the group SPS activation command again.
由于使用 SPS调度方式的业务通常数据量比较少, 所以将多个需要使用 SPS调度的 UE组成一组, 使用组调度, 能在减少 PDCCH开销的基础上, 进 一步提高 PDSCH的资源利用率。  Since the service using the SPS scheduling mode usually has a small amount of data, a plurality of UEs that need to use SPS scheduling are grouped together, and group scheduling is used, which can further improve the resource utilization of the PDSCH on the basis of reducing the PDCCH overhead.
图 4为本发明另一实施例的方法流程示意图,本实施例以 PUCCH反馈资 源为基站配置给 UE的共享的反馈资源为例。 参见图 4, 本实施例包括:  FIG. 4 is a schematic flowchart of a method according to another embodiment of the present invention. In this embodiment, a PUCCH feedback resource is used as an example for a shared feedback resource configured by a base station to a UE. Referring to FIG. 4, this embodiment includes:
步骤 41 : eNB向 UE下发 RRC消息, 该 RRC消息中包含为 UE配置的 SPS信息。  Step 41: The eNB sends an RRC message to the UE, where the RRC message includes SPS information configured for the UE.
与步骤 31不同的是, 本实施例中配置的 PUCCH反馈资源是所述组内的 Different from step 31, the PUCCH feedback resource configured in this embodiment is in the group.
UE共享的。 Shared by the UE.
步骤 42: eNB在 PDCCH上发送经过加掩的控制信令, 该控制信令中包 含 SPS命令, 其中,该 SPS命令用于对所述 UE所在分组内的 UE进行 SPS调 度。 另夕卜, eNB在 PDSCH上发送 MAC PDU, 该 MAC PDU中包含该 UE所 在分组的至少一个 UE的数据包, 该数据包可以为一个或多个 MAC SDU和 / 或一个或多个 MAC CE。 步骤 43: UE监听 PDCCH, 采用 SPS组调度标识解掩在 PDCCH上传输 的控制信令, 其中,同一分组内的 UE共享一个 SPS组调度标识。  Step 42: The eNB sends the masked control signaling on the PDCCH, where the control signaling includes an SPS command, where the SPS command is used to perform SPS scheduling on the UE in the packet where the UE is located. In addition, the eNB sends a MAC PDU on the PDSCH, where the MAC PDU includes a data packet of at least one UE of the packet that the UE is in, and the data packet may be one or more MAC SDUs and/or one or more MAC CEs. Step 43: The UE monitors the PDCCH, and uses the SPS group scheduling identifier to demask the control signaling transmitted on the PDCCH, where the UEs in the same group share one SPS group scheduling identifier.
步骤 44: UE根据所述解掩后的控制信令, 接收 PDSCH上的 MAC PDU, 所述 MAC PDU包括所述 UE所在分组内至少一个 UE的数据包。 步骤 42-44的具体内容可以参见步骤 32-34。 Step 44: The UE receives a MAC PDU on the PDSCH according to the demodulated control signaling, where the MAC PDU includes a data packet of at least one UE in the packet where the UE is located. For details of steps 42-44, see steps 32-34.
步骤 45: UE根据所述 SPS命令以及对所述控制信令和所述 MAC PDU的 接收情况, 在预先获取的 SPS信息所指示的反馈资源上发送反馈信息或者不 进行反馈。  Step 45: The UE sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information acquired in advance according to the SPS command and the receiving of the control signaling and the MAC PDU.
例如, 当 SPS命令为 SPS激活 /修改命令时, 如果 UE成功解掩 PDCCH 上发送的控制信令, 且成功解码 PDSCH传输的 MAC PDU, 并且, 成功解码 后的 MAC PDU中有自己的数据包, 则通过上述配置的 PUCCH反馈资源向 eNB反馈 ACK信息; 如果 UE成功解掩 PDCCH上传输的控制信令, 且成功 解码 PDSCH上传输的 MAC PDU, 但是, 成功解码后的 MAC PDU中没有自 己的数据包, 或者, 如果 UE成功解掩 PDCCH携带的控制信令, 但未成功解 码 PDSCH携带的 MAC PDU, 或者, 如果 UE未成功解掩 PDCCH携带的控 制信令, 则不进行反馈。  For example, when the SPS command is an SPS activation/modification command, if the UE successfully unmasks the control signaling sent on the PDCCH and successfully decodes the MAC PDU transmitted by the PDSCH, and the successfully decoded MAC PDU has its own data packet, Then, the ACK information is fed back to the eNB through the PUCCH feedback resource configured as described above; if the UE successfully de-masks the control signaling transmitted on the PDCCH, and successfully decodes the MAC PDU transmitted on the PDSCH, but the successfully decoded MAC PDU does not have its own data. If the UE successfully unmasks the control signal carried by the PDCCH, but does not successfully decode the MAC PDU carried by the PDSCH, or if the UE does not successfully unmask the control signaling carried by the PDCCH, no feedback is performed.
由于 PUCCH是共享的, 通常采用专用的 SPS释放命令释放 UE的资源。 本实施例中, UE在后续成功接收到在该 SPS激活 /修改命令指示的 PDSCH 资源上传输的 MAC PDU且该 MAC PDU中有自己的数据,在通过计算得到的 对应 PUCCH资源反馈 ACK, 如果成功接收到 MAC PDU但没有自己的数据, 或者, 如果 UE没有成功接收到 MAC PDU, 则不反馈; 同时, UE如果没有 成功解出 MAC PDU, 可以监听可能的组 SPS重传, 并在预配置的 PUCCH资 源上或在根据控制信令所占的 CCE ( Control Channel Element, 控制信道单位 ) 的相对位置进行相应反馈。 比如, 上面预配置了 10个 PUCCH资源, 当前调度的 UE数据为 2个, 则第一个 UE使用第一个 PUCCH资源, 第二个 UE使用第二个 PUCCH资源。  Since the PUCCH is shared, the UE's resources are usually released using a dedicated SPS release command. In this embodiment, the UE successfully receives the MAC PDU transmitted on the PDSCH resource indicated by the SPS activation/modification command, and the MAC PDU has its own data, and the ACK is fed back to the corresponding PUCCH resource obtained through calculation. If the MAC PDU is received but does not have its own data, or if the UE does not successfully receive the MAC PDU, it does not feed back; meanwhile, if the UE does not successfully resolve the MAC PDU, it can listen to the possible group SPS retransmission and is pre-configured. Corresponding feedback is made on the PUCCH resource or in the relative position of the CCE (Control Channel Element) according to the control signaling. For example, if 10 PUCCH resources are pre-configured, and the currently scheduled UE data is 2, the first UE uses the first PUCCH resource, and the second UE uses the second PUCCH resource.
步骤 46: eNB根据 UE的反馈情况进行相应处理。  Step 46: The eNB performs corresponding processing according to the feedback situation of the UE.
例如, 如果 eNB发送了控制信令且调度了某 UE的数据: 收到 ACK则认 为控制信令和数据都被 UE成功接收; 否则, 认为 UE没有收到 PDCCH, 后 续不能再该命令通知的 SPS资源上传输该 UE的数据。 为了提高可靠性, 当某 个或某些 UE没有反馈时, eNB会重新发送 PDCCH命令进行激活, 对于已经 收到该命令的 UE, 可以将该命令理解成修改命令。 For example, if the eNB sends control signaling and schedules data of a certain UE: If the ACK is received, the control signaling and the data are considered to be successfully received by the UE; otherwise, the UE is considered not to receive the PDCCH. The data of the UE may not be transmitted on the SPS resource notified by the command. To improve reliability, when some or some UEs do not have feedback, the eNB re-sends the PDCCH command for activation. For the UE that has received the command, the command can be understood as a modification command.
再例如, 如果之前已经为 UE发送了控制信令且根据上面判断 UE已经成 功接收到该控制信令, 当前只是在所述控制信令指示的资源上传输数据, 则 eNB做如下判断: 如果 eNB调度了某 UE的数据, 收到 ACK则认为数据都被 UE成功接收; 如果没有收到反馈, 则认为数据没有被 UE成功接收到, 需要 调度重传; 如果 eNB没有调度某 UE的数据, 则 eNB可以忽略该 UE的反馈。  For example, if the control signaling has been previously sent to the UE and the UE has successfully received the control signaling according to the above, and currently only transmits data on the resource indicated by the control signaling, the eNB makes the following determination: The data of a certain UE is scheduled, and if the ACK is received, the data is successfully received by the UE; if no feedback is received, the data is not successfully received by the UE, and retransmission needs to be scheduled; if the eNB does not schedule data of a certain UE, The eNB can ignore the feedback of the UE.
当 eNB重传某个或某些 UE的数据时, 可以继续使用组调度的方式调度 UE的数据, 或者通知专用调度的方式重传 UE的数据。  When the eNB retransmits data of a certain UE or some UEs, the eNB may continue to use the group scheduling manner to schedule data of the UE, or notify the dedicated scheduling manner to retransmit the data of the UE.
本实施例中, UE在后续接收到在该 SPS资源上的 PDSCH且有自己的数 据后, 在通过计算得到的对应的 PUCCH资源进行反馈; 同时, UE可以监听 可能的组 SPS重传, 并进行相应反馈。  In this embodiment, after receiving the PDSCH on the SPS resource and having its own data, the UE performs feedback on the calculated corresponding PUCCH resource; at the same time, the UE may listen to the possible group SPS retransmission and perform the Corresponding feedback.
如果 UE退出了该组, 或 UE对应的 SPS业务被释放, 则该 UE不需要再 监听组 SPS调度, 可以通过信令显式通知, 也可以根据配置进行判断。  If the UE quits the group, or the SPS service corresponding to the UE is released, the UE does not need to listen to the SPS scheduling of the group, and may be explicitly notified by signaling, or may be determined according to the configuration.
值的注意的是, 由于不同 UE的业务不同, SPS周期也不同, 但在满足一 定条件下, 组 SPS调度可以实现不同 SPS周期的多个 UE的 SPS组调度。 比 如,有些 UE是 20ms的 SPS周期,有些 UE是 40ms的 SPS周期,使用组 SPS 调度时, 使用 20ms的 SPS周期的 UE只需要在激活时间点 +20ms整数倍的时 刻进行数据接收, 而使用 40ms的 SPS周期的 UE只需要在激活时间点 +40ms 整数倍的时刻进行数据接收。  The value of the SPS period is different because the services of different UEs are different. However, under certain conditions, the SPS scheduling of the group can implement SPS group scheduling of multiple UEs in different SPS periods. For example, some UEs are SPS periods of 20 ms, and some UEs are SPS periods of 40 ms. When using group SPS scheduling, UEs using SPS periods of 20 ms only need to receive data at the time of integer multiple of +20 ms at the activation time point, and use 40 ms. The UE of the SPS cycle only needs to receive data at the time of an integral multiple of +40 ms at the activation time point.
通常情况下, 同一个 UE组 SPS调度和专用的 SPS调度(以 SPS-RNTI 加掩)不能同时激活。 但专用 SPS调度信令的优先级比组 SPS调度优化级高, 即:  Normally, the same UE group SPS scheduling and dedicated SPS scheduling (with SPS-RNTI masking) cannot be activated at the same time. However, the priority of dedicated SPS scheduling signaling is higher than the group SPS scheduling optimization level, namely:
当 UE正在使用专用的 SPS调度进行数据接收时, UE不再监听组 SPS调 度的信令和数据; When the UE is using dedicated SPS scheduling for data reception, the UE no longer listens to the group SPS tone. Degree of signaling and data;
当 UE正在使用组 SPS进行调度时, 可以使用专用的 SPS释放命令进行 修 1/释放; 修改后, eNB和 UE按照专用 SPS命令进行 SPS传输, 后续与现 有技术相同, UE也不再监听组 SPS调度的信令和数据; 释放后, UE也不再 接收之前使用组 SPS命令所对应的数据, 除非 UE再次监听到组 SPS激活命 令。  When the UE is using the group SPS for scheduling, the dedicated SPS release command can be used to perform the 1/release; after the modification, the eNB and the UE perform the SPS transmission according to the dedicated SPS command, and the UE is no longer listening to the group. After the SPS schedules the signaling and data; after release, the UE does not receive the data corresponding to the previous group SPS command unless the UE listens to the group SPS activation command again.
由于使用 SPS调度方式的业务通常数据量比较少, 所以将多个需要使用 SPS调度的 UE组成一组, 使用组调度, 能在减少 PDCCH开销的基础上, 进 一步提高 PDSCH的资源利用率。  Since the service using the SPS scheduling mode usually has a small amount of data, a plurality of UEs that need to use SPS scheduling are grouped together, and group scheduling is used, which can further improve the resource utilization of the PDSCH on the basis of reducing the PDCCH overhead.
对应上述方法实施例,图 5为本发明另一实施例提供的用户设备的结构示 意图, 用于实施上述方法实施例中对应的步骤, 包括获取模块 51、 解掩模块 52和接收模块 53; 获取模块 51用于获取 SPS组调度标识, 其中, 所述用户 设备与同一分组内的其它用户设备共享一个 SPS组调度标识; 解掩模块 52用 于接收 PDCCH上加掩的控制信令,根据所述 SPS组调度标识解掩所述控制信 令, 得到包含 SPS命令的解掩后的控制信令用户设备, 其中, 所述 SPS命令 用于对所述用户设备所在分组内的用户设备进行 SPS调度; 接收模块 53用于 根据所述包含 SPS命令的解掩后的控制信令, 接收物理下行共享信道 PDSCH 上的媒体接入控制 MAC协议数据单元 PDU, 所述 MAC PDU包括所述用户 设备所在分组内至少一个用户设备的数据包。  Corresponding to the foregoing method embodiment, FIG. 5 is a schematic structural diagram of a user equipment according to another embodiment of the present invention, which is used to implement the corresponding steps in the foregoing method, including an obtaining module 51, a demasking module 52, and a receiving module 53. The module 51 is configured to acquire an SPS group scheduling identifier, where the user equipment shares an SPS group scheduling identifier with other user equipments in the same group; the demasking module 52 is configured to receive control signaling on the PDCCH, according to the The SPS group scheduling identifier de-masks the control signaling, and obtains a de-masked control signaling user equipment that includes an SPS command, where the SPS command is used to perform SPS scheduling on the user equipment in the packet where the user equipment is located; The receiving module 53 is configured to receive, according to the demodulated control signaling that includes the SPS command, a media access control MAC protocol data unit PDU on the physical downlink shared channel PDSCH, where the MAC PDU includes the packet in the user equipment. A packet of at least one user device.
本实施还可以包括反馈模块, 反馈模块用于根据所述 SPS命令以及对所 述控制信令和所述 MAC PDU的接收情况, 在 SPS信息所指示的反馈资源上 发送反馈信息或者不进行反馈.  The implementation may further include a feedback module, configured to send feedback information or not feedback on the feedback resource indicated by the SPS information according to the SPS command and the receiving of the control signaling and the MAC PDU.
其中,当所述 PUCCH反馈资源为所述用户设备的专用 PUCCH反馈资源, 且所述 SPS命令为 SPS激活或修改命令时, 该反馈模块可以具体用于如果所 述用户设备成功解掩所述控制信令, 且成功解码所述 MAC PDU, 则根据所述 SPS周期, 在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如果所述用户 设备成功解掩所述控制信令, 但未成功解码所述 MAC PDU, 则根据所述 SPS 周期, 在所述 PUCCH反馈资源上反馈 NACK信息; 或者, 如果所述用户设 备未成功解掩所述控制信令, 则不进行反馈; The feedback module may be specifically used if the user equipment successfully unmasks the control when the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command. Signaling, and successfully decoding the MAC PDU, according to the In the SPS period, the ACK information is fed back on the PUCCH feedback resource; or, if the user equipment successfully demasks the control signaling but fails to successfully decode the MAC PDU, according to the SPS period, in the PUCCH The NACK information is fed back on the feedback resource; or, if the user equipment does not successfully unmask the control signaling, no feedback is performed;
当所述 PUCCH反馈资源是为所述用户设备配置的共享的 PUCCH反馈资 源, 且所述 SPS命令为 SPS激活或修改时, 所述反馈模块具体用于: 如果所 述用户设备成功解掩所述控制信令,且成功解码所述 MAC PDU后有自身对应 的数据包,则根据所述 SPS周期,在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如果所述用户设备未成功解掩所述控制信令, 或, 如果所述用户设备成 功解掩所述控制信令, 但未成功解码所述 MAC PDU, 或, 如果所述用户设备 成功解掩所述控制信令, 且成功解码所述 MAC PDU, 但成功解码后的 MAC PDU中无所述用户设备对应的数据包, 则不进行反馈。  When the PUCCH feedback resource is a shared PUCCH feedback resource configured for the user equipment, and the SPS command is activated or modified by the SPS, the feedback module is specifically configured to: if the user equipment successfully unmasks the After the signaling is successfully decoded, and the MAC PDU is successfully decoded, the ACK information is fed back on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the packet Controlling signaling, or if the user equipment successfully de-masks the control signaling, but does not successfully decode the MAC PDU, or if the user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU, but if there is no data packet corresponding to the user equipment in the successfully decoded MAC PDU, no feedback is performed.
当所述 PUCCH反馈资源是为所述用户设备配置的专用的 PUCCH反馈资 源, 且所述 SPS命令为 SPS释放命令时, 所述反馈模块具体用于: 如果所述 用户设备成功解掩所述控制信令, 则根据所述 SPS周期,在所述 PUCCH反馈 资源上反馈 ACK信息; 或者, 如果所述用户设备未成功解掩所述控制信令, 则不进行反馈。  When the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the user equipment, and the SPS command is an SPS release command, the feedback module is specifically configured to: if the user equipment successfully unmasks the control And signaling, the ACK information is fed back on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the control signaling, no feedback is performed.
可选的, 所述获取模块 51具体用于接收无线资源控制 RRC消息, 所述 RRC消息中携带网络设备为所述用户设备分配的所述 SPS组调度标识; 或者 用于接收寻呼消息, 所述寻呼消息中携带寻呼消息对应的组标识,将所述寻呼 消息对应的组标识作为所述 SPS组调度标识; 或者用于根据预先配置的信息, 获取所述 SPS组调度标识。  Optionally, the acquiring module 51 is specifically configured to receive a radio resource control RRC message, where the RRC message carries the SPS group scheduling identifier that is allocated by the network device to the user equipment, or is used to receive a paging message. The paging message carries the group identifier corresponding to the paging message, and the group identifier corresponding to the paging message is used as the SPS group scheduling identifier; or is used to obtain the SPS group scheduling identifier according to the pre-configured information.
可选的,所述获取模块 51具体还可以用于接收网络设备发送的 RRC消息, 所述 RRC消息中包含所述 SPS信息, 所述 SPS信息包括: SPS周期、 物理上 行控制信道 PUCCH反馈资源。 可选的, 所述接收模块 53具体还可以用于接收网络设备传输的数据包, 所述传输的数据包为所述网络设备在调度所述用户设备且接收到所述用户设 备发送的反馈信息后发送的, 所述反馈信息包括所述 ACK信息或所述 NACK 信息; 或者, 用于接收网络设备在 PDCCH上重传的加掩的控制信令, 所述重 传的加掩的控制信令为所述网络设备在没有接收到所述用户设备发送的所述 反馈信息后发送的。 Optionally, the acquiring module 51 is further configured to: receive an RRC message sent by the network device, where the RRC message includes the SPS information, where the SPS information includes: an SPS period, a physical uplink control channel PUCCH feedback resource. Optionally, the receiving module 53 is specifically configured to receive a data packet that is transmitted by the network device, where the transmitted data packet is that the network device schedules the user equipment and receives feedback information sent by the user equipment. After being sent, the feedback information includes the ACK information or the NACK information; or, for receiving the masked control signaling that the network device retransmits on the PDCCH, the re-transmitted masked control signaling And transmitting, after the network device does not receive the feedback information sent by the user equipment.
对应上述方法实施例,图 6为本发明另一实施例提供的网络设备的结构示 意图, 用于实施上述方法实施例中对应的步骤, 包括信令发送模块 61和数据 发送模块 62;信令发送模块 61用于在 PDCCH上向第一用户设备发送采用 SPS 组调度标识加掩的控制信令, 所述控制信令包含 SPS命令, 其中, 同一分组 内的用户设备共享一个 SPS组调度标识, 所述 SPS命令用于对所述第一用户 设备所在分组内的用户设备进行 SPS调度; 数据发送模块 62用于在 PDSCH 上向用户设备发送 MAC PDU, 所述 MAC PDU包括所述第一用户设备所在分 组内至少一个用户设备的数据包。  Corresponding to the foregoing method embodiment, FIG. 6 is a schematic structural diagram of a network device according to another embodiment of the present invention, which is used to implement the corresponding steps in the foregoing method, including a signaling sending module 61 and a data sending module 62; The module 61 is configured to send the control signaling that is masked by the SPS group scheduling identifier to the first user equipment, where the control signaling includes an SPS command, where the user equipment in the same group shares an SPS group scheduling identifier. The SPS command is used to perform SPS scheduling on the user equipment in the group where the first user equipment is located; the data sending module 62 is configured to send a MAC PDU to the user equipment on the PDSCH, where the MAC PDU includes the first user equipment. A packet of at least one user equipment within the packet.
本实施例还可以包括接收模块,用于根据所述第一用户设备的反馈情况获 知所述第一用户设备的接收情况, 所述第一用户设备的反馈情况包括: 在 SPS 信息所指示的反馈资源上反馈信息或者不进行反馈。  The embodiment may further include a receiving module, configured to learn, according to the feedback situation of the first user equipment, the receiving situation of the first user equipment, where the feedback situation of the first user equipment includes: feedback indicated by the SPS information Feedback on resources or no feedback.
其中, 当所述 PUCCH反馈资源为用户设备的专用 PUCCH反馈资源, 且 所述 SPS命令为 SPS激活或修改命令时, 该接收模块可以具体用于如果根据 所述 SPS周期, 在所述 PUCCH反馈资源上接收到所述第一用户设备反馈的 ACK信息, 则获知所述第一用户设备成功解掩所述控制信令, 且成功解码所 MAC PDU; 或者, 如果根据所述 SPS周期, 在所述 PUCCH反馈资源上接 收到所述第一用户设备反馈的 NACK信息, 则获知所述第一用户设备成功解 掩所述控制信令, 但未成功解码所述 MAC PDU; 或者, 如果接收不到所述第 一用户设备反馈的信息, 则获知所述第一用户设备未成功解掩所述控制信令; 或者, The receiving module may be specifically used to feed back resources in the PUCCH according to the SPS period, when the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command. After receiving the ACK information fed back by the first user equipment, it is learned that the first user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU; or, if according to the SPS period, in the Receiving the NACK information fed back by the first user equipment on the PUCCH feedback resource, and learning that the first user equipment successfully unmasks the control signaling, but fails to successfully decode the MAC PDU; or, if not received, The information fed back by the first user equipment is used to learn that the first user equipment does not successfully unmask the control signaling; or,
当所述 PUCCH反馈资源为用户设备共享的 PUCCH反馈资源,且所述 SPS 命令为 SPS激活或修改时, 所述接收模块具体用于: 如果根据所述 SPS周期, 在所述 PUCCH反馈资源上接收到所述第一用户设备反馈的 ACK信息, 则获 知所述第一用户设备成功解掩所述控制信令,且成功解码所述 MAC PDU后有 所述第一用户设备对应的数据包; 或者,如果接收不到所述第一用户设备反馈 的信息, 则获知所述第一用户设备未成功解掩所述控制信令, 或, 所述第一用 户设备成功解掩所述控制信令, 但未成功解码所述 MAC PDU, 或, 所述第一 用户设备成功解掩所述控制信令, 且成功解码所述 MAC PDU, 但成功解码后 的 MAC PDU中无所述第一用户设备对应的数据包;  When the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is activated or modified by the SPS, the receiving module is specifically configured to: if received according to the SPS period, receive on the PUCCH feedback resource After the ACK information is sent back to the first user equipment, the first user equipment is successfully masked by the first user equipment, and the data packet corresponding to the first user equipment is successfully decoded after the MAC PDU is successfully decoded; or If the information fed back by the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling, or the first user equipment successfully unmasks the control signaling. However, the MAC PDU is not successfully decoded, or the first user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU, but the first user equipment does not correspond to the successfully decoded MAC PDU. Data packet
或者, 当所述 PUCCH反馈资源为用户设备共享的 PUCCH反馈资源, 且 所述 SPS命令为 SPS释放命令时, 所述接收模块具体用于如果根据所述 SPS 周期, 在所述 PUCCH反馈资源上接收到第一用户设备反馈的 ACK信息, 则 获知所述第一用户设备成功解掩所述控制信令; 或者,如果没有接收到第一用 户设备的反馈信息, 则获知所述第一用户设备未成功解掩所述控制信令。  Or, when the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is an SPS release command, the receiving module is specifically configured to receive on the PUCCH feedback resource according to the SPS period. Obtaining the ACK information that is fed back by the first user equipment, and learning that the first user equipment successfully unmasks the control signaling; or, if the feedback information of the first user equipment is not received, knowing that the first user equipment is not The control signaling is successfully masked.
可选的, 所述信令发送模块 61具体还用于向所述第一用户设备发送 RRC 消息, 所述 RRC消息中携带网络设备为所述第一用户设备分配的 SPS组调度 标识, 以便所述第一用户设备根据所述 SPS组调度标识解掩所述控制信令; 或者, 用于向所述第一用户设备发送寻呼消息, 所述寻呼消息中携带寻呼消息 对应的组标识, 以便所述第一用户设备根据所述组标识解掩所述控制信令。  Optionally, the signaling sending module 61 is further configured to send an RRC message to the first user equipment, where the RRC message carries an SPS group scheduling identifier that is allocated by the network device to the first user equipment, so that Decoding the control signaling according to the SPS group scheduling identifier; or sending a paging message to the first user equipment, where the paging message carries a group identifier corresponding to the paging message So that the first user equipment demasks the control signaling according to the group identifier.
可选的, 所述信令发送模块 61具体还用于向所述第一用户设备发送 RRC 消息, 所述 RRC消息中包含所述 SPS信息, 所述 SPS信息包括: SPS周期、 PUCCH反馈资源。  Optionally, the signaling sending module 61 is further configured to send an RRC message to the first user equipment, where the RRC message includes the SPS information, where the SPS information includes: an SPS period, a PUCCH feedback resource.
可选的, 所述数据发送模块 62具体还用于如果所述网络设备接收到所述 第一用户设备发送的反馈信息, 则根据 SPS 资源传输所述第一用户设备的数 据包, 所述反馈信息包括所述 ACK信息或 NACK信息; Optionally, the data sending module 62 is further configured to: if the network device receives the feedback information sent by the first user equipment, transmit the number of the first user equipment according to the SPS resource. According to the packet, the feedback information includes the ACK information or NACK information;
或者,  Or,
可选的, 所述信令发送模块 61具体还用于如果所述网络设备没有接收到 所述第一用户设备反馈的信息,则在 PDCCH上向所述第一用户设备重新发送 加掩的控制信令。  Optionally, the signaling sending module 61 is further configured to: if the network device does not receive the information fed back by the first user equipment, resend the masking control to the first user equipment on the PDCCH. Signaling.
可以理解的是, 上述各实施例中的相关特征可以相互参考。  It can be understood that related features in the above embodiments can be referred to each other.
本领域普通技术人员可以理解:实现上述方法实施例的全部或部分步骤可 以通过程序指令相关的硬件来完成,前述的程序可以存储于计算机可读取存储 介质中, 该程序在执行时, 执行包括上述方法实施例的步骤; 而前述的存储介 质包括: ROM、 RAM, 磁碟或者光盘等各种可以存储程序代码的介质。  It can be understood by those skilled in the art that all or part of the steps of implementing the foregoing method embodiments may be performed by hardware related to program instructions. The foregoing program may be stored in a computer readable storage medium, and when executed, the program includes The foregoing steps of the method embodiment; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.
最后应说明的是: 以上实施例仅用以说明本发明的技术方案, 而非对其限 制; 尽管参照前述实施例对本发明进行了详细的说明, 本领域的普通技术人员 应当理解: 其依然可以对前述各实施例所记载的技术方案进行修改, 或者对其 中部分技术特征进行等同替换; 而这些修改或者替换, 并不使相应技术方案的 本质脱离本发明各实施例技术方案的精神和范围。  It should be noted that the above embodiments are only for explaining the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: The technical solutions described in the foregoing embodiments are modified, or some of the technical features are equivalently replaced. The modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

权 利 要 求 Rights request
1、 一种半静态调度方法, 其特征在于, 包括:  A semi-persistent scheduling method, comprising:
第一用户设备获取半静态调度 SPS组调度标识, 其中, 同一分组内的用 户设备共享一个 SPS组调度标识;  The first user equipment acquires a semi-persistent scheduling SPS group scheduling identifier, where user equipments in the same group share one SPS group scheduling identifier;
所述第一用户设备接收物理下行控制信道 PDCCH上加掩的控制信令,根 据所述 SPS组调度标识解掩所述控制信令, 得到解掩后的控制信令;  The first user equipment receives the control signaling that is masked on the physical downlink control channel PDCCH, and demasks the control signaling according to the SPS group scheduling identifier, to obtain the de-masked control signaling;
所述第一用户设备根据所述解掩后的控制信令, 接收物理下行共享信道 Receiving, by the first user equipment, the physical downlink shared channel according to the demodulated control signaling
PDSCH上的媒体接入控制 MAC协议数据单元 PDU, 所述 MAC PDU包括所 述第一用户设备所在分组内至少一个用户设备的数据包。 The media access control MAC protocol data unit PDU on the PDSCH, the MAC PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
2、 根据权利要求 1所述的方法, 其特征在于, 所述解掩后的控制信令包 含 SPS命令, 其中, 所述 SPS命令用于对所述第一用户设备所在分组内的用 户设备进行 SPS调度;  The method according to claim 1, wherein the de-masked control signaling includes an SPS command, where the SPS command is used to perform user equipment in a packet where the first user equipment is located. SPS scheduling;
所述接收 PDSCH上的 MAC PDU之后, 所述方法还包括: 所述第一用户 设备根据所述 SPS命令以及对所述加掩的控制信令和所述 MAC PDU的接收 情况, 在 SPS信息所指示的反馈资源上发送反馈信息或者不进行反馈。  After the receiving the MAC PDU on the PDSCH, the method further includes: the first user equipment, according to the SPS command, and the control information of the masking and the receiving of the MAC PDU, in the SPS information The feedback information is sent on the indicated feedback resource or no feedback is made.
3、 根据权利要求 1或 2所述的方法, 其特征在于, 所述第一用户设备获 取 SPS组调度标识, 包括:  The method according to claim 1 or 2, wherein the acquiring, by the first user equipment, the SPS group scheduling identifier comprises:
所述第一用户设备接收无线资源控制 RRC消息,所述 RRC消息中携带网 络设备为所述第一用户设备分配的所述 SPS组调度标识;  The first user equipment receives a radio resource control RRC message, where the RRC message carries the SPS group scheduling identifier allocated by the network device to the first user equipment;
或者,  Or,
所述第一用户设备接收寻呼消息,所述寻呼消息中携带寻呼消息对应的组 标识, 将所述寻呼消息对应的组标识作为所述 SPS组调度标识;  The first user equipment receives a paging message, where the paging message carries a group identifier corresponding to the paging message, and uses the group identifier corresponding to the paging message as the SPS group scheduling identifier;
或者,  Or,
所述第一用户设备根据预先配置的信息, 获取所述 SPS组调度标识。  The first user equipment acquires the SPS group scheduling identifier according to the pre-configured information.
4、 根据权利要求 2所述的方法, 其特征在于, 所述在 SPS信息所指示的 反馈资源上发送反馈信息或者不进行反馈之前, 所述方法还包括: 所述第一用户设备接收网络设备发送的 RRC消息,所述 RRC消息中包含 所述 SPS信息,所述 SPS信息包括: SPS周期和物理上行控制信道 PUCCH反 馈资源。 The method according to claim 2, wherein before the sending the feedback information or the feedback is not performed on the feedback resource indicated by the SPS information, the method further includes: The first user equipment receives an RRC message sent by the network device, where the RRC message includes the SPS information, where the SPS information includes: an SPS period and a physical uplink control channel PUCCH feedback resource.
5、 根据权利要求 4所述的方法, 其特征在于, 当所述 PUCCH反馈资源 是为所述第一用户设备配置的专用的 PUCCH反馈资源, 且所述 SPS命令为 The method according to claim 4, wherein, when the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the first user equipment, and the SPS command is
SPS激活或修改命令时,所述第一用户设备根据所述 SPS命令以及对所述加掩 的控制信令和所述 MAC PDU的接收情况, 在 SPS信息所指示的反馈资源上 发送反馈信息或者不进行反馈, 包括: When the SPS activates or modifies the command, the first user equipment sends feedback information on the feedback resource indicated by the SPS information according to the SPS command and the control information of the masking and the receiving of the MAC PDU. No feedback, including:
如果所述第一用户设备成功解掩所述加掩的控制信令, 且成功解码所述 MAC PDU, 则根据所述 SPS周期, 在所述 PUCCH反馈资源上反馈 ACK信 自 ·  If the first user equipment successfully demasks the masked control signaling and successfully decodes the MAC PDU, and then feeds back an ACK message on the PUCCH feedback resource according to the SPS period.
或者,  Or,
如果所述第一用户设备成功解掩所述加掩的控制信令,但未成功解码所述 MAC PDU, 则根据所述 SPS周期, 在所述 PUCCH反馈资源上反馈 NACK信 息;  If the first user equipment successfully unmasks the masked control signaling, but fails to successfully decode the MAC PDU, and then feeds back NACK information on the PUCCH feedback resource according to the SPS period;
或者,  Or,
如果所述第一用户设备未成功解掩所述加掩的控制信令, 则不进行反馈。 If the first user equipment does not successfully unmask the masked control signaling, no feedback is performed.
6、 根据权利要求 4所述的方法, 其特征在于, 当所述 PUCCH反馈资源 是为所述第一用户设备配置的共享的 PUCCH反馈资源, 且所述 SPS命令为 SPS激活或修改命令时,所述第一用户设备根据所述 SPS命令以及对所述加掩 的控制信令和所述 MAC PDU的接收情况, 在 SPS信息所指示的反馈资源上 发送反馈信息或者不进行反馈, 包括: The method according to claim 4, wherein, when the PUCCH feedback resource is a shared PUCCH feedback resource configured for the first user equipment, and the SPS command is an SPS activation or modification command, The first user equipment sends feedback information or does not perform feedback on the feedback resource indicated by the SPS information according to the SPS command and the control information of the masking and the receiving of the MAC PDU, including:
如果所述第一用户设备成功解掩所述加掩的控制信令, 且成功解码所述 MAC PDU后有自身对应的数据包, 则根据所述 SPS周期, 在所述 PUCCH反 馈资源上反馈 ACK信息; 或者, If the first user equipment successfully demasks the masked control signaling, and successfully decodes the MAC PDU and has its own corresponding data packet, and then feeds back an ACK on the PUCCH feedback resource according to the SPS period. information; or,
如果所述第一用户设备未成功解掩所述加掩的控制信令, 或,如果所述第 一用户设备成功解掩所述加掩的控制信令,但未成功解码所述 MAC PDU,或, 如果所述第一用户设备成功解掩所述加掩的控制信令, 且成功解码所述 MAC PDU,但成功解码后的 MAC PDU中无所述第一用户设备对应的数据包,则不 进行反馈。  If the first user equipment does not successfully mask the masked control signaling, or if the first user equipment successfully unmasks the masked control signaling, but fails to successfully decode the MAC PDU, Or, if the first user equipment successfully demasks the masked control signaling, and successfully decodes the MAC PDU, but the successfully decoded MAC PDU does not have the data packet corresponding to the first user equipment, No feedback is given.
7、 根据权利要求 4所述的方法, 其特征在于, 当所述 PUCCH反馈资源 是为所述第一用户设备配置的专用的 PUCCH反馈资源, 且所述 SPS命令为 SPS释放命令时,所述第一用户设备根据所述 SPS命令以及对所述加掩的控制 信令和所述 MAC PDU的接收情况, 在 SPS信息所指示的反馈资源上发送反 馈信息或者不进行反馈, 包括:  The method according to claim 4, wherein, when the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the first user equipment, and the SPS command is an SPS release command, And sending, by the first user equipment, the feedback information or the feedback on the feedback resource indicated by the SPS information according to the SPS command and the control information of the masking and the receiving of the MAC PDU, including:
如果所述第一用户设备成功解掩所述加掩的控制信令, 则根据所述 SPS 周期, 在所述 PUCCH反馈资源上反馈 ACK信息;  If the first user equipment successfully unmasks the masked control signaling, and then feeds back ACK information on the PUCCH feedback resource according to the SPS period;
或者,  Or,
如果所述第一用户设备未成功解掩所述加掩的控制信令, 则不进行反馈。 If the first user equipment does not successfully unmask the masked control signaling, no feedback is performed.
8、 根据权利要求 5-7任一项所述的方法, 其特征在于, 还包括: 所述第一用户设备接收网络设备传输的数据包,所述传输的数据包为所述 网络设备在调度所述第一用户设备且接收到所述第一用户设备发送的反馈信 息后发送的, 所述反馈信息包括所述 ACK信息或所述 NACK信息; The method according to any one of claims 5-7, further comprising: receiving, by the first user equipment, a data packet transmitted by a network device, where the transmitted data packet is scheduled by the network device After the first user equipment receives the feedback information sent by the first user equipment, the feedback information includes the ACK information or the NACK information;
或者,  Or,
所述第一用户设备接收网络设备在 PDCCH上重传的加掩的控制信令, 所 述重传的加掩的控制信令为所述网络设备在没有接收到所述第一用户设备发 送的所述反馈信息后发送的。  The first user equipment receives the masked control signaling that is retransmitted by the network device on the PDCCH, where the re-transmitted masked control signaling is sent by the network device without receiving the first user equipment. The feedback information is sent afterwards.
9、 一种半静态调度方法, 其特征在于, 包括:  9. A semi-persistent scheduling method, comprising:
网络设备在 PDCCH上向第一用户设备发送采用 SPS组调度标识加掩的控 制信令, 其中, 同一分组内的用户设备共享一个 SPS组调度标识; 所述网络设备在 PDSCH上向用户设备发送 MAC PDU, 所述 MAC PDU 包括所述第一用户设备所在分组内至少一个用户设备的数据包。 The network device sends, on the PDCCH, the control that uses the SPS group scheduling identifier to mask the first user equipment. The signaling device, wherein the user equipment in the same group shares an SPS group scheduling identifier; the network device sends a MAC PDU to the user equipment on the PDSCH, where the MAC PDU includes at least one user in the group where the first user equipment is located. The packet of the device.
10、 根据权利要求 9所述的方法, 其特征在于, 还包括:  10. The method according to claim 9, further comprising:
所述网络设备根据所述第一用户设备的反馈情况获知所述第一用户设备 的接收情况, 所述第一用户设备的反馈情况包括: 在 SPS信息所指示的反馈 资源上反馈信息或者不进行反馈。  The network device learns the receiving situation of the first user equipment according to the feedback situation of the first user equipment, and the feedback situation of the first user equipment includes: feeding back information on the feedback resource indicated by the SPS information or not performing Feedback.
11、 根据权利要求 9 或 10 所述的方法, 其特征在于, 所述网络设备在 PDCCH上向第一用户设备发送采用 SPS组调度标识加掩的控制信令之前, 所 述方法还包括:  The method according to claim 9 or 10, wherein, before the network device sends the control signaling that is masked by the SPS group scheduling identifier to the first user equipment, the method further includes:
所述网络设备向所述第一用户设备发送 RRC消息,所述 RRC消息中携带 网络设备为所述第一用户设备分配的 SPS组调度标识, 以便所述第一用户设 备根据所述 SPS组调度标识解掩所述控制信令;  The network device sends an RRC message to the first user equipment, where the RRC message carries an SPS group scheduling identifier that is allocated by the network device to the first user equipment, so that the first user equipment is scheduled according to the SPS group. Decrypting the control signaling;
或者,  Or,
所述网络设备向所述第一用户设备发送寻呼消息,所述寻呼消息中携带寻 呼消息对应的组标识,以便所述第一用户设备根据所述组标识解掩所述控制信 令。  The network device sends a paging message to the first user equipment, where the paging message carries a group identifier corresponding to the paging message, so that the first user equipment demasks the control signaling according to the group identifier. .
12、 根据权利要求 10所述的方法, 其特征在于, 所述网络设备根据所述 第一用户设备的反馈情况获知所述第一用户设备的接收情况之前,所述方法还 包括:  The method according to claim 10, wherein, before the network device learns the receiving situation of the first user equipment according to the feedback situation of the first user equipment, the method further includes:
所述网络设备向所述第一用户设备发送 RRC消息,所述 RRC消息中包含 所述 SPS信息, 所述 SPS信息包括: SPS周期和 PUCCH反馈资源。  The network device sends an RRC message to the first user equipment, where the RRC message includes the SPS information, where the SPS information includes: an SPS period and a PUCCH feedback resource.
13、 根据权利要求 12所述的方法, 其特征在于, 所述控制信令包含 SPS 命令,所述 SPS命令用于对所述第一用户设备所在分组内的用户设备进行 SPS 调度。 The method according to claim 12, wherein the control signaling includes an SPS command, and the SPS command is used to perform SPS scheduling on a user equipment in a packet where the first user equipment is located.
14、 根据权利要求 13所述的方法, 其特征在于, 当所述 PUCCH反馈资 源为用户设备的专用 PUCCH反馈资源, 且所述 SPS命令为 SPS激活或修改 命令时,所述根据所述第一用户设备的反馈情况获知所述第一用户设备的接收 情况, 包括: The method according to claim 13, wherein when the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command, the first according to the first The feedback status of the user equipment is obtained by the first user equipment, including:
如果根据所述 SPS周期,在所述 PUCCH反馈资源上接收到所述第一用户 设备反馈的 ACK信息, 则获知所述第一用户设备成功解掩所述控制信令, 且 成功解码所述 MAC PDU;  If the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling, and successfully decodes the MAC address. PDU;
或者,  Or,
如果根据所述 SPS周期,在所述 PUCCH反馈资源上接收到所述第一用户 设备反馈的 NACK信息, 则获知所述第一用户设备成功解掩所述控制信令, 但未成功解码所述 MAC PDU;  If the NACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling, but does not successfully decode the MAC PDU;
或者,  Or,
如果接收不到所述第一用户设备反馈的信息,则获知所述第一用户设备未 成功解掩所述控制信令。  If the information fed back by the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling.
15、 根据权利要求 13所述的方法, 其特征在于, 当所述 PUCCH反馈资 源为用户设备共享的 PUCCH反馈资源, 且所述 SPS命令为 SPS激活或修改 命令时,所述根据所述第一用户设备的反馈情况获知所述第一用户设备的接收 情况用户设备, 包括:  The method according to claim 13, wherein, when the PUCCH feedback resource is a PUCCH feedback resource shared by a user equipment, and the SPS command is an SPS activation or modification command, the first according to the first The user equipment's feedback situation is known to the user equipment of the first user equipment, including:
如果根据所述 SPS周期,在所述 PUCCH反馈资源上接收到所述第一用户 设备反馈的 ACK信息, 则获知所述第一用户设备成功解掩所述控制信令, 且 成功解码所述 MAC PDU后,所述解码的所述 MAC PDU中有所述第一用户设 备对应的数据包;  If the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling, and successfully decodes the MAC address. After the PDU, the decoded MAC PDU includes a data packet corresponding to the first user equipment;
或者,  Or,
如果接收不到所述第一用户设备反馈的信息,则获知所述第一用户设备未 成功解掩所述控制信令, 或, 所述第一用户设备成功解掩所述控制信令, 但未 成功解码所述 MAC PDU, 或, 所述第一用户设备成功解掩所述控制信令, 且 成功解码所述 MAC PDU,但成功解码后的 MAC PDU中无所述第一用户设备 对应的数据包。 If the information fed back by the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling, or the first user equipment successfully unmasks the control signaling, but Not Successfully decoding the MAC PDU, or the first user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU, but the successfully decoded MAC PDU does not have the data corresponding to the first user equipment. package.
16、 根据权利要求 13所述的方法, 其特征在于, 当所述 PUCCH反馈资 源为用户设备共享的 PUCCH反馈资源, 且所述 SPS命令为 SPS释放命令时, 所述根据所述第一用户设备的反馈情况获知所述第一用户设备的接收情况用 户设备, 包括:  The method according to claim 13, wherein, when the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is an SPS release command, the first user equipment is The feedback situation is obtained by the user equipment of the first user equipment, including:
如果根据所述 SPS周期,在所述 PUCCH反馈资源上接收到第一用户设备 反馈的 ACK信息, 则获知所述第一用户设备成功解掩所述控制信令;  If the ACK information fed back by the first user equipment is received on the PUCCH feedback resource according to the SPS period, it is learned that the first user equipment successfully demasks the control signaling;
或者,  Or,
如果没有接收到第一用户设备的反馈信息 ,则获知所述第一用户设备未成 功解掩所述控制信令。  If the feedback information of the first user equipment is not received, it is learned that the first user equipment does not successfully unmask the control signaling.
17、 根据权利要求 14-16任一项所述的方法, 其特征在于, 还包括: 如果所述网络设备接收到所述第一用户设备发送的反馈信息, 则根据 SPS资源传输所述第一用户设备的数据包, 所述反馈信息包括所述 ACK信息 或 NACK信息;  The method according to any one of claims 14 to 16, further comprising: if the network device receives the feedback information sent by the first user equipment, transmitting the first according to the SPS resource a data packet of the user equipment, where the feedback information includes the ACK information or NACK information;
或者,  Or,
如果所述网络设备没有接收到所述第一用户设备反馈的信息, 则在 PDCCH上向所述第一用户设备重新发送加掩的控制信令。  And if the network device does not receive the information fed back by the first user equipment, re-transmitting the masked control signaling to the first user equipment on the PDCCH.
18、 一种用户设备, 其特征在于, 包括:  18. A user equipment, comprising:
获取模块, 用于获取半静态调度 SPS组调度标识, 其中, 所述用户设备 与同一分组内的其它用户设备共享一个 SPS组调度标识;  An acquiring module, configured to acquire a semi-persistent scheduling SPS group scheduling identifier, where the user equipment shares an SPS group scheduling identifier with other user equipments in the same group;
解掩模块, 用于接收物理下行控制信道 PDCCH上加掩的控制信令, 根据 所述 SPS组调度标识解掩所述控制信令, 得到解掩后的控制信令用户设备; 接收模块, 用于根据所述解掩后的控制信令, 接收物理下行共享信道 PDSCH上的媒体接入控制 MAC协议数据单元 PDU, 所述 MAC PDU包括所 述用户设备所在分组内至少一个用户设备的数据包。 a demodulation module, configured to receive control signaling that is masked on the physical downlink control channel PDCCH, and demask the control signaling according to the SPS group scheduling identifier, to obtain a demodulated control signaling user equipment; Receiving a physical downlink shared channel according to the demodulated control signaling The media access control MAC protocol data unit PDU on the PDSCH, the MAC PDU includes a data packet of at least one user equipment in the packet where the user equipment is located.
19、 根据权利要求 18所述的用户设备, 其特征在于, 所述解掩后的控制 信令包含 SPS命令, 其中, 所述 SPS命令用于对所述第一用户设备所在分组 内的用户设备进行 SPS调度;  The user equipment according to claim 18, wherein the de-masked control signaling includes an SPS command, where the SPS command is used for a user equipment in a group where the first user equipment is located Perform SPS scheduling;
所述用户设备还包括:  The user equipment further includes:
反馈模块, 用于根据所述 SPS 命令以及对所述加掩的控制信令和所述 MAC PDU的接收情况,在 SPS信息所指示的反馈资源上发送反馈信息或者不 进行反馈。  And a feedback module, configured to send feedback information or not feedback on the feedback resource indicated by the SPS information according to the SPS command and the control signaling of the masking and the receiving of the MAC PDU.
20、 根据权利要求 19所述的用户设备, 其特征在于,  20. The user equipment of claim 19, wherein
当 PUCCH反馈资源为所述用户设备的专用 PUCCH反馈资源,且所述 SPS 命令为 SPS 激活或修改命令时, 所述反馈模块具体用于: 如果所述用户设备 成功解掩所述加掩的控制信令, 且成功解码所述 MAC PDU, 则根据所述 SPS 周期, 在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如果所述用户设备 成功解掩所述加掩的控制信令,但未成功解码所述 MAC PDU,则根据所述 SPS 周期, 在所述 PUCCH反馈资源上反馈 NACK信息; 或者, 如果所述用户设 备未成功解掩所述加掩的控制信令, 则不进行反馈;  When the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command, the feedback module is specifically configured to: if the user equipment successfully unmasks the masking control Signaling, and successfully decoding the MAC PDU, and feeding back ACK information on the PUCCH feedback resource according to the SPS period; or, if the user equipment successfully unmasks the masked control signaling, but not If the MAC PDU is successfully decoded, the NACK information is fed back on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the masked control signaling, no feedback is performed;
当 PUCCH反馈资源是为所述用户设备配置的共享的 PUCCH反馈资源, 且所述 SPS命令为 SPS激活或修改时, 所述反馈模块具体用于: 如果所述用 户设备成功解掩所述加掩的控制信令,且成功解码所述 MAC PDU后有自身对 应的数据包, 则根据所述 SPS周期, 在所述 PUCCH反馈资源上反馈 ACK信 息; 或者, 如果所述用户设备未成功解掩所述加掩的控制信令, 或, 如果所述 用户设备成功解掩所述加掩的控制信令, 但未成功解码所述 MAC PDU, 或, 如果所述用户设备成功解掩所述加掩的控制信令, 且成功解码所述 MAC PDU,但成功解码后的 MAC PDU中无所述用户设备对应的数据包, 则不进行 反馈; When the PUCCH feedback resource is a shared PUCCH feedback resource configured for the user equipment, and the SPS command is activated or modified by the SPS, the feedback module is specifically configured to: if the user equipment successfully unmasks the masking Controlling the signaling, and successfully decoding the MAC PDU and having its own corresponding data packet, and then feeding back ACK information on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the The masked control signaling, or if the user equipment successfully unmasks the masked control signaling, but does not successfully decode the MAC PDU, or if the user equipment successfully unmasks the masking Control signaling, and successfully decoding the MAC PDU, but the successfully decoded MAC PDU does not have a data packet corresponding to the user equipment, and then does not perform Feedback
或者, 当 PUCCH反馈资源是为所述用户设备配置的专用的 PUCCH反馈 资源, 且所述 SPS命令为 SPS释放命令时, 所述反馈模块具体用于: 如果所 述用户设备成功解掩所述加掩的控制信令, 则根据所述 SPS 周期, 在所述 PUCCH反馈资源上反馈 ACK信息; 或者, 如果所述用户设备未成功解掩所 述加掩的控制信令, 则不进行反馈。  Or, when the PUCCH feedback resource is a dedicated PUCCH feedback resource configured for the user equipment, and the SPS command is an SPS release command, the feedback module is specifically configured to: if the user equipment successfully unmasks the The masked control signaling returns feedback ACK information on the PUCCH feedback resource according to the SPS period; or, if the user equipment does not successfully unmask the masked control signaling, no feedback is performed.
21、 一种网络设备, 其特征在于, 包括:  21. A network device, comprising:
信令发送模块,用于在 PDCCH上向第一用户设备发送采用 SPS组调度标 识加掩的控制信令, 其中, 同一分组内的用户设备共享一个 SPS组调度标识; 数据发送模块, 用于在 PDSCH上向用户设备发送 MAC PDU, 所述 MAC a signaling sending module, configured to send, to the first user equipment, a control signaling that is masked by the SPS group scheduling identifier, where the user equipment in the same group shares an SPS group scheduling identifier, and the data sending module is configured to Sending a MAC PDU to the user equipment on the PDSCH, the MAC
PDU包括所述第一用户设备所在分组内至少一个用户设备的数据包。 The PDU includes a data packet of at least one user equipment in the group where the first user equipment is located.
22、 根据权利要求 21所述的设备, 其特征在于, 还包括:  The device according to claim 21, further comprising:
接收模块,用于根据所述第一用户设备的反馈情况获知所述第一用户设备 的接收情况, 所述第一用户设备的反馈情况包括: 在 SPS信息所指示的反馈 资源上反馈信息或者不进行反馈。  The receiving module is configured to learn the receiving situation of the first user equipment according to the feedback situation of the first user equipment, where the feedback situation of the first user equipment includes: feeding back information on the feedback resource indicated by the SPS information or not Give feedback.
23、 根据权利要求 22所述的设备, 其特征在于,  23. Apparatus according to claim 22 wherein:
所述控制信令包含 SPS命令, 所述 SPS命令用于对所述第一用户设备所 在分组内的用户设备进行 SPS调度;  The control signaling includes an SPS command, and the SPS command is used to perform SPS scheduling on user equipments in the group in which the first user equipment is located;
当 PUCCH反馈资源为用户设备的专用 PUCCH反馈资源,且所述 SPS命 令为 SPS激活或修改命令时, 所述接收模块具体用于: 如果根据所述 SPS周 期, 在所述 PUCCH反馈资源上接收到所述第一用户设备反馈的 ACK信息, 则获知所述第一用户设备成功解掩所述控制信令, 且成功解码所述 MAC PDU; 或者, 如果根据所述 SPS周期, 在所述 PUCCH反馈资源上接收到所述 第一用户设备反馈的 NACK信息, 则获知所述第一用户设备成功解掩所述控 制信令, 但未成功解码所述 MAC PDU; 或者, 如果接收不到所述第一用户设 备反馈的信息, 则获知所述第一用户设备未成功解掩所述控制信令; 或者, When the PUCCH feedback resource is a dedicated PUCCH feedback resource of the user equipment, and the SPS command is an SPS activation or modification command, the receiving module is specifically configured to: if received according to the SPS period, received on the PUCCH feedback resource The ACK information fed back by the first user equipment is used to learn that the first user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU; or, if according to the SPS period, the PUCCH feedback Receiving the NACK information fed back by the first user equipment, the information that the first user equipment successfully demasks the control signaling, but fails to successfully decode the MAC PDU; or if the first One user setting After the information is fed back, it is learned that the first user equipment does not successfully unmask the control signaling; or
当 PUCCH反馈资源为用户设备共享的 PUCCH反馈资源,且所述 SPS命 令为 SPS激活或修改时, 所述接收模块具体用于: 如果根据所述 SPS周期, 在所述 PUCCH反馈资源上接收到所述第一用户设备反馈的 ACK信息, 则获 知所述第一用户设备成功解掩所述控制信令,且成功解码所述 MAC PDU后有 所述第一用户设备对应的数据包; 或者,如果接收不到所述第一用户设备反馈 的信息, 则获知所述第一用户设备未成功解掩所述控制信令, 或, 所述第一用 户设备成功解掩所述控制信令, 但未成功解码所述 MAC PDU, 或, 所述第一 用户设备成功解掩所述控制信令, 且成功解码所述 MAC PDU, 但成功解码后 的 MAC PDU中无所述第一用户设备对应的数据包;  When the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is activated or modified by the SPS, the receiving module is specifically configured to: if the PUCCH feedback resource is received according to the SPS period, The ACK information fed back by the first user equipment is used to learn that the first user equipment successfully demasks the control signaling, and after successfully decoding the MAC PDU, there is a data packet corresponding to the first user equipment; or if If the information fed back by the first user equipment is not received, the first user equipment is not successfully masked by the control signaling, or the first user equipment successfully unmasks the control signaling, but Successfully decoding the MAC PDU, or the first user equipment successfully demasks the control signaling, and successfully decodes the MAC PDU, but the successfully decoded MAC PDU does not have the data corresponding to the first user equipment. Package
或者,  Or,
当 PUCCH反馈资源为用户设备共享的 PUCCH反馈资源,且所述 SPS命 令为 SPS释放命令时, 所述接收模块具体用于: 如果根据所述 SPS周期, 在 所述 PUCCH反馈资源上接收到第一用户设备反馈的 ACK信息, 则获知所述 第一用户设备成功解掩所述控制信令; 或者,如果没有接收到第一用户设备的 反馈信息, 则获知所述第一用户设备未成功解掩所述控制信令。  When the PUCCH feedback resource is a PUCCH feedback resource shared by the user equipment, and the SPS command is an SPS release command, the receiving module is specifically configured to: if the PUSCH feedback resource is received according to the SPS period, receive the first The ACK information fed back by the user equipment is used to learn that the first user equipment successfully unmasks the control signaling; or if the feedback information of the first user equipment is not received, it is learned that the first user equipment is not successfully unmasked. The control signaling.
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