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WO2014071581A1 - Semi-persistent scheduling method and base station - Google Patents

Semi-persistent scheduling method and base station Download PDF

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Publication number
WO2014071581A1
WO2014071581A1 PCT/CN2012/084241 CN2012084241W WO2014071581A1 WO 2014071581 A1 WO2014071581 A1 WO 2014071581A1 CN 2012084241 W CN2012084241 W CN 2012084241W WO 2014071581 A1 WO2014071581 A1 WO 2014071581A1
Authority
WO
WIPO (PCT)
Prior art keywords
semi
persistent scheduling
base station
information
user equipment
Prior art date
Application number
PCT/CN2012/084241
Other languages
French (fr)
Chinese (zh)
Inventor
张健
曾清海
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to CN201280036018.6A priority Critical patent/CN104255075B/en
Priority to PCT/CN2012/084241 priority patent/WO2014071581A1/en
Publication of WO2014071581A1 publication Critical patent/WO2014071581A1/en

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation

Definitions

  • the present invention relates to the field of communications technologies, and in particular, to a method and a base station for semi-persistent scheduling. Background technique
  • 3GPP International full name: 3 rd Generation Partner Project, Chinese full name: 3rd Generation Partnership Project
  • CoMP International full name: coordinated multi-point transmission /reception
  • Chinese full name Ten-does multi-point transmission/reception technology.
  • This technology mainly communicates with multiple UEs according to a certain cooperation mode and UE (English name: user equipment, Chinese full name: user equipment).
  • the existing CoMP technology is a control information and user data information such as dynamic interaction scheduling decision and resource allocation between CoMP cooperative cells.
  • the prior art scheme uses the mutual control information and the user data information on the CoMP to use the backhaul chain between the cells of the CoMP cooperation.
  • the signaling and data transmission overhead on the road in English: backhaul link
  • backhaul link is very expensive, and the capacity and delay requirements of the backhaul link are high.
  • Embodiments of the present invention provide a method and base station for semi-persistent scheduling, which can implement semi-persistent scheduling on CoMP, thereby reducing signaling and data transmission overhead.
  • the present invention provides a method for semi-persistent scheduling, including:
  • the first base station sends semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
  • the first base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the method further includes: Transmitting the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information to the second base station, so that the second base station acquires the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the semi-persistent scheduling resource configuration information The semi-persistent scheduling time.
  • the method includes:
  • the method includes:
  • the method includes:
  • the configuration information is sent to the second base station, so that the second base station translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • Combining the first aspect, the first possible implementation manner of the first aspect, the second possible implementation manner of the first aspect, the three possible implementation manners of the first aspect, and the fourth possible implementation manner of the first aspect, in the fifth possible Implementation methods include:
  • the first base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station, communicate with the user equipment at a semi-persistent scheduling time, specifically Includes:
  • JT joint transmission DPS dynamic transmission point selection, and JR joint reception.
  • the present invention provides a method for semi-persistent scheduling, including:
  • the second base station receives the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information sent by the first base station;
  • the second base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the first possible implementation manner includes:
  • the method includes:
  • the method includes:
  • the method includes: Receiving, by the first base station, the semi-persistent scheduling resource reconfiguration information; and releasing the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • Combining the second aspect, the first possible implementation manner of the second aspect, the second possible implementation manner of the second aspect, the third possible implementation manner of the second aspect, the fourth possible implementation manner of the second aspect, and the fifth possible Implementation methods include:
  • the first base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station, to communicate with the user equipment at a semi-persistent scheduling time, specifically:
  • JT joint transmission DPS dynamic transmission point selection, and JR joint reception.
  • the present invention provides a base station, including:
  • a sending unit configured to send the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station;
  • a processing unit configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the second base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the method includes:
  • the sending unit is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station performs resource configuration information according to the semi-persistent scheduling
  • the semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
  • the method includes:
  • the sending unit is further configured to send dynamic scheduling information to the second base station;
  • the processing unit is further configured to join the second base station according to the dynamic scheduling information, where The communication with the user equipment is performed in place of the current semi-persistent scheduling.
  • the method includes:
  • the sending unit is further configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information; and / or,
  • the sending unit is further configured to send the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the method includes:
  • the sending unit is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and / or,
  • the sending unit is further configured to send the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station releases the semi-persistent scheduling according to the semi-persistent scheduling resource reconfiguration information. Resources.
  • the first possible implementation manner of the third aspect, the second possible implementation manner of the third aspect, the third possible implementation manner of the third aspect, the fourth possible Implementation manner, in the fifth possible implementation manner includes:
  • a configuration unit coordinate with the second base station, and configure a collaboration mode
  • the processing unit is specifically configured to:
  • JT joint transmission DPS dynamic transmission point selection, and JR joint reception.
  • a base station provided by the present invention includes: a receiving unit, configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
  • a processing unit configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the first base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the method includes:
  • the receiving unit is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information
  • an obtaining unit configured to acquire the semi-persistent scheduling time by using the semi-persistent scheduling resource configuration information received according to the receiving unit and the semi-persistent scheduling activation information.
  • the method includes:
  • the receiving unit is further configured to receive dynamic scheduling information that is sent by the first base station, where the processing unit is further configured to use the dynamic scheduling information to associate with the first base station to replace the current semi-persistent scheduling. Communicating with the user equipment.
  • the method includes:
  • the receiving unit is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
  • a decoding unit configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiving unit.
  • the method includes:
  • the receiving unit is further configured to receive the semi-persistent scheduling resource reconfiguration information sent by the first base station;
  • the first possible implementation manner of the fourth aspect, the second possible implementation manner of the fourth aspect, the third possible implementation manner of the fourth aspect, and the fourth possible Implementation manner in the fifth possible implementation manner, includes:
  • a configuration unit configured to coordinate with the first base station, and configure a collaboration mode
  • the processing unit is specifically configured to:
  • the first base station is jointly communicated with the user equipment at a semi-persistent scheduling time;
  • the cooperation mode includes at least one of the following:
  • JT joint transmission DPS dynamic transmission point selection, and JR joint reception.
  • the base station provided by the present invention includes:
  • a transmitter configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
  • a processor configured to communicate with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, in conjunction with the second base station, at a semi-persistent scheduling time.
  • the method includes:
  • the transmitter is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station performs the semi-persistent scheduling resource configuration information according to the The semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
  • the method includes:
  • the processor is further configured to abandon the current semi-persistent scheduling resource
  • the transmitter is further configured to send dynamic scheduling information to the second base station;
  • the processor is further configured to associate with the second base station according to the dynamic scheduling information sent by the transmitter, to replace the current semi-persistent scheduling with the user equipment for communication.
  • the transmitter is further configured to: Transmitting the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information; and/or,
  • the transmitter is further configured to:
  • the persistent scheduling resource reconfiguration information is sent to the second base station, so that the second base station translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • the method includes:
  • the processor is specifically configured to:
  • JT joint transmission DPS dynamic transmission point selection, and JR joint reception.
  • the base station of the present invention includes:
  • a receiver configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station
  • a processor configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the first base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the method includes:
  • the receiver is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
  • the processor is further configured to: according to the semi-persistent scheduling resource configuration information received by the receiver And the semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
  • the method includes:
  • the processor is further configured to abandon the current semi-persistent scheduling resource
  • the receiver is further configured to receive dynamic scheduling information sent by the first base station;
  • the processor is further configured to associate with the first base station according to the dynamic scheduling information received by the receiver, to replace the current semi-persistent scheduling with the user equipment for communication.
  • the method includes:
  • the receiver is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
  • the processor is further configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information received by the receiver.
  • the method includes:
  • the receiver is further configured to receive the semi-persistent scheduling resource reconfiguration information sent by the first base station;
  • the processor is further configured to: release the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiver.
  • the processor specifically includes:
  • the first base station is jointly communicated with the user equipment at a semi-persistent scheduling time;
  • the cooperation mode includes at least one of the following:
  • the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment.
  • the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment.
  • FIG. 1 is a flowchart of a semi-persistent scheduling method according to an embodiment of the present invention
  • FIG. 2 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention
  • FIG. 4 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention
  • FIG. 5 is a flowchart of another embodiment of the present invention
  • FIG. 6 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention
  • FIG. 7 is a semi-persistent scheduling method according to another embodiment of the present invention
  • FIG. 8 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention
  • FIG. 8 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention
  • FIG. 9 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention.
  • FIG. 11 is a block diagram of a base station according to another embodiment of the present invention.
  • FIG. 12 is a structural block diagram of a base station according to another embodiment of the present invention.
  • FIG. 13 is a structural block diagram of a base station according to another embodiment of the present invention.
  • FIG. 14 is a structural block diagram of a base station according to another embodiment of the present invention.
  • FIG. 15 is a structural block diagram of a base station according to another embodiment of the present invention. detailed description
  • An embodiment of the present invention provides a method for semi-persistent scheduling, which may be performed by a first base station. As shown in FIG. 1, the method includes:
  • the first base station sends semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station.
  • the first base station and the second base station store the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
  • the semi-persistent scheduling resource configuration information in step 01 may be, but is not limited to, being sent to the second base station by using RRC (English full name: Radio Resource Control).
  • RRC Radio Resource Control
  • the semi-persistent scheduling resource configuration information includes uplink semi-persistent scheduling resource configuration information and/or downlink semi-persistent scheduling resource configuration information.
  • the uplink semi-persistent scheduling resource configuration information includes one or any of the following types: Semi-persistent scheduling-Cell radio resource temporary identifier (English name: Semi-persisten scheduling-Cell Radio Network Temporary-Identifier, English abbreviation: SPS C- RNTI), semi-persistent scheduling period, uplink power control parameters.
  • the downlink semi-persistent scheduling resource configuration information includes one or any of the following: semi-persistent scheduling - cell radio resource temporary identifier, semi-persistent scheduling period, and hybrid automatic repeat request process (English full name: Hybrid Automatic Repeat Request process, English) Referred to as: HARQ process).
  • the sending, by the first base station, the semi-persistent scheduling resource configuration information to the second base station may be implemented by using the following two methods:
  • the first method the first base station separately sends the semi-persistent scheduling resource configuration information to multiple second base stations.
  • the multiple second base stations are all base stations that need to receive the semi-persistent scheduling resource configuration information.
  • a second method the first base station first sends the semi-persistent scheduling resource configuration information to one or more second base stations, and then the second base station that first receives the semi-persistent scheduling resource configuration information The persistent scheduling resource configuration information is sent to other second base stations.
  • the semi-persistent scheduling activation information in the step 01 includes the uplink semi-persistent scheduling activation information and/or the downlink semi-persistent scheduling activation information, where the uplink and downlink semi-persistent scheduling activation information includes at least one of the following: Block allocation, modulation coding method, transport block size.
  • Semi-persistent scheduling activation information may also be referred to as semi-persistent scheduling resource allocation information, including downlink resource allocation.
  • the first base station may transmit the same or different semi-persistent scheduling activation information to one or more second base stations multiple times.
  • the first base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station communicate with the user equipment at a semi-persistent scheduling time.
  • the SPS is obtained according to the preset activation policy (English full name: Semi-persistent scheduling, Chinese full name: semi-persistent scheduling)
  • the subframe information, and the system frame number and the subframe number information corresponding to the SPS are sent to one or more second base stations, so that the second base station can perform resource allocation information according to a preset activation policy, semi-persistent scheduling, and Semi-persistent scheduling activation information acquires semi-persistent scheduling time.
  • the preset activation policy may be set to follow the following formulas (1), (2), (3).
  • the first base station When the first base station sends the new semi-persistent scheduling activation information to the second base station, the first base station acquires the subframe information corresponding to the new SPS according to the same preset activation policy, and sets the system frame corresponding to the new SPS.
  • the number and subframe number information are sent to one or more second base stations.
  • the subframe information in which the downlink downlink SPS resource allocation is located is:
  • SFN (English full name: System Frame Number, Chinese full name: cell system frame number counter) refers to the system frame number where the second SPS time is located; subframe refers to the subframe number where the Nth SPS time is located; SFNstart Time refers to the system frame number corresponding to the downlink SPS activation information; the subframe start time refers to the subframe number corresponding to the downlink SPS activation information;
  • the semiPersistSchedlntervalDL refers to a downlink semi-persistent scheduling period, and the downlink semi-persistent scheduling period is configured through RRC; Modulo is a modulo operation.
  • the HARQ process ID refers to the HARQ process ID, and determines the number of HARQ processes based on the HARQ process number;
  • CURRENT_TTI is the current scheduling time interval; floor points to the next rounding operation;
  • number Of ConfSPS-Processes refers to the downlink SPS configured through RRC signaling HARQ process number information.
  • the sending manner is the same as the foregoing step 01, to the second base station.
  • the implementation method of sending semi-persistent scheduling resource configuration information is the same, and will not be described in detail here.
  • the semi-persistent scheduling activation information provides a semi-persistent scheduling resource
  • the semi-persistent scheduling configuration information provides a semi-persistent scheduling period, which enables semi-persistent scheduling activation information to periodically use semi-persistent scheduling according to a semi-persistent scheduling period.
  • the semi-persistent scheduling time obtained in this step may be a series of times for performing semi-persistent scheduling, where the time is the start time of the subframe number corresponding to the SPS activation information, and the SPS period in the SPS configuration information is used as the period. a series of time.
  • the first base station may also abandon the current semi-persistent scheduling resource; and send the dynamic scheduling information to the second base station; and the second base station according to the dynamic scheduling information, to replace the current semi-persistent scheduling Communicating with the user equipment.
  • dynamic scheduling may be performed at a certain semi-persistent scheduling time.
  • the first base station and the second base station temporarily abandon the current semi-persistent scheduling resource, and continue after the time for performing the dynamic scheduling.
  • the previous semi-persistent scheduling resources and user equipment Line communication If the backhaul link between the first base station and the second base station is an ideal link, that is, a zero delay, the first base station sends dynamic scheduling signaling to the user equipment at a certain semi-persistent scheduling time, and sends dynamic scheduling signaling to the The second base station, the first base station and the second base station communicate with the user equipment according to the dynamic scheduling signaling.
  • the first base station needs to determine the content of the dynamic scheduling signaling in advance, and dynamically schedule the signaling before sending the dynamic scheduling signaling to the user equipment.
  • the content is sent to the second base station, and then the first base station sends dynamic scheduling signaling to the user equipment at a certain semi-persistent scheduling time, and the first base station and the second base station communicate with the user equipment according to the dynamic scheduling signaling.
  • the first base station sends the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the first base station sends the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the user equipment feeds back the semi-persistent scheduling deactivation confirmation information to the first base station.
  • the second base station receives the first base station sends the acknowledgement information.
  • the semi-persistent scheduling resource deactivation response information may be sent to the first base station.
  • the first base station sends the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • the first base station sends the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • the first base station needs to coordinate with the second base station, and configure a cooperation mode.
  • the first base station associates with the semi-persistent scheduling resource configuration information according to the semi-persistent scheduling resource configuration information.
  • the second base station communicates with the user equipment at a semi-persistent scheduling time.
  • the cooperation mode includes at least one of the following:
  • JT English full name; Joint processing
  • DPS English full name: Dynamic point selection
  • JR English full name: Joint processing
  • the DPS mode when the DPS is selected for the foregoing cooperative mode, the DPS mode is in different semi-persistent scheduling times, and the first base station performs communication with the user equipment of the second base station to communicate with the user equipment, and the process may be viewed.
  • the series of semi-persistent scheduling times calculated above is expressed as time 1, 2...., and the cells served by the second base station are represented as cell 1, cell 2, . . . , and the expected correspondence is assumed.
  • the sequence is that at the semi-persistent scheduling time 1, the joint cell 1 communicates with the user equipment, and at the semi-persistent scheduling time 2, the joint cell 2 communicates with the user equipment.
  • This description is only a semi-persistent scheduling time and a representation of the cell of the second base station, and has no other special meaning, and the above-mentioned expected corresponding order is only one implementation of the DPS, which is not limited by the embodiment of the present invention. .
  • the semi-persistent scheduling method provided by the embodiment of the present invention sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station by using the first base station, where the second base station may store the semi-persistent scheduling resource configuration information and the semi-persistent Schedule activation information. Therefore, resource configuration and allocation are not required in each scheduling, signaling and data transmission overhead are reduced, and the capacity and delay requirements of the backhaul link are low.
  • Another embodiment of the present invention provides a method for semi-persistent scheduling, which may be performed by a second base station. As shown in FIG. 2, the method includes:
  • the second base station receives semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station.
  • the second base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station communicate with the user equipment at a semi-persistent scheduling time. It should be noted that this step corresponds to step 02 above, and the related description is the same, and will not be described in detail herein.
  • the second base station receives the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station; and the second base station is configured according to the semi-persistent scheduling resource configuration information and the semi-persistent The scheduling activation information acquires the semi-persistent scheduling time.
  • the second base station relinquishes the current semi-persistent scheduling resource, and receives the dynamic scheduling information sent by the first base station, and associates the first base station according to the dynamic scheduling information, to replace the current semi-persistent scheduling. Communicating with the user equipment.
  • the second base station receives the semi-persistent scheduling deactivation information sent by the first base station, and deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the second base station receives the semi-persistent scheduling resource reconfiguration information sent by the first base station, and translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • the second base station coordinates with the first base station, and configures a collaboration mode
  • the second base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the cooperation mode includes at least one of the following:
  • the second base station receives the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information sent by the first base station, and implements cooperative semi-persistent scheduling between the first base station and the user equipment, thereby Reduce signaling and data transmission overhead, and require low capacity and latency for backhaul links.
  • the technical solution provided by another embodiment of the present invention may be applied to a CoMP collaboration architecture, where the CoMP collaboration architecture includes one serving cell and one or several coordinated cells.
  • the serving cell may be a cell that the user equipment accesses from the idle state to the connected state, for example, a cell that can be the primary base station. That is, the primary cell; in addition, the other cell that provides the service to the user equipment in the COMP mode may be a coordinated cell, for example, a cell that may be a secondary base station.
  • the first base station may be a primary base station, and the second base station may be a secondary base station.
  • the present invention provides a method for semi-persistent scheduling. As shown in FIG. 3, the method is performed by the first base station, and specifically includes:
  • the first base station coordinates with the second base station to determine a cooperation mode.
  • the value indicates that when the first base station coordinates with one or more second base stations, a plurality of cooperation modes may be selected, and the description of the cooperation mode is the same as the related content in the above step 02, and will not be described here.
  • the first base station generates semi-persistent scheduling resource configuration information.
  • the description of the configuration information of the semi-persistent scheduling resource is the same as that of the step 01 in Embodiment 1, and will not be described in detail herein.
  • the first base station may further send the semi-persistent scheduling resource configuration information to the user equipment, so that the user equipment stores the semi-persistent scheduling resource configuration information.
  • the first base station sends the semi-persistent scheduling resource configuration information to the second base station and the user equipment is executed in sequence, or simultaneously.
  • step 202 is specifically described herein, including: optionally, the first base station may coordinate with the second base station to determine semi-persistent scheduling resources before generating the semi-persistent scheduling resource configuration information.
  • steps F41 and F42 is in no particular order, and can also be performed simultaneously.
  • the second base station sends an SPS resource configuration response message to the first base station.
  • the semi-persistent scheduling resource configuration information provides a semi-persistent scheduling period, and the semi-persistent scheduling activation information in the following steps can periodically activate the semi-persistent scheduling resource according to the semi-persistent scheduling period.
  • the first base station generates semi-persistent scheduling activation information.
  • the first base station sends the semi-persistent scheduling activation information to the second base station, so that the second base station stores the semi-persistent scheduling resource allocated by the semi-persistent scheduling activation information.
  • the first base station sends the semi-persistent scheduling activation information to the user equipment, so that the user equipment stores the semi-persistent scheduling resource allocated by the semi-persistent scheduling activation information.
  • the first base station sends the semi-persistent scheduling activation information to the second base station and the execution order of the user equipment is in no order, and may also be performed simultaneously.
  • the order in which the first base station sends the semi-persistent scheduling activation information to the second base station and the user equipment causes the acquisition process of the subsequent semi-persistent scheduling time to change.
  • the first base station first sends the semi-persistent scheduling activation information to the user equipment, and then sends the information to the second base station, the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information need to be activated according to the semi-persistent scheduling information.
  • the semi-persistent scheduling time can be determined based on the TTI in which the semi-persistent scheduling activation information is sent to the user equipment.
  • the first base station acquires the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
  • steps 203, 204 are specifically described herein.
  • Implementation of 205 including:
  • the first base station coordinates with the second base station to determine an SPS resource
  • the first base station generates SPS activation information, and calculates an SPS time and a HARQ process ID.
  • the first base station sends the SPS activation information, the SPS time, and the HARQ process ID to the user equipment.
  • the first base station sends the SPS activation information, the SPS time, and the HARQ process ID to the second base station, so that the second base station determines the SPS time and the HARQ process number.
  • the second base station may send an SPS activation response message to the first base station.
  • the first base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station communicate with the user equipment at a semi-persistent scheduling time.
  • the second base station in this step communicates with the user equipment of the first base station according to the cooperation mode determined in step 200.
  • step 206 is specifically described herein, including:
  • the first base station temporarily uses dynamic scheduling to replace the pre-allocated resources of the semi-persistent scheduling at a certain time
  • the first base station simultaneously sends dynamic scheduling information to one or more second base stations.
  • the time is any semi-persistent scheduling time calculated in the above step 205.
  • the description of the dynamic scheduling at a certain time is the same as the related content of the dynamic scheduling at a certain time in the above step 02, and the description thereof will not be repeated here.
  • the method flowchart describes the configuration of the collaboration mode, and implements communication according to the configured cooperation manner.
  • the specific steps include:
  • the first base station coordinates with the second base station to determine a cooperation mode.
  • the first base station and the second base station dynamically determine a collaboration mode according to actual conditions.
  • the first base station and the second base station communicate with the user equipment together at a semi-persistent scheduling time according to a predetermined cooperation mode.
  • steps 207 and/or 208 may be performed.
  • the first base station generates semi-persistent scheduling deactivation information, and performs the following steps 207a and/or 207b, as shown in FIG. 8.
  • the first base station sends the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the user equipment feeds back the semi-persistent scheduling deactivation information confirmation information to the first base station.
  • the first base station sends the semi-persistent scheduling deactivation information to the second base station, so that the second base station releases the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • step 207b the executable steps are as follows:
  • the second base station may send an SPS resource deactivation response message to the first base station.
  • Step 207 describes the overall implementation of the deactivation of the SPS resources, enabling the user equipment and the second base station receiving the SPS deactivation information to translate the SPS resources.
  • the first base station generates semi-persistent scheduling resource reconfiguration information, where the semi-persistent scheduling resource reconfiguration information is a disable semi-persistent scheduling resource configuration. After generating the semi-persistent scheduling resource reconfiguration information, the following steps 208a and / or 208b are performed.
  • step 208 is specifically described in conjunction with the method flowchart of FIG. 9, including:
  • the first base station sends the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment disables the semi-persistent scheduling resource configuration according to the semi-persistent scheduling resource reconfiguration information.
  • step 208a After performing step 208a, the following steps may be performed:
  • the user equipment feeds back a message that the connection reconfiguration is completed to the first base station.
  • the first base station sends the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station releases the semi-persistent scheduling according to the semi-persistent scheduling resource reconfiguration information. Resources.
  • step 208b After performing step 208b, the following steps may be performed:
  • the second base station may send an SPS deactivation response message to the first base station.
  • the user equipment and/or the second base station receiving the semi-persistent scheduling resource reconfiguration information are simultaneously stored.
  • steps 207 and 208 are not limited to being performed in the order described above.
  • steps 200-208 can be performed in segments, and the functions implemented in each segmentation step are different.
  • step 200 determines a collaboration mode
  • steps 210-202 implement generation and transmission of semi-persistent scheduling resource configuration information.
  • 200-208 can also be executed in the order of this embodiment, which is a complete scheme for semi-persistent scheduling of CoMP and user equipment.
  • the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment, thereby Reduce signaling and data transmission overhead, and require low capacity and latency for backhaul links.
  • the CoMP architecture provided by another embodiment of the present invention is the same as the related description of the foregoing embodiment, and the description is not repeated here.
  • the embodiment of the present invention further provides a method for semi-persistent scheduling, which is performed by a second base station. As shown in FIG. 10, the method includes:
  • the second base station coordinates with the first base station to determine a cooperation mode.
  • the second base station receives the semi-persistent scheduling resource configuration information sent by the first base station, and stores the semi-persistent scheduling resource configuration information.
  • the second base station receives the semi-persistent scheduling activation information sent by the first base station, and stores the half. Persistent scheduling of semi-persistent scheduling resources allocated by activation information;
  • the second base station acquires the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
  • calculation method of the semi-persistent scheduling time in this step is the same as the calculation method in the above step 02, and the description is not repeated here.
  • the second base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station communicate with the user equipment at a semi-persistent scheduling time.
  • the second base station may perform the following steps 006 and/or 007 according to actual conditions.
  • the second base station receives the semi-persistent scheduling deactivation information sent by the first base station, and deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the second base station receives the semi-persistent scheduling resource reconfiguration information sent by the first base station, and releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
  • the execution order of the steps 006 and 007 is not limited to being performed in the sequence described above, as long as the second base station receives the semi-persistent scheduling deactivation information and/or the semi-persistent scheduling resource sent by the first base station.
  • the second base station receives the semi-persistent scheduling deactivation information and/or the semi-persistent scheduling resource sent by the first base station.
  • the execution order of the steps 006 and 007 is not limited to being performed in the sequence described above, as long as the second base station receives the semi-persistent scheduling deactivation information and/or the semi-persistent scheduling resource sent by the first base station.
  • reconfiguration information you can perform step 006 or step 007 as required.
  • the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment, thereby Reduce signaling and data transmission overhead, and require low capacity and latency for backhaul links.
  • the base station includes: a sending unit 31, and a processing unit 32.
  • the sending unit 31 is configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
  • the processing unit 32 is configured to perform, according to the semi-persistent scheduling resource configuration information sent by the sending unit 31, the semi-persistent scheduling activation information, and the second base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the sending unit 31 is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station is configured according to the semi-persistent Scheduling resource configuration information and the semi-persistent scheduling activation information acquire the semi-persistent scheduling time.
  • the base station further includes: abandon resource unit 33, a configuration unit 34, and abandon resource unit 33, for abandoning the current semi-persistent scheduling resource;
  • the sending unit 31 is further configured to send the dynamic scheduling information to the second base station, where the processing unit 32 is further configured to associate with the second base station according to the dynamic scheduling information sent by the sending unit 31, where The communication with the user equipment is performed in place of the current semi-persistent scheduling.
  • the sending unit 31 is further configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the information according to the semi-persistent scheduling, and releases the half. And persistently scheduling the resource; and/or transmitting the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
  • the sending unit 31 is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment performs the retransmission according to the semi-persistent scheduling resource reconfiguration information.
  • a semi-persistent scheduling resource; and/or, the semi-persistent scheduling resource reconfiguration information is sent to the second base station, so that the second base station releases the semi-persistent according to the semi-persistent scheduling resource reconfiguration information Schedule resources.
  • the configuration unit 34 is configured to coordinate with the second base station and configure a collaboration mode.
  • the processing unit 32 is specifically configured to:
  • the base station may send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station, and perform cooperative semi-persistent scheduling between the second base station and the user equipment, thereby reducing signaling and data transmission. Overhead, low capacity and latency requirements for backhaul links.
  • the base station includes: a receiving unit 41, a processing unit 42;
  • the receiving unit 41 is configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
  • the processing unit 42 is configured to perform, according to the semi-persistent scheduling resource configuration information received by the receiving unit 41 and the semi-persistent scheduling activation information, in conjunction with the first base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the receiving unit 41 is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information
  • the obtaining unit 43 obtains the semi-persistent scheduling time by using the semi-persistent scheduling resource configuration information received according to the receiving unit 41 and the semi-persistent scheduling activation information.
  • the base station further includes a relinquish resource unit 44, configured to abandon the current semi-persistent scheduling resource, and the receiving unit 41 is further configured to receive dynamic scheduling information sent by the first base station, where the processing unit 42 further And the first base station is used to perform communication with the user equipment instead of the current semi-persistent scheduling according to the dynamic scheduling information received by the receiving unit 41.
  • a relinquish resource unit 44 configured to abandon the current semi-persistent scheduling resource
  • the receiving unit 41 is further configured to receive dynamic scheduling information sent by the first base station, where the processing unit 42 further And the first base station is used to perform communication with the user equipment instead of the current semi-persistent scheduling according to the dynamic scheduling information received by the receiving unit 41.
  • the receiving unit 41 is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station, and further include a decoding unit 45, configured to receive the half according to the receiving unit 41.
  • the persistent scheduling resource reconfiguration information is used to translate the semi-persistent scheduling resource.
  • the configuration unit 46 is further configured to coordinate with the first base station and configure a collaboration mode.
  • the processing unit 42 is specifically configured to:
  • the first base station is combined with the semi-persistent scheduling time. Communicating with the user equipment.
  • the cooperation mode includes at least one of the following: JT, DPS, and JR.
  • the base station provided by the embodiment of the present invention sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station by using the first base station, so that the second base station receives and stores the information sent by the first base station, and then associates with the second base station and
  • the user equipment performs semi-persistent scheduling in a cooperative manner, thereby reducing signaling and data overhead, and has low requirements on the capacity and delay of the backhaul link.
  • the base station includes a transmitter 51, a processor 52;
  • a transmitter 51 configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
  • the processor 52 is configured to perform, according to the semi-persistent scheduling resource configuration information sent by the transmitter, the semi-persistent scheduling activation information, and the second base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the transmitter 51 is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station performs scheduling resources according to the semi-persistent
  • the configuration information and the semi-persistent scheduling activation information acquire the semi-persistent scheduling time.
  • the processor 52 is further configured to abandon the current semi-persistent scheduling resource
  • the transmitter 51 is further configured to send dynamic scheduling information to the second base station;
  • the processor 52 is further configured to join the second base station according to the dynamic scheduling information sent by the transmitter 51, to communicate with the user equipment instead of the current semi-persistent scheduling.
  • the transmitter 51 is further configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the information according to the semi-persistent scheduling, and releases the half. And persistently scheduling the resource; and/or, sending the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information .
  • the transmitter 51 is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment reconfigures resource according to the semi-persistent scheduling resource. Transmitting the semi-persistent scheduling resource; and/or, sending the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station releases the resource according to the semi-persistent scheduling resource reconfiguration information Semi-persistent scheduling resources.
  • the processor 52 is specifically configured to coordinate with the second base station, and configure a collaboration mode.
  • the second base station is jointly communicated with the user equipment at a semi-persistent scheduling time.
  • the cooperation mode includes at least one of the following: JT, DPS, and JR.
  • the base station includes: a receiver 61, a processor 62;
  • the receiver 61 is configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
  • the processor 62 is configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the first base station to communicate with the user equipment at a semi-persistent scheduling time.
  • the receiver 61 is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
  • the processor 62 is further configured to acquire the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information received by the receiver and the semi-persistent scheduling activation information.
  • the processor 62 is further configured to abandon the current semi-persistent scheduling resource
  • the receiver 61 is further configured to receive the dynamic scheduling information sent by the first base station, where the processor 62 is further configured to join the first base station according to the dynamic scheduling information received by the receiver 61, And communicating with the user equipment to replace the current semi-persistent scheduling.
  • the receiver 61 is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
  • the processor 62 is further configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information received by the receiver 61.
  • the receiver 61 is further configured to receive the semi-persistent tone sent by the first base station Degree resource reconfiguration information
  • the processor 62 is further configured to: release the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiver 61.
  • the processor 62 is specifically configured to coordinate with the first base station, and configure a cooperation mode; according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiver, according to the In the cooperative mode, the first base station is in communication with the user equipment at a semi-persistent scheduling time.
  • the cooperation mode includes at least one of the following: JT, DPS, and JR.
  • the base station provided by the embodiment of the present invention sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station by using the first base station, so that the second base station receives and stores the information sent by the first base station, and then associates with the second base station and
  • the user equipment performs semi-persistent scheduling in a cooperative manner, thereby reducing signaling and data overhead, and has low requirements on the capacity and delay of the backhaul link.
  • the present invention can be implemented by means of software plus necessary general hardware, and of course, by hardware, but in many cases, the former is a better implementation. .
  • the technical solution of the present invention which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a readable storage medium, such as a floppy disk of a computer.
  • a hard disk or optical disk or the like includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform the methods described in various embodiments of the present invention.

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Abstract

Disclosed are a semi-persistent scheduling method and a base station which relate to the technical field of communications, have no need to perform resource configuration and allocation during scheduling every time, reduce the signalling and data transmission overhead, and have low requirements for capacity and time delay on a backhaul link. The embodiments of the present invention comprise: a first base station transmitting semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to a second base station, and the first base station combining the second base station with a user equipment for communication at a semi-persistent scheduling time by means of the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information. The embodiments of the present invention are mainly applied in a semi-persistent scheduling flow.

Description

半持久调度的方法和基站 技术领域  Semi-persistent scheduling method and base station
本发明涉及通信技术领域, 尤其涉及一种半持久调度的方法和基站。 背景技术  The present invention relates to the field of communications technologies, and in particular, to a method and a base station for semi-persistent scheduling. Background technique
目前, 3GPP (英文全称为: 3rd Generation Partner Project, 中文全称为: 第 三代合作伙伴计划)高级长期演进版本 11 , 提供了 CoMP (英文全称为: coordinated multi-point transmission /reception , 中文全称为: 十办作多点发送 /接 收)技术, 该技术主要是通过多个小区按照一定的协作模式和 UE (英文全称: user equipment, 中文全称: 用户设备)进行通信。 现有 CoMP技术具体做法为 CoMP协作小区之间动态交互调度决策、 资源分配等控制信息和用户数据信 息。 At present, 3GPP (English full name: 3 rd Generation Partner Project, Chinese full name: 3rd Generation Partnership Project) Advanced Long Term Evolution Release 11 provides CoMP (English full name: coordinated multi-point transmission /reception, Chinese full name : Ten-does multi-point transmission/reception technology. This technology mainly communicates with multiple UEs according to a certain cooperation mode and UE (English name: user equipment, Chinese full name: user equipment). The existing CoMP technology is a control information and user data information such as dynamic interaction scheduling decision and resource allocation between CoMP cooperative cells.
在实现上述现有技术提供的技术方案的过程中, 发明人发现现有技术中 存在如下问题: 现有技术方案在 CoMP上交互控制信息和用户数据信息使用 于 CoMP协作的各个小区之间回程链路 (英文为: backhaul link )上的信令和 数据传输开销很大, 并且对回程链路的容量和时延要求较高。 发明内容  In the process of implementing the technical solutions provided by the foregoing prior art, the inventors have found that the following problems exist in the prior art: The prior art scheme uses the mutual control information and the user data information on the CoMP to use the backhaul chain between the cells of the CoMP cooperation. The signaling and data transmission overhead on the road (in English: backhaul link) is very expensive, and the capacity and delay requirements of the backhaul link are high. Summary of the invention
本发明的实施例提供一种半持久调度的方法和基站, 在 CoMP上能够实 现半持久调度, 从而能够降低信令和数据传输开销。  Embodiments of the present invention provide a method and base station for semi-persistent scheduling, which can implement semi-persistent scheduling on CoMP, thereby reducing signaling and data transmission overhead.
为达到上述目的, 本发明的实施例采用如下技术方案:  In order to achieve the above object, the embodiment of the present invention adopts the following technical solutions:
第一方面, 本发明提供了一种半持久调度的方法, 包括:  In a first aspect, the present invention provides a method for semi-persistent scheduling, including:
第一基站向第二基站发送半持久调度资源配置信息和半持久调度激活信 息;  The first base station sends semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
所述第一基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第二基站在半持久调度时间与用户设备进行通讯。  And the first base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station to communicate with the user equipment at a semi-persistent scheduling time.
在第一方面的第一种可能实现方式中, 还包括: 将所述半持久调度激活信息所对应的系统帧号和子帧号发送至所述第二 基站, 以使得所述第二基站根据所述半持久调度资源配置信息与所述半持久 调度激活信息获取所述半持久调度时间。 In a first possible implementation manner of the first aspect, the method further includes: Transmitting the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information to the second base station, so that the second base station acquires the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the semi-persistent scheduling resource configuration information The semi-persistent scheduling time.
结合第一方面、 第一方面第一种可能实现方式, 在第二种可能实现方式 中, 包括:  With reference to the first aspect, the first possible implementation manner of the first aspect, in the second possible implementation manner, the method includes:
放弃当前半持久调度资源;  Abandon the current semi-persistent scheduling resources;
将动态调度信息发送给所述第二基站;  Transmitting dynamic scheduling information to the second base station;
根据所述动态调度信息联合所述第二基站, 用以替代所述当前半持久调 度与所述用户设备进行通讯。  And synthesizing the second base station according to the dynamic scheduling information, to replace the current semi-persistent scheduling to communicate with the user equipment.
结合第一方面、 第一方面第一种可能实现方式以及第一方面第二种可能 实现方式, 在第三种可能实现方式中, 包括:  With reference to the first aspect, the first possible implementation manner of the first aspect, and the second possible implementation manner of the first aspect, in a third possible implementation manner, the method includes:
将所述半持久调度去激活信息发送给所述用户设备, 以使得所述用户设 备根据所述半持久调度去激活信息, 译放所述半持久调度资源; 和 /或,  Transmitting the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information; and/or,
将所述半持久调度去激活信息发送给所述第二基站, 以使得所述第二基 站根据所述半持久调度去激活信息 , 译放所述半持久调度资源。  Transmitting the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
结合第一方面、 第一方面第一种可能实现方式以及第一方面第二种可能 实现方式, 在第四种可能实现方式中, 包括:  With reference to the first aspect, the first possible implementation manner of the first aspect, and the second possible implementation manner of the first aspect, in a fourth possible implementation manner, the method includes:
将半持久调度资源重配置信息发送给所述用户设备, 以使得所述用户设 备根据所述半持久调度资源重配置信息译放所述半持久调度资源; 和 /或, 将半持久调度资源重配置信息发送给所述第二基站, 以使得所述第二基 站根据所述半持久调度资源重配置信息译放所述半持久调度资源。  Transmitting the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and/or The configuration information is sent to the second base station, so that the second base station translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
结合第一方面、 第一方面第一种可能实现方式、 第一方面第二种可能实 现方式、 第一方面地三种可能实现方式以及第一方面第四种可能实现方式, 在第五种可能实现方式中, 包括:  Combining the first aspect, the first possible implementation manner of the first aspect, the second possible implementation manner of the first aspect, the three possible implementation manners of the first aspect, and the fourth possible implementation manner of the first aspect, in the fifth possible Implementation methods include:
与所述第二基站进行协调, 并配置协作方式;  Coordinating with the second base station, and configuring a cooperation mode;
所述第一基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯, 具体 包括: The first base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station, communicate with the user equipment at a semi-persistent scheduling time, specifically Includes:
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所 述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种:  And communicating with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the cooperation manner, where the second base station communicates with the user equipment at a semi-persistent scheduling time; At least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。  JT joint transmission, DPS dynamic transmission point selection, and JR joint reception.
第二方面, 本发明提供了一种半持久调度的方法, 包括:  In a second aspect, the present invention provides a method for semi-persistent scheduling, including:
第二基站接收第一基站发送的半持久调度资源配置信息和半持久调度激 活信息;  The second base station receives the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information sent by the first base station;
所述第二基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第一基站在半持久调度时间与所述用户设备进行通讯。  And the second base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station to communicate with the user equipment at a semi-persistent scheduling time.
在第二方面的, 第一种可能实现方式中, 包括:  In the second aspect, the first possible implementation manner includes:
接收所述第一基站发送的所述半持久调度激活信息所对应的系统帧号和 子帧号;  Receiving a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
根据所述半持久调度资源配置信息与所述半持久调度激活信息获取所述 半持久调度时间。  Obtaining the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
结合第二方面、 第二方面第一种可能实现方式, 在第二种可能实现方式 中, 包括:  With reference to the second aspect, the first possible implementation manner of the second aspect, in the second possible implementation manner, the method includes:
放弃当前半持久调度资源;  Abandon the current semi-persistent scheduling resources;
接收所述第一基站发送的动态调度信息;  Receiving dynamic scheduling information sent by the first base station;
根据所述动态调度信息联合所述第一基站, 用以替代所述当前半持久调 度与所述用户设备进行通讯。  And combining the first base station according to the dynamic scheduling information, to replace the current semi-persistent scheduling to communicate with the user equipment.
结合第二方面、 第二方面第一种可能实现方式以及第二种可能实现方式, 在第三种可能实现方式中, 包括:  With reference to the second aspect, the first possible implementation manner of the second aspect, and the second possible implementation manner, in a third possible implementation manner, the method includes:
接收所述第一基站发送的所述半持久调度去激活信息;  Receiving, by the first base station, the semi-persistent scheduling deactivation information;
根据所述半持久调度去激活信息 , 译放所述半持久调度资源。  Deactivating the information according to the semi-persistent scheduling, and releasing the semi-persistent scheduling resource.
结合第二方面、 第二方面第一种可能实现方式以及第二种可能实现方式, 在第四种可能实现方式中, 包括: 接收所述第一基站发送的所述半持久调度资源重配置信息; 根据所述半持久调度资源重配置信息译放所述半持久调度资源。 With reference to the second aspect, the first possible implementation manner of the second aspect, and the second possible implementation manner, in a fourth possible implementation manner, the method includes: Receiving, by the first base station, the semi-persistent scheduling resource reconfiguration information; and releasing the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
结合第二方面、 第二方面第一种可能实现方式、 第二方面第二种可能实 现方式、 第二方面第三种可能实现方式、 第二方面第四种可能实现方式, 在 第五种可能实现方式中, 包括:  Combining the second aspect, the first possible implementation manner of the second aspect, the second possible implementation manner of the second aspect, the third possible implementation manner of the second aspect, the fourth possible implementation manner of the second aspect, and the fifth possible Implementation methods include:
与所述第二基站进行协调, 并配置协作方式;  Coordinating with the second base station, and configuring a cooperation mode;
所述第一基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯, 具体 包括:  And the first base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station, to communicate with the user equipment at a semi-persistent scheduling time, specifically:
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所 述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种:  And communicating with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the cooperation manner, where the second base station communicates with the user equipment at a semi-persistent scheduling time; At least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。  JT joint transmission, DPS dynamic transmission point selection, and JR joint reception.
第三方面, 本发明提供了一种基站, 包括:  In a third aspect, the present invention provides a base station, including:
发送单元, 用于将半持久调度资源配置信息和半持久调度激活信息发送 至第二基站;  a sending unit, configured to send the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station;
处理单元, 用于根据所述半持久调度资源配置信息与所述半持久调度激 活信息, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯。  And a processing unit, configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the second base station to communicate with the user equipment at a semi-persistent scheduling time.
在第三方面第一种可能的实现方式中, 包括:  In a first possible implementation manner of the third aspect, the method includes:
所述发送单元, 还用于将所述半持久调度激活信息所对应的系统帧号和 子帧号发送至所述第二基站, 以使得所述第二基站根据所述半持久调度资源 配置信息与所述半持久调度激活信息获取所述半持久调度时间。  The sending unit is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station performs resource configuration information according to the semi-persistent scheduling The semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
结合第三方面以及第三方面的第一种可能的实现方式, 在第二种可能的 实现方式中, 包括:  With reference to the third aspect and the first possible implementation manner of the third aspect, in a second possible implementation manner, the method includes:
放弃资源单元, 用于放弃当前半持久调度资源;  Abandon the resource unit to abandon the current semi-persistent scheduling resource;
所述发送单元, 还用于将动态调度信息发送给所述第二基站;  The sending unit is further configured to send dynamic scheduling information to the second base station;
所述处理单元, 还用于根据所述动态调度信息联合所述第二基站, 用以 替代所述当前半持久调度与所述用户设备进行通讯。 The processing unit is further configured to join the second base station according to the dynamic scheduling information, where The communication with the user equipment is performed in place of the current semi-persistent scheduling.
结合第三方面、 第三方面的第一种可能的实现方式、 第三方面的第二种 可能的实现方式, 在第三种可能的实现方式中, 包括:  With reference to the third aspect, the first possible implementation manner of the third aspect, and the second possible implementation manner of the third aspect, in a third possible implementation manner, the method includes:
所述发送单元, 还用于将所述半持久调度去激活信息发送给所述用户设 备, 以使得所述用户设备根据所述半持久调度去激活信息, 译放所述半持久 调度资源; 和 /或,  The sending unit is further configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information; and / or,
所述发送单元, 还用于将所述半持久调度去激活信息发送给第二基站, 以使得所述第二基站根据所述半持久调度去激活信息, 译放所述半持久调度 资源。  The sending unit is further configured to send the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
结合第三方面、 第三方面的第一种可能的实现方式、 第三方面的第二种 可能的实现方式, 在第四种可能的实现方式中, 包括:  With reference to the third aspect, the first possible implementation manner of the third aspect, and the second possible implementation manner of the third aspect, in a fourth possible implementation manner, the method includes:
所述发送单元, 还用于将所述半持久调度资源重配置信息发送所述给用 户设备, 以使得所述用户设备根据所述半持久调度资源重配置信息译放所述 半持久调度资源; 和 /或,  The sending unit is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and / or,
所述发送单元, 还用于将所述半持久调度资源重配置信息发送给所述第 二基站, 以使得所述第二基站根据所述半持久调度资源重配置信息译放所述 半持久调度资源。  The sending unit is further configured to send the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station releases the semi-persistent scheduling according to the semi-persistent scheduling resource reconfiguration information. Resources.
结合第三方面、 第三方面的第一种可能的实现方式、 第三方面的第二种 可能的实现方式、 第三方面的第三种可能的实现方式, 第三方面的第四种可 能的实现方式, 在第五种可能的实现方式中, 包括:  With reference to the third aspect, the first possible implementation manner of the third aspect, the second possible implementation manner of the third aspect, the third possible implementation manner of the third aspect, the fourth possible Implementation manner, in the fifth possible implementation manner, includes:
配置单元, 与所述第二基站进行协调, 并配置协作方式;  a configuration unit, coordinate with the second base station, and configure a collaboration mode;
所述处理单元, 具体用于:  The processing unit is specifically configured to:
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所 述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种:  And communicating with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the cooperation manner, where the second base station communicates with the user equipment at a semi-persistent scheduling time; At least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。  JT joint transmission, DPS dynamic transmission point selection, and JR joint reception.
第四方面, 本发明提供的一种基站, 包括: 接收单元, 用于接收第一基站发送的半持久调度资源配置信息和半持久 调度激活信息; In a fourth aspect, a base station provided by the present invention includes: a receiving unit, configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
处理单元, 用于根据所述半持久调度资源配置信息与所述半持久调度激 活信息, 联合所述第一基站在半持久调度时间与所述用户设备进行通讯。  And a processing unit, configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the first base station to communicate with the user equipment at a semi-persistent scheduling time.
在第四方面的第一种可能的实现方式中, 包括:  In a first possible implementation manner of the fourth aspect, the method includes:
所述接收单元, 还用于接收所述半持久调度激活信息所对应的系统帧号 和子帧号;  The receiving unit is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information;
获取单元, 用与根据所述接收单元接收的所述半持久调度资源配置信息 与所述半持久调度激活信息获取所述半持久调度时间。  And an obtaining unit, configured to acquire the semi-persistent scheduling time by using the semi-persistent scheduling resource configuration information received according to the receiving unit and the semi-persistent scheduling activation information.
结合第四方面、 第四方面的第一种可能的实现方式, 在第二种可能的实 现方式中, 包括:  With reference to the fourth aspect, the first possible implementation manner of the fourth aspect, in the second possible implementation manner, the method includes:
放弃资源单元, 用于放弃当前半持久调度资源;  Abandon the resource unit to abandon the current semi-persistent scheduling resource;
所述接收单元, 还用于接收所述第一基站发送的动态调度信息; 所述处理单元, 还用于根据所述动态调度信息联合所述第一基站, 用以 替代所述当前半持久调度与所述用户设备进行通讯。  The receiving unit is further configured to receive dynamic scheduling information that is sent by the first base station, where the processing unit is further configured to use the dynamic scheduling information to associate with the first base station to replace the current semi-persistent scheduling. Communicating with the user equipment.
结合第四方面、 第四方面的第一种可能的实现方式、 第四方面的第二种 可能的实现方式, 在第三种可能的实现方式中, 包括:  With reference to the fourth aspect, the first possible implementation manner of the fourth aspect, and the second possible implementation manner of the fourth aspect, in a third possible implementation manner, the method includes:
所述接收单元, 还用于接收所述第一基站发送的所述半持久调度去激活 信息;  The receiving unit is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
还包括译放单元, 用于根据所述接收单元接收的所述半持久调度资源重 配置信息译放所述半持久调度资源。  And a decoding unit, configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiving unit.
结合第四方面、 第四方面的第一种可能的实现方式、 第四方面的第二种 可能的实现方式, 在第四种可能的实现方式中, 包括:  With reference to the fourth aspect, the first possible implementation manner of the fourth aspect, and the second possible implementation manner of the fourth aspect, in a fourth possible implementation manner, the method includes:
所述接收单元, 还用于接收所述第一基站发送的所述半持久调度资源重 配置信息;  The receiving unit is further configured to receive the semi-persistent scheduling resource reconfiguration information sent by the first base station;
还包括译放单元, 用于根据所述接收单元接收的所述半持久调度资源重 配置信息译放所述半持久调度资源。 结合第四方面、 第四方面的第一种可能的实现方式、 第四方面的第二种 可能的实现方式、 第四方面的第三种可能的实现方式、 第四方面的第四种可 能的实现方式, 在第五种可能的实现方式中, 包括: And a decoding unit, configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiving unit. With reference to the fourth aspect, the first possible implementation manner of the fourth aspect, the second possible implementation manner of the fourth aspect, the third possible implementation manner of the fourth aspect, and the fourth possible Implementation manner, in the fifth possible implementation manner, includes:
配置单元, 用于与所述第一基站进行协调, 并配置协作方式;  a configuration unit, configured to coordinate with the first base station, and configure a collaboration mode;
所述处理单元, 具体用于:  The processing unit is specifically configured to:
根据接收到的所述半持久调度资源配置信息和所述半持久调度激活信 息, 按照所述协作方式, 联合所述第一基站在半持久调度时间与所述用户设 备进行通讯;  According to the received semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, according to the cooperation manner, the first base station is jointly communicated with the user equipment at a semi-persistent scheduling time;
其中, 所述协作方式包括以下至少一种:  The cooperation mode includes at least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。  JT joint transmission, DPS dynamic transmission point selection, and JR joint reception.
第五方面, 本发明提供的基站, 包括:  In a fifth aspect, the base station provided by the present invention includes:
发射机, 用于向第二基站发送半持久调度资源配置信息和半持久调度激 活信息;  a transmitter, configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
处理器, 用于根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯。  And a processor, configured to communicate with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, in conjunction with the second base station, at a semi-persistent scheduling time.
在第五方面的第一种可能的实现方式中, 包括:  In a first possible implementation manner of the fifth aspect, the method includes:
所述发射机, 还用于将所述半持久调度激活信息所对应的系统帧号和子 帧号发送至所述第二基站, 以使得第二基站根据所述半持久调度资源配置信 息与所述半持久调度激活信息获取所述半持久调度时间。  The transmitter is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station performs the semi-persistent scheduling resource configuration information according to the The semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
结合第五方面、 第五方面的第一种可能的实现方式, 在第二种可能的实 现方式中, 包括:  With reference to the fifth aspect, the first possible implementation manner of the fifth aspect, in the second possible implementation manner, the method includes:
所述处理器, 还用于放弃当前半持久调度资源;  The processor is further configured to abandon the current semi-persistent scheduling resource;
所述发射机, 还用于将动态调度信息发送给所述第二基站;  The transmitter is further configured to send dynamic scheduling information to the second base station;
所述处理器, 还用于根据所述发射机发送的动态调度信息联合所述第二 基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。  The processor is further configured to associate with the second base station according to the dynamic scheduling information sent by the transmitter, to replace the current semi-persistent scheduling with the user equipment for communication.
结合第五方面、 第五方面的第一种可能的实现方式、 第五方面的第二种 可能的实现方式, 在第三种可能的实现方式中, 所述发射机还用于: 将所述半持久调度去激活信息发送给所述用户设备, 以使得所述用户设 备根据所述半持久调度去激活信息, 译放所述半持久调度资源; 和 /或, With reference to the fifth aspect, the first possible implementation manner of the fifth aspect, and the second possible implementation manner of the fifth aspect, in a third possible implementation manner, the transmitter is further configured to: Transmitting the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information; and/or,
将所述半持久调度去激活信息发送给所述第二基站, 以使得所述第二基 站根据所述半持久调度去激活信息 , 译放所述半持久调度资源。  Transmitting the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
结合第五方面、 第五方面的第一种可能的实现方式、 第五方面的第二种 可能的实现方式, 在第四种可能的实现方式中, 所述发射机还用于:  With reference to the fifth aspect, the first possible implementation manner of the fifth aspect, and the second possible implementation manner of the fifth aspect, in a fourth possible implementation manner, the transmitter is further configured to:
将所述半持久调度资源重配置信息发送给所述用户设备, 以使得所述用 户设备根据所述半持久调度资源重配置信息译放所述半持久调度资源;和 /或 , 将所述半持久调度资源重配置信息发送给所述第二基站, 以使得所述第 二基站根据所述半持久调度资源重配置信息译放所述半持久调度资源。  Transmitting the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and/or, the half The persistent scheduling resource reconfiguration information is sent to the second base station, so that the second base station translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
结合第五方面、 第五方面的第一种可能的实现方式, 在第五种可能的实 现方式中, 包括:  With reference to the fifth aspect, the first possible implementation manner of the fifth aspect, in a fifth possible implementation manner, the method includes:
所述处理器, 具体用于:  The processor is specifically configured to:
与所述第二基站进行协调, 并配置协作方式;  Coordinating with the second base station, and configuring a cooperation mode;
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所 述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种:  And communicating with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the cooperation manner, where the second base station communicates with the user equipment at a semi-persistent scheduling time; At least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。  JT joint transmission, DPS dynamic transmission point selection, and JR joint reception.
第六方面, 本发明的基站, 包括:  In a sixth aspect, the base station of the present invention includes:
接收机, 用于接收第一基站发送的半持久调度资源配置信息和半持久调 度激活信息;  a receiver, configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
处理器, 用于根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第一基站在半持久调度时间与用户设备进行通讯。  And a processor, configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the first base station to communicate with the user equipment at a semi-persistent scheduling time.
在第六方面的第一种可能的实现方式中, 包括:  In a first possible implementation manner of the sixth aspect, the method includes:
所述接收机, 还用于接收所述第一基站发送的所述半持久调度激活信息 所对应的系统帧号和子帧号;  The receiver is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
所述处理器, 还用于根据所述接收机接收的所述半持久调度资源配置信 息与所述半持久调度激活信息获取所述半持久调度时间。 The processor is further configured to: according to the semi-persistent scheduling resource configuration information received by the receiver And the semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
结合第六方面、 第六方面的第一种可能实现方式, 在第二种可能实现方 式中, 包括:  With reference to the sixth aspect, the first possible implementation manner of the sixth aspect, in the second possible implementation manner, the method includes:
所述处理器, 还用于放弃当前半持久调度资源;  The processor is further configured to abandon the current semi-persistent scheduling resource;
所述接收机, 还用于接收所述第一基站发送的动态调度信息;  The receiver is further configured to receive dynamic scheduling information sent by the first base station;
所述处理器, 还用于根据所述接收机接收的所述动态调度信息联合所述 第一基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。  The processor is further configured to associate with the first base station according to the dynamic scheduling information received by the receiver, to replace the current semi-persistent scheduling with the user equipment for communication.
结合第六方面、 第六方面的第一种可能实现方式、 第六方面的第二种可 能实现方式, 在第三种可能实现方式中, 包括:  With reference to the sixth aspect, the first possible implementation manner of the sixth aspect, and the second possible implementation manner of the sixth aspect, in a third possible implementation manner, the method includes:
所述接收机, 还用于接收所述第一基站发送的所述半持久调度去激活信 息;  The receiver is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
所述处理器, 还用于根据所述接收机接收的所述半持久调度去激活信息 , 译放所述半持久调度资源。  The processor is further configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information received by the receiver.
结合第六方面、 第六方面的第一种可能实现方式、 第六方面的第二种可 能实现方式, 在第四种可能实现方式中, 包括:  With reference to the sixth aspect, the first possible implementation manner of the sixth aspect, and the second possible implementation manner of the sixth aspect, in a fourth possible implementation manner, the method includes:
所述接收机, 还用于接收所述第一基站发送的所述半持久调度资源重配 置信息;  The receiver is further configured to receive the semi-persistent scheduling resource reconfiguration information sent by the first base station;
所述处理器, 还用于根据所述接收机接收的所述半持久调度资源重配置 信息, 译放所述的半持久调度资源。  The processor is further configured to: release the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiver.
结合第六方面、 第六方面的第一种可能实现方式, 在第五种可能实现方 式中, 所述处理器具体包括:  With reference to the sixth aspect, the first possible implementation manner of the sixth aspect, in a fifth possible implementation manner, the processor specifically includes:
与所述第一基站进行协调, 并配置协作方式;  Coordinating with the first base station and configuring a cooperation mode;
根据所述接收机接收到的所述半持久调度资源配置信息和所述半持久调 度激活信息, 按照所述协作方式, 联合所述第一基站在半持久调度时间与所 述用户设备进行通讯;  According to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiver, according to the cooperation manner, the first base station is jointly communicated with the user equipment at a semi-persistent scheduling time;
其中, 所述协作方式包括以下至少一种:  The cooperation mode includes at least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 本发明实施例提供的半持久调度的方法和基站, 第一基站将半持久调度 资源配置信息和半持久调度激活信息发送给第二基站, 联合第二基站与用户 设备之间实现协作半持久调度, 不需要在每次调度时进行资源配置与分配, 从而降低信令和数据传输开销, 对回程链路的容量和时延要求低。 附图说明 JT joint transmission, DPS dynamic transmission point selection, and JR joint reception. The semi-persistent scheduling method and the base station provided by the embodiment of the present invention, the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment. There is no need to configure and allocate resources during each scheduling, thereby reducing signaling and data transmission overhead, and requiring low capacity and delay for the backhaul link. DRAWINGS
为了更清楚地说明本发明实施例或现有技术中的技术方案, 下面将对实 施例或现有技术描述中所需要使用的附图作简单地介绍, 显而易见地, 下面 描述中的附图仅仅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 embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.
图 1为本发明一实施例中提供的一种半持久调度方法的流程图; 图 2为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 3为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 4为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 5为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 6为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 7为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 8为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 9为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 10为本发明另一实施例中提供的一种半持久调度方法的流程图; 图 11为本发明另一实施例中提供的一种基站的组成框图;  1 is a flowchart of a semi-persistent scheduling method according to an embodiment of the present invention; FIG. 2 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention; FIG. 4 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention; FIG. 5 is a flowchart of another embodiment of the present invention; FIG. 6 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention; FIG. 7 is a semi-persistent scheduling method according to another embodiment of the present invention; FIG. 8 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention; FIG. 9 is a flowchart of a semi-persistent scheduling method according to another embodiment of the present invention; A flowchart of a semi-persistent scheduling method provided in another embodiment of the present invention; FIG. 11 is a block diagram of a base station according to another embodiment of the present invention;
图 12为本发明另一实施例中提供的一种基站的组成框图;  FIG. 12 is a structural block diagram of a base station according to another embodiment of the present invention;
图 13为本发明另一实施例中提供的一种基站的组成框图;  FIG. 13 is a structural block diagram of a base station according to another embodiment of the present invention;
图 14为本发明另一实施例中提供的一种基站的组成框图;  FIG. 14 is a structural block diagram of a base station according to another embodiment of the present invention;
图 15为本发明另一实施例中提供的一种基站的组成框图。 具体实施方式  FIG. 15 is a structural block diagram of a base station according to another embodiment of the present invention. detailed description
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, 所描述的实施例仅仅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作 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。 本发明一实施例提供了一种半持久调度的方法, 该方法可由第一基站执 行, 如图 1所示, 该方法包括: The technical solution in the embodiment of the present invention will be described below with reference to the accompanying drawings in the embodiments of the present invention. It is clear that the described embodiments are only a part of the embodiments 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. An embodiment of the present invention provides a method for semi-persistent scheduling, which may be performed by a first base station. As shown in FIG. 1, the method includes:
01、 第一基站向第二基站发送半持久调度资源配置信息和半持久调度激 活信息。  01. The first base station sends semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station.
可选的, 第一基站以及第二基站存储所述半持久调度资源配置信息和半 持久调度激活信息。  Optionally, the first base station and the second base station store the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
可选的,步骤 01中的半持久调度资源配置信息可以但不限定于通过 RRC (英文全称为: Radio Resource Control, 中文全称为: 无线资源控制)信令向 第二基站发送。  Optionally, the semi-persistent scheduling resource configuration information in step 01 may be, but is not limited to, being sent to the second base station by using RRC (English full name: Radio Resource Control).
另外, 半持久调度资源配置信息包括上行半持久调度资源配置信息和 /或 下行半持久调度资源配置信息。 所述上行半持久调度资源配置信息包括以下 一种或任意种: 半持久调度-小区无线资源临时标识 (英文全称为: Semi-persisten scheduling-Cell Radio Network Temporary- Identifier, 英文简称 为: SPS C-RNTI )、 半持久调度周期、 上行功率控制参数。 所述下行半持久调 度资源配置信息包括以下一种或任意种:半持久调度 -小区无线资源临时标识、 半持久调度周期、 混合自动重传请求进程(英文全称为: Hybrid Automatic Repeat Request process , 英文简称为: HARQ process ) 个数。  In addition, the semi-persistent scheduling resource configuration information includes uplink semi-persistent scheduling resource configuration information and/or downlink semi-persistent scheduling resource configuration information. The uplink semi-persistent scheduling resource configuration information includes one or any of the following types: Semi-persistent scheduling-Cell radio resource temporary identifier (English name: Semi-persisten scheduling-Cell Radio Network Temporary-Identifier, English abbreviation: SPS C- RNTI), semi-persistent scheduling period, uplink power control parameters. The downlink semi-persistent scheduling resource configuration information includes one or any of the following: semi-persistent scheduling - cell radio resource temporary identifier, semi-persistent scheduling period, and hybrid automatic repeat request process (English full name: Hybrid Automatic Repeat Request process, English) Referred to as: HARQ process).
此外, 所述第一基站向第二基站发送半持久调度资源配置信息可以但不 局限于通过以下两种方法实现:  In addition, the sending, by the first base station, the semi-persistent scheduling resource configuration information to the second base station may be implemented by using the following two methods:
第一种方法: 第一基站将所述半持久调度资源配置信息分别发送给多个 第二基站。  The first method: the first base station separately sends the semi-persistent scheduling resource configuration information to multiple second base stations.
其中, 所述多个第二基站即为当前需要接收该半持久调度资源配置信息 的所有基站。 第二种方法: 由第一基站先将所述半持久调度资源配置信息发送给一个 或多个第二基站, 然后由先接到上述半持久调度资源配置信息的第二基站再 将所述半持久调度资源配置信息发送给其它第二基站。 The multiple second base stations are all base stations that need to receive the semi-persistent scheduling resource configuration information. a second method: the first base station first sends the semi-persistent scheduling resource configuration information to one or more second base stations, and then the second base station that first receives the semi-persistent scheduling resource configuration information The persistent scheduling resource configuration information is sent to other second base stations.
可选的, 步骤 01所述的半持久调度激活信息包括上行半持久调度激活信 息和 /或下行半持久调度激活信息, 上、 下行半持久调度激活信息至少包括以 下一种或任意种: 物理资源块分配、 调制编码方式、 传输块大小。 半持久调 度激活信息也可以称为半持久调度资源分配信息, 包括下行资源分配 Optionally, the semi-persistent scheduling activation information in the step 01 includes the uplink semi-persistent scheduling activation information and/or the downlink semi-persistent scheduling activation information, where the uplink and downlink semi-persistent scheduling activation information includes at least one of the following: Block allocation, modulation coding method, transport block size. Semi-persistent scheduling activation information may also be referred to as semi-persistent scheduling resource allocation information, including downlink resource allocation.
( downlink assignment )和上行授权 ( uplink grant )。 第一基站可以多次将相同 或不同半持久调度激活信息发送给一个或多个第二基站。 (downlink assignment) and uplink grant (uplink grant). The first base station may transmit the same or different semi-persistent scheduling activation information to one or more second base stations multiple times.
02、 第一基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第二基站在半持久调度时间与用户设备进行通讯。  02. The first base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station communicate with the user equipment at a semi-persistent scheduling time.
可选的, 在第一基站确定好半持久调度资源配置信息与半持久调度激活 信息之后, 按照预设激活策略获取 SPS (英文全称为: Semi-persistent scheduling , 中文全称为: 半持久调度)对应的子帧信息, 并把所述 SPS对 应的系统帧号、 子帧号信息发送给一个或多个第二基站, 使得所述第二基站 可以根据预设激活策略、 半持久调度资源配置信息和半持久调度激活信息获 取半持久调度时间。 所述预设激活策略可设置为依照以下公式 ( 1 )、 (2 )、 ( 3 )。 当第一基站将新的半持久调度激活信息发送给第二基站的情况下, 第 一基站根据同样的预设激活策略获取新的 SPS对应的子帧信息,并把新的 SPS 对应的系统帧号、 子帧号信息发送给一个或多个第二基站。  Optionally, after the first base station determines the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the SPS is obtained according to the preset activation policy (English full name: Semi-persistent scheduling, Chinese full name: semi-persistent scheduling) The subframe information, and the system frame number and the subframe number information corresponding to the SPS are sent to one or more second base stations, so that the second base station can perform resource allocation information according to a preset activation policy, semi-persistent scheduling, and Semi-persistent scheduling activation information acquires semi-persistent scheduling time. The preset activation policy may be set to follow the following formulas (1), (2), (3). When the first base station sends the new semi-persistent scheduling activation information to the second base station, the first base station acquires the subframe information corresponding to the new SPS according to the same preset activation policy, and sets the system frame corresponding to the new SPS. The number and subframe number information are sent to one or more second base stations.
对于下行 SPS激活信息,第 Ν个下行 SPS资源分配所位于的子帧信息为: For the downlink SPS activation information, the subframe information in which the downlink downlink SPS resource allocation is located is:
(10 * SFN + subframe) = [(10 * SFNstart time + subframestart time) + N * semiPersistSchedlntervalDL] modulo 10240 公式 ( 1 ) (10 * SFN + subframe) = [(10 * SFNstart time + subframestart time) + N * semiPersistSchedlntervalDL] modulo 10240 Formula (1)
其中, SFN (英文全称为: System Frame Number , 中文全称为: 小区系 统帧号计数器)指第 Ν个 SPS时间所位于的系统帧号; subframe指第 N个 SPS 时间所位于的子帧号; SFNstart time指下行 SPS激活信息对应的系统帧号; subframestart time 指 下 行 SPS 激 活 信 息 对 应 的 子 帧 号 ; semiPersistSchedlntervalDL指下行半持久调度周期,所述下行半持久调度周期 是通过 RRC配置的; Modulo为取模运算。 SFN (English full name: System Frame Number, Chinese full name: cell system frame number counter) refers to the system frame number where the second SPS time is located; subframe refers to the subframe number where the Nth SPS time is located; SFNstart Time refers to the system frame number corresponding to the downlink SPS activation information; the subframe start time refers to the subframe number corresponding to the downlink SPS activation information; The semiPersistSchedlntervalDL refers to a downlink semi-persistent scheduling period, and the downlink semi-persistent scheduling period is configured through RRC; Modulo is a modulo operation.
HARQ (英文全称为: hybrid automatic retransmission request,中文全称为: 混合自动重发请求)进程号信息:  HARQ (English full name: hybrid automatic retransmission request, Chinese full name: hybrid automatic retransmission request) process number information:
HARQ Process ID = [floor(CURRENT_TTI/semiPersistSchedIntervalDL)] modulo numberOfConfSPS-Processes, 其中 CURRENT— TTI=[(SFN * 10) + sub frame number] 公式 ( 2 ) HARQ Process ID = [floor(CURRENT_TTI/semiPersistSchedIntervalDL)] modulo numberOfConfSPS-Processes, where CURRENT_ TTI=[(SFN * 10) + sub frame number] Formula ( 2 )
HARQ Process ID指 HARQ进程号, 基于 HARQ进程号来确定 HARQ process个数; CURRENT— TTI为当前调度时间间隔; floor指向下取整运算; number Of ConfSPS-Processes指通过 RRC信令所配置的下行 SPS HARQ进程 数信息。 The HARQ process ID refers to the HARQ process ID, and determines the number of HARQ processes based on the HARQ process number; CURRENT_TTI is the current scheduling time interval; floor points to the next rounding operation; number Of ConfSPS-Processes refers to the downlink SPS configured through RRC signaling HARQ process number information.
对于上行 SPS激活信息, 第 N个上行 SPS资源分配所位于的子帧信息: (10 * SFN + subframe) = [(10 * SFNstart time + subframestart time) + N * semiPersistSchedlntervalUL + Subframe— Offset * (N modulo 2)] modulo For the uplink SPS activation information, the subframe information in which the Nth uplink SPS resource allocation is located: (10 * SFN + subframe) = [(10 * SFNstart time + subframestart time) + N * semiPersistSchedlntervalUL + Subframe - Offset * (N modulo 2)] modulo
10240 公式(3 ) 其中, semiPersistSchedlntervalUL 为上行半持久调度周期; Subframe— Offset对于频分双工 FDD模式为 0, 对于时分双工 TDD模式由 Table 1确定。 10240 Equation (3) where semiPersistSchedlntervalUL is the uplink semi-persistent scheduling period; Subframe_Offset is 0 for the frequency division duplex FDD mode and determined by Table 1 for the time division duplex TDD mode.
Table 1 : Subframe Offset values子帧偏移值 Table 1 : Subframe Offset values subframe offset value
Figure imgf000016_0001
值得说明的是, 第一基站将所述半持久调度激活信息、 所述 SPS资源所 对应的系统帧号、 子帧号发送给第二基站时, 发送方式与上述步骤 01中, 向 第二基站发送半持久调度资源配置信息的实现方法相同, 在此不再详细描述。
Figure imgf000016_0001
It is to be noted that, when the first base station sends the semi-persistent scheduling activation information, the system frame number and the subframe number corresponding to the SPS resource to the second base station, the sending manner is the same as the foregoing step 01, to the second base station. The implementation method of sending semi-persistent scheduling resource configuration information is the same, and will not be described in detail here.
此外, 值得说明的是, 半持久调度激活信息提供可调用半持久调度资源, 半持久调度配置信息提供半持久调度周期, 能够使半持久调度激活信息按照 半持久调度周期来周期性使用半持久调度资源。 在本步骤中获取的半持久调 度时间, 可以为执行半持久调度的一系列时间, 该时间是以 SPS激活信息所 对应的子帧号为起始时间, 以 SPS配置信息中的 SPS周期为周期的一系列时 间。  In addition, it is worth noting that the semi-persistent scheduling activation information provides a semi-persistent scheduling resource, and the semi-persistent scheduling configuration information provides a semi-persistent scheduling period, which enables semi-persistent scheduling activation information to periodically use semi-persistent scheduling according to a semi-persistent scheduling period. Resources. The semi-persistent scheduling time obtained in this step may be a series of times for performing semi-persistent scheduling, where the time is the start time of the subframe number corresponding to the SPS activation information, and the SPS period in the SPS configuration information is used as the period. a series of time.
可选的, 第一基站还可以放弃当前的半持久调度资源; 并将动态调度信 息发送给第二基站; 根据所述动态调度信息联合所述第二基站, 用以代替所 述当前半持久调度与所述用户设备进行通讯。  Optionally, the first base station may also abandon the current semi-persistent scheduling resource; and send the dynamic scheduling information to the second base station; and the second base station according to the dynamic scheduling information, to replace the current semi-persistent scheduling Communicating with the user equipment.
进一步的, 半持久调度过程中, 在某一个半持久调度时间可以执行动态 调度, 此时, 第一基站以及第二基站要暂时放弃当前的半持久调度资源, 在 这个执行动态调度的时间过后继续按照之前的半持久调度资源与用户设备进 行通讯。 如果第一基站和第二基站之间回程链路为理想链路, 即零延迟的情 况, 第一基站在某半持久调度时间给用户设备发送动态调度信令, 并将动态 调度信令发送给第二基站, 第一基站和第二基站按照动态调度信令与用户设 备进行通讯。 如果第一基站和第二基站之间回程链路存在一定的延迟, 则第 一基站需要预先确定动态调度信令的内容, 在将动态调度信令发送给用户设 备之前, 提前将动态调度信令的内容发送给第二基站, 然后第一基站在某半 持久调度时间给用户设备发送动态调度信令, 第一基站和第二基站按照动态 调度信令与用户设备进行通讯。 Further, in the semi-persistent scheduling process, dynamic scheduling may be performed at a certain semi-persistent scheduling time. At this time, the first base station and the second base station temporarily abandon the current semi-persistent scheduling resource, and continue after the time for performing the dynamic scheduling. According to the previous semi-persistent scheduling resources and user equipment Line communication. If the backhaul link between the first base station and the second base station is an ideal link, that is, a zero delay, the first base station sends dynamic scheduling signaling to the user equipment at a certain semi-persistent scheduling time, and sends dynamic scheduling signaling to the The second base station, the first base station and the second base station communicate with the user equipment according to the dynamic scheduling signaling. If the backhaul link between the first base station and the second base station has a certain delay, the first base station needs to determine the content of the dynamic scheduling signaling in advance, and dynamically schedule the signaling before sending the dynamic scheduling signaling to the user equipment. The content is sent to the second base station, and then the first base station sends dynamic scheduling signaling to the user equipment at a certain semi-persistent scheduling time, and the first base station and the second base station communicate with the user equipment according to the dynamic scheduling signaling.
可选的, 第一基站将所述半持久调度去激活信息发送给所述用户设备, 以使得所述用户设备根据所述半持久调度去激活信息 , 译放所述半持久调度 资源。  Optionally, the first base station sends the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
可选的, 第一基站将所述半持久调度去激活信息发送给所述第二基站, 以使得所述第二基站根据所述半持久调度去激活信息, 译放所述半持久调度 资源。  Optionally, the first base station sends the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
可选的, 在第一基站向用户设备发送半持久调度去激活信息之后, 用户 设备会向第一基站反馈半持久调度去激活确认信息; 同样的, 在第二基站接 收到第一基站发送的半持久调度去激活信息之后, 可以向第一基站发送半持 久调度资源去激活响应信息。  Optionally, after the first base station sends the semi-persistent scheduling deactivation information to the user equipment, the user equipment feeds back the semi-persistent scheduling deactivation confirmation information to the first base station. Similarly, the second base station receives the first base station sends the acknowledgement information. After the semi-persistent scheduling deactivation information, the semi-persistent scheduling resource deactivation response information may be sent to the first base station.
可选的, 第一基站将半持久调度资源重配置信息发送给所述用户设备, 以使得所述用户设备根据所述半持久调度资源重配置信息译放所述半持久调 度资源。  Optionally, the first base station sends the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
可选的, 第一基站将半持久调度资源重配置信息发送给所述第二基站, 以使得所述第二基站根据所述半持久调度资源重配置信息译放所述半持久调 度资源。  Optionally, the first base station sends the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
可选的, 在执行步骤 01之前, 第一基站需要与所述第二基站进行协调, 并配置协作方式。  Optionally, before performing step 01, the first base station needs to coordinate with the second base station, and configure a cooperation mode.
第一基站根据半持久调度资源配置信息与所述半持久调度激活信息, 联 合所述第二基站在半持久调度时间与所述用户设备进行通讯。 The first base station associates with the semi-persistent scheduling resource configuration information according to the semi-persistent scheduling resource configuration information. The second base station communicates with the user equipment at a semi-persistent scheduling time.
其中, 所述协作方式包括以下至少一种:  The cooperation mode includes at least one of the following:
JT (英文全称为; Joint processing )联合发送、 DPS (英文全称为: Dynamic point selection )动态传输点选择、 JR (英文全称为: Joint processing )联合接 收。  JT (English full name; Joint processing) joint transmission, DPS (English full name: Dynamic point selection) dynamic transmission point selection, JR (English full name: Joint processing) joint reception.
可选的, 在本实施例中对于上述协作方式选择 DPS时, DPS方式即在不 同的半持久调度时间, 第一基站联合不同的第二基站服务的小区与用户设备 进行通讯, 该过程可看作流水作业形式。 例如, 将上述计算得出的一系列半 持久调度时间表示为时间 1、 2.... , 将第二基站服务的小区表示为小区 1、 小 区 2..... , 且假设预计的对应顺序为在半持久调度时间 1 , 联合小区 1与用户 设备进行通讯, 在半持久调度时间 2, 联合小区 2与用户数设备进行通讯。 该 处描述的只是半持久调度时间以及第二基站的小区的一种表示方式, 并无其 他特殊含义, 且上述预计的对应顺序只是 DPS的一种实现方式, 本发明实施 例对此不进行限制。  Optionally, in the foregoing embodiment, when the DPS is selected for the foregoing cooperative mode, the DPS mode is in different semi-persistent scheduling times, and the first base station performs communication with the user equipment of the second base station to communicate with the user equipment, and the process may be viewed. As a form of flow operation. For example, the series of semi-persistent scheduling times calculated above is expressed as time 1, 2...., and the cells served by the second base station are represented as cell 1, cell 2, . . . , and the expected correspondence is assumed. The sequence is that at the semi-persistent scheduling time 1, the joint cell 1 communicates with the user equipment, and at the semi-persistent scheduling time 2, the joint cell 2 communicates with the user equipment. This description is only a semi-persistent scheduling time and a representation of the cell of the second base station, and has no other special meaning, and the above-mentioned expected corresponding order is only one implementation of the DPS, which is not limited by the embodiment of the present invention. .
本发明实施例提供的半持久调度的方法, 通过第一基站向第二基站发送 半持久调度资源配置信息和半持久调度激活信息, 第二基站可以存储上述的 半持久调度资源配置信息以及半持久调度激活信息。 从而不需要在每次调度 时进行资源配置与分配, 降低了信令和数据传输开销, 对回程链路的容量和 时延要求较低。  The semi-persistent scheduling method provided by the embodiment of the present invention sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station by using the first base station, where the second base station may store the semi-persistent scheduling resource configuration information and the semi-persistent Schedule activation information. Therefore, resource configuration and allocation are not required in each scheduling, signaling and data transmission overhead are reduced, and the capacity and delay requirements of the backhaul link are low.
本发明另一实施例提供了一种半持久调度的方法, 该方法可由第二基站 执行, 如图 2所示, 该方法包括:  Another embodiment of the present invention provides a method for semi-persistent scheduling, which may be performed by a second base station. As shown in FIG. 2, the method includes:
101、 第二基站接收第一基站发送的半持久调度资源配置信息和半持久调 度激活信息。  101. The second base station receives semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station.
值得说明的是本步骤描述的半持久资源配置信息和半持久调度激活信息 与上述步骤 01中的相关描述相同, 在此不再重复说明。  It should be noted that the semi-persistent resource configuration information and the semi-persistent scheduling activation information described in this step are the same as those in the foregoing step 01, and the description is not repeated here.
102、 所述第二基站根据所述半持久调度资源配置信息与所述半持久调度 激活信息, 联合所述第一基站在半持久调度时间与所述用户设备进行通讯。 值得说明的是, 该步骤与上述步骤 02是对应的, 相关描述相同, 在此不 再伴细说明。 102. The second base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station communicate with the user equipment at a semi-persistent scheduling time. It should be noted that this step corresponds to step 02 above, and the related description is the same, and will not be described in detail herein.
可选的, 第二基站接收所述第一基站发送的所述半持久调度激活信息所 对应的系统帧号和子帧号; 且第二基站根据所述半持久调度资源配置信息与 所述半持久调度激活信息获取所述半持久调度时间。  Optionally, the second base station receives the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station; and the second base station is configured according to the semi-persistent scheduling resource configuration information and the semi-persistent The scheduling activation information acquires the semi-persistent scheduling time.
可选的, 第二基站放弃当前半持久调度资源, 并接收所述第一基站发送 的动态调度信息, 并根据所述动态调度信息联合所述第一基站, 用以替代所 述当前半持久调度与所述用户设备进行通讯。  Optionally, the second base station relinquishes the current semi-persistent scheduling resource, and receives the dynamic scheduling information sent by the first base station, and associates the first base station according to the dynamic scheduling information, to replace the current semi-persistent scheduling. Communicating with the user equipment.
可选的, 第二基站接收所述第一基站发送的所述半持久调度去激活信息, 并根据所述半持久调度去激活信息, 译放所述半持久调度资源。  Optionally, the second base station receives the semi-persistent scheduling deactivation information sent by the first base station, and deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
可选的, 第二基站接收所述第一基站发送的所述半持久调度资源重配置 信息, 并根据所述半持久调度资源重配置信息译放所述半持久调度资源。  Optionally, the second base station receives the semi-persistent scheduling resource reconfiguration information sent by the first base station, and translates the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
可选的, 在执行步骤 101 之前, 第二基站与所述第一基站进行协调, 并 配置协作方式;  Optionally, before performing step 101, the second base station coordinates with the first base station, and configures a collaboration mode;
所述第二基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第一基站在半持久调度时间与所述用户设备进行通讯。  And the second base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station to communicate with the user equipment at a semi-persistent scheduling time.
其中, 所述协作方式包括以下至少一种:  The cooperation mode includes at least one of the following:
JT、 DPS , JR。  JT, DPS, JR.
值得说明的是, 此处描述的协作方式与上述对协作方式的描述是相同的, 在此不再重复说明。  It should be noted that the cooperation manner described herein is the same as the above description of the cooperation mode, and the description is not repeated here.
本发明实施例提供的半持久调度的方法, 第二基站接收第一基站发送的 半持久调度资源配置信息和半持久调度激活信息, 联合第一基站与用户设备 之间实现协作半持久调度, 从而降低信令和数据传输开销, 对回程链路的容 量和时延要求低。  The semi-persistent scheduling method provided by the embodiment of the present invention, the second base station receives the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information sent by the first base station, and implements cooperative semi-persistent scheduling between the first base station and the user equipment, thereby Reduce signaling and data transmission overhead, and require low capacity and latency for backhaul links.
本发明另一实施例提供的技术方案可以应用于 CoMP 协作架构中, 该 CoMP协作架构包括一个服务小区以及一个或若干个协作小区。服务小区可以 为用户设备从空闲态变为连接态所接入的小区, 例如, 可以为主基站的小区 即主小区; 此外, 除服务小区外, 通过 COMP方式向用户设备提供服务的其 他小区可以为协作小区, 例如可以为辅基站的小区。 此外, 第一基站可以为 主基站, 第二基站可以为辅基站。 在应用于不同网络架构时, 对执行相同功 能设备的不同描述。 The technical solution provided by another embodiment of the present invention may be applied to a CoMP collaboration architecture, where the CoMP collaboration architecture includes one serving cell and one or several coordinated cells. The serving cell may be a cell that the user equipment accesses from the idle state to the connected state, for example, a cell that can be the primary base station. That is, the primary cell; in addition, the other cell that provides the service to the user equipment in the COMP mode may be a coordinated cell, for example, a cell that may be a secondary base station. In addition, the first base station may be a primary base station, and the second base station may be a secondary base station. Different descriptions of devices performing the same function when applied to different network architectures.
基于上述 CoMP协作架构,本发明提供了一种半持久调度的方法,如图 3 所示, 该方法由第一基站执行, 具体包括:  Based on the foregoing CoMP collaboration architecture, the present invention provides a method for semi-persistent scheduling. As shown in FIG. 3, the method is performed by the first base station, and specifically includes:
200、 第一基站与第二基站协调, 确定协作方式。  200. The first base station coordinates with the second base station to determine a cooperation mode.
值的说明的是, 第一基站与一个或多个第二基站进行协调时, 可选择多 种协作方式, 针对协作方式的描述与上述步骤 02 中的相关内容相同在此不 再伴细说明。  The value indicates that when the first base station coordinates with one or more second base stations, a plurality of cooperation modes may be selected, and the description of the cooperation mode is the same as the related content in the above step 02, and will not be described here.
201、 第一基站生成半持久调度资源配置信息。  201. The first base station generates semi-persistent scheduling resource configuration information.
202、 将所述半持久调度资源配置信息发送至第二基站, 以使得第二基站 存储所述半持久调度资源配置信息。  202. Send the semi-persistent scheduling resource configuration information to the second base station, so that the second base station stores the semi-persistent scheduling resource configuration information.
其中, 半持久调度资源配置信息的描述与实施例 1中步骤 01的相关内容 相同, 在此不再详细说明。  The description of the configuration information of the semi-persistent scheduling resource is the same as that of the step 01 in Embodiment 1, and will not be described in detail herein.
值得说明的是, 第一基站还可以将所述半持久调度资源配置信息发送至 用户设备, 以使得用户设备存储所述半持久调度资源配置信息。  It is to be noted that the first base station may further send the semi-persistent scheduling resource configuration information to the user equipment, so that the user equipment stores the semi-persistent scheduling resource configuration information.
进一步地, 第一基站发送半持久调度资源配置信息给第二基站以及用户 设备的执行顺序不分先后, 也可同时进行。  Further, the first base station sends the semi-persistent scheduling resource configuration information to the second base station and the user equipment is executed in sequence, or simultaneously.
结合图 4所示的步骤, 在此具体描述步骤 202的实现方式, 包括: 可选的是, 第一基站生成半持久调度资源配置信息之前, 可与第二基站 进行协调以确定半持久调度资源配置信息, 从而通过 RRC信令发送半持久调 度资源配置信息;  With reference to the steps shown in FIG. 4, the implementation of step 202 is specifically described herein, including: optionally, the first base station may coordinate with the second base station to determine semi-persistent scheduling resources before generating the semi-persistent scheduling resource configuration information. Configuring information to send semi-persistent scheduling resource configuration information through RRC signaling;
F41、 将生成的 SPS资源配置信息发送给用户设备;  F41. Send the generated SPS resource configuration information to the user equipment.
F42、 将生成的 SPS资源配置信息发送给第二基站。  F42. Send the generated SPS resource configuration information to the second base station.
其中步骤 F41、 F42的执行顺序是不分先后的, 也可同时进行。  The execution order of steps F41 and F42 is in no particular order, and can also be performed simultaneously.
可选的, 第二基站向第一基站发送 SPS资源配置响应消息。 所述半持久调度资源配置信息提供了半持久调度周期, 能够使下述步骤 中的半持久调度激活信息按照半持久调度周期来周期性激活半持久调度资 源。 Optionally, the second base station sends an SPS resource configuration response message to the first base station. The semi-persistent scheduling resource configuration information provides a semi-persistent scheduling period, and the semi-persistent scheduling activation information in the following steps can periodically activate the semi-persistent scheduling resource according to the semi-persistent scheduling period.
203、 第一基站生成半持久调度激活信息。  203. The first base station generates semi-persistent scheduling activation information.
204、 第一基站将半持久调度激活信息发送至第二基站, 以使得第二基站 存储所述半持久调度激活信息所分配的半持久调度资源。  204. The first base station sends the semi-persistent scheduling activation information to the second base station, so that the second base station stores the semi-persistent scheduling resource allocated by the semi-persistent scheduling activation information.
其中, 半持久调度激活信息的描述与步骤 02中的相关内容相同, 在此不 再伴细说明。  The description of the semi-persistent scheduling activation information is the same as that in step 02, and will not be described here.
值得说明的是, 第一基站将所述半持久调度激活信息发送至用户设备, 以使得用户设备存储所述半持久调度激活信息所分配的半持久调度资源。  It is to be noted that the first base station sends the semi-persistent scheduling activation information to the user equipment, so that the user equipment stores the semi-persistent scheduling resource allocated by the semi-persistent scheduling activation information.
进一步地, 第一基站发送半持久调度激活信息给第二基站以及用户设备 的执行顺序不分先后, 也可同时进行。 但是, 第一基站发送半持久调度激活 信息给第二基站和用户设备的顺序, 会使得后续半持久调度时间的获取流程 发生改变。 具体地, 如果第一基站先发送半持久调度激活信息给用户设备, 再发送给第二基站, 则半持久调度激活信息所对应的系统帧号、 子帧号, 需 要根据发送半持久调度激活信息给用户设备所位于的 ΤΉ (英文全称为: Transmission Time Interval, 中文全称为: 传输时间间隔)进行计算生成; 如 果第一基站先发送半持久调度激活信息给第二基站, 再发送给用户设备, 则 需要预先确定发送半持久调度激活信息给用户设备所位于的 ΤΉ,继而根据该 ΤΉ信息计算半持久调度激活信息所对应的系统帧号、 子帧号, 并把系统号、 子帧号信息发送给第二基站。 换言之, 半持久调度时间可以根据发送半持久 调度激活信息给用户设备所位于的 TTI确定的。  Further, the first base station sends the semi-persistent scheduling activation information to the second base station and the execution order of the user equipment is in no order, and may also be performed simultaneously. However, the order in which the first base station sends the semi-persistent scheduling activation information to the second base station and the user equipment causes the acquisition process of the subsequent semi-persistent scheduling time to change. Specifically, if the first base station first sends the semi-persistent scheduling activation information to the user equipment, and then sends the information to the second base station, the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information need to be activated according to the semi-persistent scheduling information. Calculate and generate the ΤΉ (English full name: Transmission Time Interval, Chinese full name: transmission time interval) where the user equipment is located; if the first base station first sends the semi-persistent scheduling activation information to the second base station, and then sends it to the user equipment, Then, it is determined that the semi-persistent scheduling activation information is sent to the user equipment, and then the system frame number and the subframe number corresponding to the semi-persistent scheduling activation information are calculated according to the information, and the system number and the subframe number information are sent. To the second base station. In other words, the semi-persistent scheduling time can be determined based on the TTI in which the semi-persistent scheduling activation information is sent to the user equipment.
205、 第一基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息获取所述半持久调度时间。  205. The first base station acquires the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
值得说明的是, 所述半持久调度时间的计算方法与步骤 02的相关内容相 同, 在此不再重复说明。  It should be noted that the calculation method of the semi-persistent scheduling time is the same as that of step 02, and the description is not repeated here.
在本实施例中, 结合图 5所示的方法流程图,在此具体描述步骤 203、 204、 205的实现, 包括: In this embodiment, in conjunction with the method flowchart shown in FIG. 5, steps 203, 204 are specifically described herein. Implementation of 205, including:
可选地, 第一基站与第二基站协调以确定 SPS资源;  Optionally, the first base station coordinates with the second base station to determine an SPS resource;
F50、 第一基站生成 SPS激活信息, 并计算 SPS时间以及 HARQ进程号; F50. The first base station generates SPS activation information, and calculates an SPS time and a HARQ process ID.
F51、 第一基站将所述 SPS激活信息、 SPS时间、 HARQ进程号发送至用 户设备; F51. The first base station sends the SPS activation information, the SPS time, and the HARQ process ID to the user equipment.
F52、 第一基站将 SPS激活信息、 SPS时间、 HARQ进程号发送给第二基 站, 以使得第二基站确定 SPS时间以及 HARQ进程号。  F52. The first base station sends the SPS activation information, the SPS time, and the HARQ process ID to the second base station, so that the second base station determines the SPS time and the HARQ process number.
可选地, 第二基站可能向第一基站发送 SPS激活响应消息。  Optionally, the second base station may send an SPS activation response message to the first base station.
206、 第一基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合第二基站在半持久调度时间与用户设备进行通讯。  206. The first base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the second base station communicate with the user equipment at a semi-persistent scheduling time.
值得说明的是, 此步骤中的第二基站与第一基站与用户设备进行通讯, 是按照步骤 200中确定的协作方式进行的。  It should be noted that the second base station in this step communicates with the user equipment of the first base station according to the cooperation mode determined in step 200.
结合图 6的方法流程图, 在此具体描述步骤 206的实现, 包括:  Referring to the method flowchart of FIG. 6, the implementation of step 206 is specifically described herein, including:
F61、 第一基站临时使用动态调度替代某时间的半持久调度预先分配的资 源;  F61. The first base station temporarily uses dynamic scheduling to replace the pre-allocated resources of the semi-persistent scheduling at a certain time;
F62、 第一基站同时将动态调度信息发送给一个或多个第二基站。  F62. The first base station simultaneously sends dynamic scheduling information to one or more second base stations.
其中, 某时间是指, 上述步骤 205 中计算得到的任意一个半持久调度时 间。  The time is any semi-persistent scheduling time calculated in the above step 205.
此外, 某时间动态调度的描述与上述步骤 02中的某一时间的动态调度的 相关内容相同, 在此不再重复说明。  In addition, the description of the dynamic scheduling at a certain time is the same as the related content of the dynamic scheduling at a certain time in the above step 02, and the description thereof will not be repeated here.
如图 7所示, 该方法流程图描述了协作方式的配置, 以及根据配置的协 作方式实现通讯, 具体步骤包括:  As shown in FIG. 7, the method flowchart describes the configuration of the collaboration mode, and implements communication according to the configured cooperation manner. The specific steps include:
F71、 第一基站与第二基站协调来确定协作方式;  F71. The first base station coordinates with the second base station to determine a cooperation mode.
F72、 根据协作方式进行通讯;  F72, communicating according to a collaborative manner;
可选的是, 在数据接收 /发送的过程中, 还存在如下步骤,  Optionally, during the process of data receiving/sending, the following steps are also performed,
F73、 第一基站与第二基站根据实际情况动态确定协作方式;  F73. The first base station and the second base station dynamically determine a collaboration mode according to actual conditions.
F74、 根据新的协作方式进行通讯。 第一基站和第二基站根据预定协作方式, 在半持久调度时间一同与用户 设备进行通讯。 F74. Communicate according to the new collaborative method. The first base station and the second base station communicate with the user equipment together at a semi-persistent scheduling time according to a predetermined cooperation mode.
可选的是, 根据实际情况, 可执行下述步骤 207和 /或 208。  Optionally, according to the actual situation, the following steps 207 and/or 208 may be performed.
207、 第一基站生成半持久调度去激活信息, 并执行下述步骤 207a和 /或 207b, 如图 8所示。  207. The first base station generates semi-persistent scheduling deactivation information, and performs the following steps 207a and/or 207b, as shown in FIG. 8.
207a, 第一基站将所述半持久调度去激活信息发送给用户设备, 以使得 所述用户设备根据所述半持久调度去激活信息, 译放所述半持久调度资源。  207a. The first base station sends the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
值得说明的是, 用户设备接收下行半持久调度去激活信息之后, 如果时 间调整定时器在运行, 即用户设备通讯正常时, 执行步骤:  It is worth noting that after the user equipment receives the downlink semi-persistent scheduling deactivation information, if the time adjustment timer is running, that is, the user equipment communication is normal, the steps are as follows:
al、 用户设备会向第一基站反馈半持久调度去激活信息确认信息。  Al. The user equipment feeds back the semi-persistent scheduling deactivation information confirmation information to the first base station.
207b, 第一基站将所述半持久调度去激活信息发送给第二基站, 以使得 所述第二基站根据所述半持久调度去激活信息, 译放所述半持久调度资源。  207b: The first base station sends the semi-persistent scheduling deactivation information to the second base station, so that the second base station releases the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
可选的是, 在执行完步骤 207b之后, 可执行步骤:  Optionally, after performing step 207b, the executable steps are as follows:
b 1、 第二基站可能向第一基站发送 SPS资源去激活响应消息。  B1. The second base station may send an SPS resource deactivation response message to the first base station.
步骤 207描述了 SPS资源的去激活的整体实现, 能够使用户设备以及接 收到 SPS去激活信息的第二基站译放所述 SPS资源。  Step 207 describes the overall implementation of the deactivation of the SPS resources, enabling the user equipment and the second base station receiving the SPS deactivation information to translate the SPS resources.
208、 第一基站生成半持久调度资源重配置信息, 所述半持久调度资源重 配置信息为去使能(disable )半持久调度资源配置。 当生成所述半持久调度资 源重配置信息后, 执行下述步骤 208a和 /或 208b。  208. The first base station generates semi-persistent scheduling resource reconfiguration information, where the semi-persistent scheduling resource reconfiguration information is a disable semi-persistent scheduling resource configuration. After generating the semi-persistent scheduling resource reconfiguration information, the following steps 208a and / or 208b are performed.
结合图 9的方法流程图, 具体描述步骤 208的实现过程, 包括:  The implementation process of step 208 is specifically described in conjunction with the method flowchart of FIG. 9, including:
208a, 第一基站将所述半持久调度资源重配置信息发送给用户设备, 以 使得所述用户设备根据所述半持久调度资源重配置信息去使能 ( disable )半持 久调度资源配置。  208a. The first base station sends the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment disables the semi-persistent scheduling resource configuration according to the semi-persistent scheduling resource reconfiguration information.
可选的是, 执行完步骤 208a之后, 可执行下述步骤:  Optionally, after performing step 208a, the following steps may be performed:
a- 1、 用户设备向第一基站反馈连接重配置完成的消息。  A-1. The user equipment feeds back a message that the connection reconfiguration is completed to the first base station.
208b, 第一基站将所述半持久调度资源重配置信息发送给第二基站, 以 使得所述第二基站根据所述半持久调度资源重配置信息译放所述半持久调度 资源。 208b, the first base station sends the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station releases the semi-persistent scheduling according to the semi-persistent scheduling resource reconfiguration information. Resources.
可选的是, 执行完步骤 208b之后, 可执行下述步骤:  Optionally, after performing step 208b, the following steps may be performed:
b- 1、 第二基站可能向第一基站发送 SPS去激活响应消息。  B-1. The second base station may send an SPS deactivation response message to the first base station.
此外, 对于 208的整体步骤而言, 如果 SPS资源处于激活状态, 则同时 使用户设备和 /或接收到所述半持久调度资源重配置信息的第二基站存储的 In addition, for the overall step of 208, if the SPS resource is in an active state, the user equipment and/or the second base station receiving the semi-persistent scheduling resource reconfiguration information are simultaneously stored.
SPS资源。 SPS resources.
此外, 需要说明的是, 步骤 207、 208的执行顺序并不限定于按照上述描 述的先后顺序执行。  In addition, it should be noted that the order of execution of steps 207 and 208 is not limited to being performed in the order described above.
进一步地, 上述步骤 200-208, 可以分段执行, 各个分段步骤实现的功能 不同, 例如, 步骤 200确定了协作方式, 步骤 210-202实现了半持久调度资源 配置信息的生成与发送等。当然 200-208也可以按照本实施例中的顺序依次执 行, 即为 CoMP与用户设备半持久调度的完整方案。  Further, the foregoing steps 200-208 can be performed in segments, and the functions implemented in each segmentation step are different. For example, step 200 determines a collaboration mode, and steps 210-202 implement generation and transmission of semi-persistent scheduling resource configuration information. Of course, 200-208 can also be executed in the order of this embodiment, which is a complete scheme for semi-persistent scheduling of CoMP and user equipment.
本发明实施例提供的半持久调度的方法, 第一基站将半持久调度资源配 置信息和半持久调度激活信息发送给第二基站, 联合第二基站与用户设备之 间实现协作半持久调度, 从而降低信令和数据传输开销, 对回程链路的容量 和时延要求低。  The semi-persistent scheduling method provided by the embodiment of the present invention, the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment, thereby Reduce signaling and data transmission overhead, and require low capacity and latency for backhaul links.
本发明另一实施例提供的 CoMP架构, CoMP与上述实施例的相关描述 相同, 在此不再重复说明。 基于 CoMP架构本发明实施例还提供了一种半持 久调度的方法, 该方法由第二基站执行, 如图 10所示, 该方法包括:  The CoMP architecture provided by another embodiment of the present invention, CoMP is the same as the related description of the foregoing embodiment, and the description is not repeated here. The embodiment of the present invention further provides a method for semi-persistent scheduling, which is performed by a second base station. As shown in FIG. 10, the method includes:
001、 第二基站与第一基站进行协调, 确定协作方式。  001. The second base station coordinates with the first base station to determine a cooperation mode.
值得说明的是, 该步骤提到的协作方式与步骤 200 中的相关描述相同, 在此不再详细说明。  It should be noted that the cooperation method mentioned in this step is the same as the related description in step 200, and will not be described in detail here.
002、 第二基站接收第一基站发送的半持久调度资源配置信息, 并存储所 述半持久调度资源配置信息。  002. The second base station receives the semi-persistent scheduling resource configuration information sent by the first base station, and stores the semi-persistent scheduling resource configuration information.
值得说明的是, 上述步骤 002 中的半持久调度资源配置信息的描述与上 述步骤 01中的相关描述相同, 在此不再重复说明。  It is to be noted that the description of the semi-persistent scheduling resource configuration information in the above step 002 is the same as that in the above step 01, and the description is not repeated here.
003、 第二基站接收第一基站发送的半持久调度激活信息, 并存储所述半 持久调度激活信息所分配的半持久调度资源; 003. The second base station receives the semi-persistent scheduling activation information sent by the first base station, and stores the half. Persistent scheduling of semi-persistent scheduling resources allocated by activation information;
值得说明的是, 上述步骤 003 中的半持久调度资源配置信息的描述与上 述步骤 01中的相关描述相同, 在此不再重复说明。  It is to be noted that the description of the semi-persistent scheduling resource configuration information in the foregoing step 003 is the same as that in the above step 01, and the description is not repeated here.
004、 第二基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息获取所述半持久调度时间。  004. The second base station acquires the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
值得说明的是, 该步骤中的半持久调度时间的计算方法与上述步骤 02中 的计算方法是相同的, 在此不再重复说明。  It should be noted that the calculation method of the semi-persistent scheduling time in this step is the same as the calculation method in the above step 02, and the description is not repeated here.
005、 第二基站根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合第一基站在半持久调度时间与用户设备进行通讯。  005. The second base station, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, and the first base station communicate with the user equipment at a semi-persistent scheduling time.
可选的是, 根据实际情况, 第二基站可执行下述步骤 006和 /或 007。 Optionally, the second base station may perform the following steps 006 and/or 007 according to actual conditions.
006、 第二基站接收第一基站发送的半持久调度去激活信息, 并根据所述 半持久调度去激活信息, 译放所述半持久调度资源。 006. The second base station receives the semi-persistent scheduling deactivation information sent by the first base station, and deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
007、 第二基站接收第一基站发送的半持久调度资源重配置信息, 根据所 述半持久调度资源重配置信息译放所述半持久调度资源。  007. The second base station receives the semi-persistent scheduling resource reconfiguration information sent by the first base station, and releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
此外, 需要说明的是, 步骤 006、 007的执行顺序并不限定于按照上述描 述的先后顺序执行, 只要第二基站接收到第一基站发送的半持久调度去激活 信息和 /或半持久调度资源重配置信息, 均可以按照实际情况执行步骤 006或 步骤 007。  In addition, it should be noted that the execution order of the steps 006 and 007 is not limited to being performed in the sequence described above, as long as the second base station receives the semi-persistent scheduling deactivation information and/or the semi-persistent scheduling resource sent by the first base station. For reconfiguration information, you can perform step 006 or step 007 as required.
本发明实施例提供的半持久调度的方法, 第一基站将半持久调度资源配 置信息和半持久调度激活信息发送给第二基站, 联合第二基站与用户设备之 间实现协作半持久调度, 从而降低信令和数据传输开销, 对回程链路的容量 和时延要求低。  The semi-persistent scheduling method provided by the embodiment of the present invention, the first base station sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station, and implements cooperative semi-persistent scheduling between the second base station and the user equipment, thereby Reduce signaling and data transmission overhead, and require low capacity and latency for backhaul links.
本发明另一实施例提供了一种基站, 该基站可用于实现图 1至图 10所示 方法流程中由第一基站执行的各个步骤。 如图 11所示, 该基站包括: 发送单 元 31、 处理单元 32;  Another embodiment of the present invention provides a base station, which can be used to implement various steps performed by the first base station in the method flow shown in FIG. 1 to FIG. As shown in FIG. 11, the base station includes: a sending unit 31, and a processing unit 32.
发送单元 31 , 用于将半持久调度资源配置信息和半持久调度激活信息发 送至第二基站; 处理单元 32,用于根据所述发送单元 31发送的半持久调度资源配置信息 与所述半持久调度激活信息, 联合所述第二基站在半持久调度时间与用户设 备进行通讯。 The sending unit 31 is configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station; The processing unit 32 is configured to perform, according to the semi-persistent scheduling resource configuration information sent by the sending unit 31, the semi-persistent scheduling activation information, and the second base station to communicate with the user equipment at a semi-persistent scheduling time.
可选的, 所述发送单元 31 , 还用于将所述半持久调度激活信息所对应的 系统帧号和子帧号发送至所述第二基站, 以使得所述第二基站根据所述半持 久调度资源配置信息与所述半持久调度激活信息获取所述半持久调度时间。  Optionally, the sending unit 31 is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station is configured according to the semi-persistent Scheduling resource configuration information and the semi-persistent scheduling activation information acquire the semi-persistent scheduling time.
可选的, 如图 12所示, 该基站还包括: 放弃资源单元 33、 配置单元 34; 放弃资源单元 33 , 用于放弃当前半持久调度资源;  Optionally, as shown in FIG. 12, the base station further includes: abandon resource unit 33, a configuration unit 34, and abandon resource unit 33, for abandoning the current semi-persistent scheduling resource;
所述发送单元 31 , 还用于将动态调度信息发送给所述第二基站; 所述处理单元 32,还用于根据所述发送单元 31发送的动态调度信息联合 所述第二基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。  The sending unit 31 is further configured to send the dynamic scheduling information to the second base station, where the processing unit 32 is further configured to associate with the second base station according to the dynamic scheduling information sent by the sending unit 31, where The communication with the user equipment is performed in place of the current semi-persistent scheduling.
可选的, 所述发送单元 31 , 还用于将所述半持久调度去激活信息发送给 所述用户设备, 以使得所述用户设备根据所述半持久调度去激活信息, 译放 所述半持久调度资源; 和 /或,将所述半持久调度去激活信息发送给第二基站, 以使得所述第二基站根据所述半持久调度去激活信息, 译放所述半持久调度 资源。  Optionally, the sending unit 31 is further configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the information according to the semi-persistent scheduling, and releases the half. And persistently scheduling the resource; and/or transmitting the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information.
可选的, 所述发送单元 31 , 还用于将所述半持久调度资源重配置信息发 送所述给用户设备, 以使得所述用户设备根据所述半持久调度资源重配置信 息译放所述半持久调度资源; 和 /或, 将所述半持久调度资源重配置信息发送 给所述第二基站 , 以使得所述第二基站根据所述半持久调度资源重配置信息 译放所述半持久调度资源。  Optionally, the sending unit 31 is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment performs the retransmission according to the semi-persistent scheduling resource reconfiguration information. a semi-persistent scheduling resource; and/or, the semi-persistent scheduling resource reconfiguration information is sent to the second base station, so that the second base station releases the semi-persistent according to the semi-persistent scheduling resource reconfiguration information Schedule resources.
配置单元 34, 用于与所述第二基站进行协调, 并配置协作方式。  The configuration unit 34 is configured to coordinate with the second base station and configure a collaboration mode.
所述处理单元 32, 具体用于:  The processing unit 32 is specifically configured to:
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所 述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种: JT联合发送、 DPS动态传输点选择、 JR联合接收。 本发明实施例提供的基站, 可以将半持久调度资源配置信息和半持久调 度激活信息发送给第二基站, 联合第二基站与用户设备之间实现协作半持久 调度, 从而降低信令和数据传输开销, 对回程链路的容量和时延要求低。 And communicating with the user equipment according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information according to the cooperation manner, where the second base station communicates with the user equipment at a semi-persistent scheduling time; At least one of the following: JT joint transmission, DPS dynamic transmission point selection, and JR joint reception. The base station provided by the embodiment of the present invention may send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station, and perform cooperative semi-persistent scheduling between the second base station and the user equipment, thereby reducing signaling and data transmission. Overhead, low capacity and latency requirements for backhaul links.
本发明另一实施例提供了一种基站, 该基站可用于实现图 1至图 10所示 的方法流程中由第二基站的执行的各个步骤。 如图 13所示, 该基站包括: 接 收单元 41、 处理单元 42;  Another embodiment of the present invention provides a base station, which can be used to implement various steps of execution by a second base station in the method flow shown in Figures 1 through 10. As shown in FIG. 13, the base station includes: a receiving unit 41, a processing unit 42;
接收单元 41 , 用于接收第一基站发送的半持久调度资源配置信息和半持 久调度激活信息;  The receiving unit 41 is configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
处理单元 42,用于根据所述接收单元 41接收的半持久调度资源配置信息 与所述半持久调度激活信息, 联合所述第一基站在半持久调度时间与用户设 备进行通讯。  The processing unit 42 is configured to perform, according to the semi-persistent scheduling resource configuration information received by the receiving unit 41 and the semi-persistent scheduling activation information, in conjunction with the first base station to communicate with the user equipment at a semi-persistent scheduling time.
可选的, 所述接收单元 41 , 还用于接收所述半持久调度激活信息所对应 的系统帧号和子帧号;  Optionally, the receiving unit 41 is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information;
获取单元 43 ,用与根据所述接收单元 41接收的所述半持久调度资源配置 信息与所述半持久调度激活信息获取所述半持久调度时间。  The obtaining unit 43 obtains the semi-persistent scheduling time by using the semi-persistent scheduling resource configuration information received according to the receiving unit 41 and the semi-persistent scheduling activation information.
可选的, 该基站还包括放弃资源单元 44, 用于放弃当前半持久调度资源; 所述接收单元 41 , 还用于接收所述第一基站发送的动态调度信息; 所述处理单元 42,还用于根据所述接收单元 41接收的动态调度信息, 联 合所述第一基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。  Optionally, the base station further includes a relinquish resource unit 44, configured to abandon the current semi-persistent scheduling resource, and the receiving unit 41 is further configured to receive dynamic scheduling information sent by the first base station, where the processing unit 42 further And the first base station is used to perform communication with the user equipment instead of the current semi-persistent scheduling according to the dynamic scheduling information received by the receiving unit 41.
可选的, 所述接收单元 41 , 还用于接收所述第一基站发送的所述半持久 调度去激活信息; 还包括译放单元 45 , 用于根据所述接收单元 41接收的所述 半持久调度资源重配置信息译放所述半持久调度资源。  Optionally, the receiving unit 41 is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station, and further include a decoding unit 45, configured to receive the half according to the receiving unit 41. The persistent scheduling resource reconfiguration information is used to translate the semi-persistent scheduling resource.
可选的, 还包括配置单元 46, 用于与所述第一基站进行协调, 并配置协 作方式;  Optionally, the configuration unit 46 is further configured to coordinate with the first base station and configure a collaboration mode.
所述处理单元 42, 具体用于:  The processing unit 42 is specifically configured to:
根据所述接收单元 41接收到的所述半持久调度资源配置信息和所述半持 久调度激活信息, 按照所述协作方式, 联合所述第一基站在半持久调度时间 与所述用户设备进行通讯。其中,所述协作方式包括以下至少一种: JT、 DPS , JR。 According to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiving unit 41, according to the cooperation manner, the first base station is combined with the semi-persistent scheduling time. Communicating with the user equipment. The cooperation mode includes at least one of the following: JT, DPS, and JR.
本发明实施例提供的基站, 通过第一基站向第二基站发送半持久调度资 源配置信息和半持久调度激活信息, 从而第二基站接收并存储第一基站发送 的信息, 然后联合第二基站与用户设备之间, 按照协作方式进行半持久调度, 从而降低信令和数据开销, 对回程链路的容量和时延要求低。  The base station provided by the embodiment of the present invention sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station by using the first base station, so that the second base station receives and stores the information sent by the first base station, and then associates with the second base station and The user equipment performs semi-persistent scheduling in a cooperative manner, thereby reducing signaling and data overhead, and has low requirements on the capacity and delay of the backhaul link.
本发明另一实施例提供了一种基站,如图 14所示,该基站包括发射机 51、 处理器 52;  Another embodiment of the present invention provides a base station, as shown in FIG. 14, the base station includes a transmitter 51, a processor 52;
发射机 51 , 用于向第二基站发送半持久调度资源配置信息和半持久调度 激活信息;  a transmitter 51, configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
处理器 52, 用于根据所述发射机发送的半持久调度资源配置信息与所述 半持久调度激活信息, 联合所述第二基站在半持久调度时间与用户设备进行 通讯。  The processor 52 is configured to perform, according to the semi-persistent scheduling resource configuration information sent by the transmitter, the semi-persistent scheduling activation information, and the second base station to communicate with the user equipment at a semi-persistent scheduling time.
可选的, 所述发射机 51 , 还用于将所述半持久调度激活信息所对应的系 统帧号和子帧号发送至所述第二基站 , 以使得第二基站根据所述半持久调度 资源配置信息与所述半持久调度激活信息获取所述半持久调度时间。  Optionally, the transmitter 51 is further configured to send, to the second base station, a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information, so that the second base station performs scheduling resources according to the semi-persistent The configuration information and the semi-persistent scheduling activation information acquire the semi-persistent scheduling time.
可选的, 所述处理器 52, 还用于放弃当前半持久调度资源;  Optionally, the processor 52 is further configured to abandon the current semi-persistent scheduling resource;
所述发射机 51 , 还用于将动态调度信息发送给所述第二基站;  The transmitter 51 is further configured to send dynamic scheduling information to the second base station;
所述处理器 52,还用于根据所述发射机 51发送的动态调度信息联合所述 第二基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。  The processor 52 is further configured to join the second base station according to the dynamic scheduling information sent by the transmitter 51, to communicate with the user equipment instead of the current semi-persistent scheduling.
可选的, 所述发射机 51 , 还用于将所述半持久调度去激活信息发送给所 述用户设备, 以使得所述用户设备根据所述半持久调度去激活信息, 译放所 述半持久调度资源; 和 /或, 将所述半持久调度去激活信息发送给所述第二基 站, 以使得所述第二基站根据所述半持久调度去激活信息, 译放所述半持久 调度资源。  Optionally, the transmitter 51 is further configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment deactivates the information according to the semi-persistent scheduling, and releases the half. And persistently scheduling the resource; and/or, sending the semi-persistent scheduling deactivation information to the second base station, so that the second base station deactivates the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information .
可选的, 所述发射机 51 , 还用于将所述半持久调度资源重配置信息发送 给所述用户设备, 以使得所述用户设备根据所述半持久调度资源重配置信息 译放所述半持久调度资源; 和 /或, 将所述半持久调度资源重配置信息发送给 所述第二基站, 以使得所述第二基站根据所述半持久调度资源重配置信息释 放所述半持久调度资源。 Optionally, the transmitter 51 is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment reconfigures resource according to the semi-persistent scheduling resource. Transmitting the semi-persistent scheduling resource; and/or, sending the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station releases the resource according to the semi-persistent scheduling resource reconfiguration information Semi-persistent scheduling resources.
可选的, 所述处理器 52, 具体用于与所述第二基站进行协调, 并配置协 作方式;  Optionally, the processor 52 is specifically configured to coordinate with the second base station, and configure a collaboration mode.
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所 述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯。 其中, 所述协作方式包括以下至少一种: JT、 DPS , JR。  And according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, according to the cooperation manner, the second base station is jointly communicated with the user equipment at a semi-persistent scheduling time. The cooperation mode includes at least one of the following: JT, DPS, and JR.
本发明的另一实施例提供了一种基站, 如图 15所示, 该基站包括: 接收 机 61、 处理器 62;  Another embodiment of the present invention provides a base station, as shown in FIG. 15, the base station includes: a receiver 61, a processor 62;
接收机 61 , 用于接收第一基站发送的半持久调度资源配置信息和半持久 调度激活信息;  The receiver 61 is configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
处理器 62, 用于根据所述半持久调度资源配置信息与所述半持久调度激 活信息, 联合所述第一基站在半持久调度时间与用户设备进行通讯。  The processor 62 is configured to perform, according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, the first base station to communicate with the user equipment at a semi-persistent scheduling time.
可选的, 所述接收机 61 , 还用于接收所述第一基站发送的所述半持久调 度激活信息所对应的系统帧号和子帧号;  Optionally, the receiver 61 is further configured to receive a system frame number and a subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
所述处理器 62, 还用于根据所述接收机接收的所述半持久调度资源配置 信息与所述半持久调度激活信息获取所述半持久调度时间。  The processor 62 is further configured to acquire the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information received by the receiver and the semi-persistent scheduling activation information.
可选的, 所述处理器 62, 还用于放弃当前半持久调度资源;  Optionally, the processor 62 is further configured to abandon the current semi-persistent scheduling resource;
所述接收机 61 , 还用于接收所述第一基站发送的动态调度信息; 所述处理器 62,还用于根据所述接收机 61接收的所述动态调度信息联合 所述第一基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。  The receiver 61 is further configured to receive the dynamic scheduling information sent by the first base station, where the processor 62 is further configured to join the first base station according to the dynamic scheduling information received by the receiver 61, And communicating with the user equipment to replace the current semi-persistent scheduling.
可选的, 所述接收机 61 , 还用于接收所述第一基站发送的所述半持久调 度去激活信息;  Optionally, the receiver 61 is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
所述处理器 62,还用于根据所述接收机 61接收的所述半持久调度去激活 信息, 译放所述半持久调度资源。  The processor 62 is further configured to decode the semi-persistent scheduling resource according to the semi-persistent scheduling deactivation information received by the receiver 61.
可选的, 所述接收机 61 , 还用于接收所述第一基站发送的所述半持久调 度资源重配置信息; Optionally, the receiver 61 is further configured to receive the semi-persistent tone sent by the first base station Degree resource reconfiguration information;
所述处理器 62,还用于根据所述接收机 61接收的所述半持久调度资源重 配置信息, 译放所述的半持久调度资源。  The processor 62 is further configured to: release the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiver 61.
所述处理器 62, 具体用于与所述第一基站进行协调, 并配置协作方式; 根据所述接收机接收到的所述半持久调度资源配置信息和所述半持久调 度激活信息, 按照所述协作方式, 联合所述第一基站在半持久调度时间与所 述用户设备进行通讯。其中, 所述协作方式包括以下至少一种: JT、 DPS, JR。  The processor 62 is specifically configured to coordinate with the first base station, and configure a cooperation mode; according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiver, according to the In the cooperative mode, the first base station is in communication with the user equipment at a semi-persistent scheduling time. The cooperation mode includes at least one of the following: JT, DPS, and JR.
本发明实施例提供的基站, 通过第一基站向第二基站发送半持久调度资 源配置信息和半持久调度激活信息, 从而第二基站接收并存储第一基站发送 的信息, 然后联合第二基站与用户设备之间, 按照协作方式进行半持久调度, 从而降低信令和数据开销, 对回程链路的容量和时延要求低。  The base station provided by the embodiment of the present invention sends the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information to the second base station by using the first base station, so that the second base station receives and stores the information sent by the first base station, and then associates with the second base station and The user equipment performs semi-persistent scheduling in a cooperative manner, thereby reducing signaling and data overhead, and has low requirements on the capacity and delay of the backhaul link.
通过以上的实施方式的描述, 所属领域的技术人员可以清楚地了解到本 发明可借助软件加必需的通用硬件的方式来实现, 当然也可以通过硬件, 但 很多情况下前者是更佳的实施方式。 基于这样的理解, 本发明的技术方案本 质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来, 该 计算机软件产品存储在可读取的存储介质中, 如计算机的软盘, 硬盘或光盘 等, 包括若干指令用以使得一台计算机设备(可以是个人计算机, 服务器, 或者网络设备等)执行本发明各个实施例所述的方法。  Through the description of the above embodiments, those skilled in the art can clearly understand that the present invention can be implemented by means of software plus necessary general hardware, and of course, by hardware, but in many cases, the former is a better implementation. . Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a readable storage medium, such as a floppy disk of a computer. A hard disk or optical disk or the like includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform the methods described in various embodiments of the present invention.
以上所述, 仅为本发明的具体实施方式, 但本发明的保护范围并不局限 于此, 任何熟悉本技术领域的技术人员在本发明揭露的技术范围内, 可轻易 想到变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 本发明的保护 范围应以所述权利要求的保护范围为准。  The above is only the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the appended claims.

Claims

权利 要求 书 claims
1、 一种半持久调度的方法, 其特征在于, 包括: 1. A semi-persistent scheduling method, characterized by including:
第一基站向第二基站发送半持久调度资源配置信息和半持久调度激活信 息; The first base station sends semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
所述第一基站根据所述半持久调度资源配置信息与所述半持久调度激活信 息, 联合所述第二基站在半持久调度时间与用户设备进行通讯。 The first base station cooperates with the second base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
2、 根据权利要求 1所述的半持久调度的方法, 其特征在于, 还包括: 第一基站将所述半持久调度激活信息所对应的系统帧号和子帧号发送至所 述第二基站, 以使得所述第二基站根据所述半持久调度资源配置信息与所述半 持久调度激活信息获取所述半持久调度时间。 2. The semi-persistent scheduling method according to claim 1, further comprising: the first base station sending the system frame number and subframe number corresponding to the semi-persistent scheduling activation information to the second base station, So that the second base station obtains the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
3、 根据权利要求 1或 2所述的半持久调度的方法, 其特征在于, 还包括: 第一基站放弃当前半持久调度资源; 3. The semi-persistent scheduling method according to claim 1 or 2, further comprising: the first base station giving up the current semi-persistent scheduling resources;
第一基站将动态调度信息发送给所述第二基站; The first base station sends dynamic scheduling information to the second base station;
第一基站根据所述动态调度信息联合所述第二基站, 用以替代所述当前半 持久调度与所述用户设备进行通讯。 The first base station associates with the second base station according to the dynamic scheduling information to communicate with the user equipment instead of the current semi-persistent scheduling.
4、 根据权利要求 1-3任一项所述的半持久调度的方法, 其特征在于, 还包 括: 4. The method of semi-persistent scheduling according to any one of claims 1-3, characterized in that it also includes:
第一基站将所述半持久调度去激活信息发送给所述用户设备, 以使得所述 用户设备根据所述半持久调度去激活信息, 译放所述半持久调度资源; 和 /或, 第一基站将所述半持久调度去激活信息发送给所述第二基站, 以使得所述 第二基站根据所述半持久调度去激活信息, 译放所述半持久调度资源。 The first base station sends the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information; and/or, the first The base station sends the semi-persistent scheduling deactivation information to the second base station, so that the second base station decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information.
5、 根据权利要求 1-3任一项所述的半持久调度的方法, 其特征在于, 还包 括: 5. The method of semi-persistent scheduling according to any one of claims 1-3, characterized in that it further includes:
第一基站将半持久调度资源重配置信息发送给所述用户设备, 以使得所述 用户设备根据所述半持久调度资源重配置信息译放所述半持久调度资源;和 /或, 将半持久调度资源重配置信息发送给所述第二基站, 以使得所述第二基站 根据所述半持久调度资源重配置信息译放所述半持久调度资源。 The first base station sends the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and/or, The scheduling resource reconfiguration information is sent to the second base station, so that the second base station decodes the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
6、 根据权利要求 1-5任一项所述的半持久调度的方法, 其特征在于: 还包括第一基站与所述第二基站进行协调 , 并配置协作方式; 6. The semi-persistent scheduling method according to any one of claims 1 to 5, characterized in that: it also includes: coordinating between the first base station and the second base station, and configuring a cooperation mode;
所述第一基站根据所述半持久调度资源配置信息与所述半持久调度激活信 息, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯, 具体包括: 第一基站根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所述协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行 通讯; The first base station cooperates with the second base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, which specifically includes: The semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information are combined with the second base station to communicate with the user equipment during the semi-persistent scheduling time according to the cooperation mode;
其中, 所述协作方式包括以下至少一种: Wherein, the cooperation method includes at least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 JT joint transmission, DPS dynamic transmission point selection, JR joint reception.
7、 一种半持久调度的方法, 其特征在于, 包括: 7. A semi-persistent scheduling method, characterized by including:
第二基站接收第一基站发送的半持久调度资源配置信息和半持久调度激活 信息; The second base station receives the semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
所述第二基站根据所述半持久调度资源配置信息与所述半持久调度激活信 息, 联合所述第一基站在半持久调度时间与用户设备进行通讯。 The second base station cooperates with the first base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
8、 根据权利要求 7所述的半持久调度的方法, 其特征在于, 还包括: 第二基站接收所述第一基站发送的所述半持久调度激活信息所对应的系统 帧号和子帧号; 8. The method of semi-persistent scheduling according to claim 7, further comprising: the second base station receiving the system frame number and subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
第二基站根据所述半持久调度资源配置信息与所述半持久调度激活信息获 取所述半持久调度时间。 The second base station obtains the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
9、 根据权利要求 7或 8所述的半持久调度的方法, 还包括: 9. The semi-persistent scheduling method according to claim 7 or 8, further comprising:
第二基站放弃当前半持久调度资源; The second base station gives up the current semi-persistent scheduling resources;
第二基站接收所述第一基站发送的动态调度信息; The second base station receives the dynamic scheduling information sent by the first base station;
第二基站根据所述动态调度信息联合所述第一基站, 用以替代所述当前半 持久调度与所述用户设备进行通讯。 The second base station combines with the first base station according to the dynamic scheduling information to replace the current semi-persistent scheduling to communicate with the user equipment.
10、根据权利要求 7-9任一项所述的半持久调度的方法, 其特征在于, 还包 括: 10. The method of semi-persistent scheduling according to any one of claims 7-9, characterized in that, further comprising:
第二基站接收所述第一基站发送的所述半持久调度去激活信息; 第二基站根据所述半持久调度去激活信息, 译放所述半持久调度资源。 The second base station receives the semi-persistent scheduling deactivation information sent by the first base station; The second base station decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information.
11、 根据权利要求 7-9任一项所述的半持久调度的方法, 其特征在于, 还包 括: 11. The method of semi-persistent scheduling according to any one of claims 7-9, characterized in that it further includes:
第二基站接收所述第一基站发送的所述半持久调度资源重配置信息; 第二基站根据所述半持久调度资源重配置信息译放所述半持久调度资源。 The second base station receives the semi-persistent scheduling resource reconfiguration information sent by the first base station; and the second base station decodes the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
12、 根据权利要求 7-11任一项所述的半持久调度的方法, 其特征在于: 还包括第二基站与所述第一基站进行协调, 并配置协作方式; 12. The method of semi-persistent scheduling according to any one of claims 7 to 11, characterized in that: it further includes the second base station coordinating with the first base station and configuring a cooperation mode;
所述第二基站根据所述半持久调度资源配置信息与所述半持久调度激活信 息, 联合所述第一基站在半持久调度时间与所述用户设备进行通讯, 具体包括: 第二基站根据接收到的所述半持久调度资源配置信息和所述半持久调度激 活信息, 按照所述协作方式, 联合所述第一基站在半持久调度时间与所述用户 设备进行通讯; The second base station combines the first base station with the first base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, which specifically includes: The second base station receives The semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information are obtained, and according to the cooperation mode, the first base station is combined with the first base station to communicate with the user equipment during the semi-persistent scheduling time;
其中, 所述协作方式包括以下至少一种: Wherein, the cooperation method includes at least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 JT joint transmission, DPS dynamic transmission point selection, JR joint reception.
13、 一种基站, 其特征在于, 包括: 13. A base station, characterized by including:
发送单元, 用于将半持久调度资源配置信息和半持久调度激活信息发送至 第二基站; A sending unit, configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
处理单元, 用于根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第二基站在半持久调度时间与用户设备进行通讯。 A processing unit configured to communicate with the user equipment during the semi-persistent scheduling time in conjunction with the second base station according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
14、 根据权利要求 13所述的基站, 其特征在于: 14. The base station according to claim 13, characterized in that:
所述发送单元, 还用于将所述半持久调度激活信息所对应的系统帧号和子 帧号发送至所述第二基站 , 以使得所述第二基站根据所述半持久调度资源配置 信息与所述半持久调度激活信息获取所述半持久调度时间。 The sending unit is further configured to send the system frame number and subframe number corresponding to the semi-persistent scheduling activation information to the second base station, so that the second base station can configure the system frame number and subframe number according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling resource configuration information. The semi-persistent scheduling activation information acquires the semi-persistent scheduling time.
15、 根据权利要求 13或 14所述的基站, 其特征在于: 15. The base station according to claim 13 or 14, characterized in that:
还包括放弃资源单元, 用于放弃当前半持久调度资源; It also includes a abandonment resource unit, which is used to abandon the current semi-persistent scheduling resources;
所述发送单元, 还用于将动态调度信息发送给所述第二基站; The sending unit is also configured to send dynamic scheduling information to the second base station;
所述处理单元, 还用于根据所述动态调度信息联合所述第二基站, 用以替 代所述当前半持久调度与所述用户设备进行通讯。 The processing unit is also configured to associate with the second base station according to the dynamic scheduling information to replace Communicate with the user equipment on behalf of the current semi-persistent schedule.
16、 根据权利要求 13-15任一项所述的基站, 其特征在于: 16. The base station according to any one of claims 13-15, characterized in that:
所述发送单元, 还用于将所述半持久调度去激活信息发送给所述用户设备, 以使得所述用户设备根据所述半持久调度去激活信息 , 译放所述半持久调度资 源; 和 /或, The sending unit is also configured to send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information; and /or,
所述发送单元, 还用于将所述半持久调度去激活信息发送给第二基站, 以 使得所述第二基站根据所述半持久调度去激活信息, 译放所述半持久调度资源。 The sending unit is further configured to send the semi-persistent scheduling deactivation information to the second base station, so that the second base station decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information.
17、 根据权利要求 13-15任一项所述的第一基站, 其特征在于: 17. The first base station according to any one of claims 13-15, characterized in that:
所述发送单元, 还用于将所述半持久调度资源重配置信息发送所述给用户 设备, 以使得所述用户设备根据所述半持久调度资源重配置信息译放所述半持 久调度资源; 和 /或, The sending unit is further configured to send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment interprets the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and / or,
所述发送单元, 还用于将所述半持久调度资源重配置信息发送给所述第二 基站, 以使得所述第二基站根据所述半持久调度资源重配置信息译放所述半持 久调度资源。 The sending unit is further configured to send the semi-persistent scheduling resource reconfiguration information to the second base station, so that the second base station interprets the semi-persistent scheduling according to the semi-persistent scheduling resource reconfiguration information. resource.
18、 根据权利要求 13-17任一项所述的第一基站, 其特征在于: 18. The first base station according to any one of claims 13-17, characterized in that:
还包括配置单元, 用于与所述第二基站进行协调, 并配置协作方式; 所述处理单元, 具体用于: It also includes a configuration unit for coordinating with the second base station and configuring a cooperation mode; the processing unit is specifically used for:
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所述 协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种: According to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, according to the cooperation mode, the second base station is jointly communicated with the user equipment during the semi-persistent scheduling time; wherein, the cooperation mode includes At least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 JT joint transmission, DPS dynamic transmission point selection, JR joint reception.
19、 一种基站, 其特征在于, 包括: 19. A base station, characterized by including:
接收单元, 用于接收第一基站发送的半持久调度资源配置信息和半持久调 度激活信息; A receiving unit, configured to receive the semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
处理单元, 用于根据所述半持久调度资源配置信息与所述半持久调度激活 信息, 联合所述第一基站在半持久调度时间与用户设备进行通讯。 A processing unit, configured to cooperate with the first base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
20、 根据权利要求 19所述的基站, 其特征在于: 所述接收单元, 还用于接收所述半持久调度激活信息所对应的系统帧号和 子帧号; 20. The base station according to claim 19, characterized in that: The receiving unit is also configured to receive the system frame number and subframe number corresponding to the semi-persistent scheduling activation information;
获取单元, 用与根据所述接收单元接收的所述半持久调度资源配置信息与 所述半持久调度激活信息获取所述半持久调度时间。 The obtaining unit is configured to obtain the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiving unit.
21、 根据权利要求 18或 19所述的基站, 其特征在于: 21. The base station according to claim 18 or 19, characterized in that:
还包括放弃资源单元, 用于放弃当前半持久调度资源; It also includes a abandonment resource unit, which is used to abandon the current semi-persistent scheduling resources;
所述接收单元, 还用于接收所述第一基站发送的动态调度信息; The receiving unit is also configured to receive dynamic scheduling information sent by the first base station;
所述处理单元, 还用于根据所述动态调度信息联合所述第一基站, 用以替 代所述当前半持久调度与所述用户设备进行通讯。 The processing unit is also configured to associate with the first base station according to the dynamic scheduling information to communicate with the user equipment instead of the current semi-persistent scheduling.
22、 根据权利要求 19-21所述的基站, 其特征在于: 22. The base station according to claims 19-21, characterized in that:
所述接收单元, 还用于接收所述第一基站发送的所述半持久调度去激活信 息; The receiving unit is also configured to receive the semi-persistent scheduling deactivation information sent by the first base station;
还包括译放单元, 用于根据所述接收单元接收的所述半持久调度资源重配 置信息译放所述半持久调度资源。 It also includes a translation and playback unit, configured to translate and play the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiving unit.
23、 根据权利要求 19-21任一项所述的基站, 其特征在于: 23. The base station according to any one of claims 19-21, characterized in that:
所述接收单元, 还用于接收所述第一基站发送的所述半持久调度资源重配 置信息; The receiving unit is also configured to receive the semi-persistent scheduling resource reconfiguration information sent by the first base station;
还包括译放单元, 用于根据所述接收单元接收的所述半持久调度资源重配 置信息译放所述半持久调度资源。 It also includes a translation and playback unit, configured to translate and play the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiving unit.
24、 根据权利要求 19-23任一项所述的基站, 其特征在于: 24. The base station according to any one of claims 19-23, characterized in that:
还包括配置单元, 用于与所述第一基站进行协调, 并配置协作方式; 所述处理单元, 具体用于: It also includes a configuration unit for coordinating with the first base station and configuring a cooperation mode; the processing unit is specifically used for:
根据接收到的所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所述协作方式, 联合所述第一基站在半持久调度时间与所述用户设备进行 通讯; According to the received semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, according to the cooperation mode, the first base station is combined with the first base station to communicate with the user equipment during the semi-persistent scheduling time;
其中, 所述协作方式包括以下至少一种: Wherein, the cooperation method includes at least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 JT joint transmission, DPS dynamic transmission point selection, JR joint reception.
25、 一种基站, 其特征在于, 包括: 25. A base station, characterized by including:
发射机, 用于向第二基站发送半持久调度资源配置信息和半持久调度激活 信息; A transmitter, configured to send semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information to the second base station;
处理器, 用于根据所述半持久调度资源配置信息与所述半持久调度激活信 息, 联合所述第二基站在半持久调度时间与用户设备进行通讯。 A processor, configured to cooperate with the second base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
26、 根据权利要求 25所述的基站, 其特征在于: 26. The base station according to claim 25, characterized in that:
所述发射机, 还用于将所述半持久调度激活信息所对应的系统帧号和子帧 号发送至所述第二基站, 以使得第二基站根据所述半持久调度资源配置信息与 所述半持久调度激活信息获取所述半持久调度时间。 The transmitter is further configured to send the system frame number and subframe number corresponding to the semi-persistent scheduling activation information to the second base station, so that the second base station matches the semi-persistent scheduling resource configuration information with the The semi-persistent scheduling activation information obtains the semi-persistent scheduling time.
27、 根据权利要求 25或 26所述的基站, 其特征在于: 27. The base station according to claim 25 or 26, characterized in that:
所述处理器, 还用于放弃当前半持久调度资源; The processor is also configured to give up current semi-persistent scheduling resources;
所述发射机, 还用于将动态调度信息发送给所述第二基站; The transmitter is also used to send dynamic scheduling information to the second base station;
所述处理器, 还用于根据所述发射机发送的动态调度信息联合所述第二基 站, 用以替代所述当前半持久调度与所述用户设备进行通讯。 The processor is also configured to associate with the second base station according to the dynamic scheduling information sent by the transmitter to replace the current semi-persistent scheduling to communicate with the user equipment.
28、 根据权利要求 25-27任一项所述的基站, 其特征在于: 28. The base station according to any one of claims 25-27, characterized in that:
所述发射机, 还用于: The transmitter is also used for:
将所述半持久调度去激活信息发送给所述用户设备, 以使得所述用户设备 根据所述半持久调度去激活信息, 译放所述半持久调度资源; 和 /或, Send the semi-persistent scheduling deactivation information to the user equipment, so that the user equipment decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information; and/or,
将所述半持久调度去激活信息发送给所述第二基站, 以使得所述第二基站 根据所述半持久调度去激活信息 , 译放所述半持久调度资源。 The semi-persistent scheduling deactivation information is sent to the second base station, so that the second base station decodes and releases the semi-persistent scheduling resources according to the semi-persistent scheduling deactivation information.
29、 根据权利要求 25-27所述的第一基站, 其特征在于: 29. The first base station according to claims 25-27, characterized in that:
所述发射机, 还用于: The transmitter is also used for:
将所述半持久调度资源重配置信息发送给所述用户设备, 以使得所述用户 设备根据所述半持久调度资源重配置信息译放所述半持久调度资源; 和 /或, 将所述半持久调度资源重配置信息发送给所述第二基站, 以使得所述第二 基站根据所述半持久调度资源重配置信息译放所述半持久调度资源。 Send the semi-persistent scheduling resource reconfiguration information to the user equipment, so that the user equipment releases the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information; and/or, transfer the semi-persistent scheduling resource to the user equipment. The persistent scheduling resource reconfiguration information is sent to the second base station, so that the second base station decodes the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information.
30、 根据权利要求 25或 26所述的基站, 其特征在于: 所述处理器, 具体用于: 30. The base station according to claim 25 or 26, characterized in that: The processor is specifically used for:
与所述第二基站进行协调, 并配置协作方式; Coordinate with the second base station and configure a cooperation mode;
根据所述半持久调度资源配置信息和所述半持久调度激活信息, 按照所述 协作方式, 联合所述第二基站在半持久调度时间与所述用户设备进行通讯; 其中, 所述协作方式包括以下至少一种: According to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information, according to the cooperation mode, the second base station is jointly communicated with the user equipment during the semi-persistent scheduling time; wherein, the cooperation mode includes At least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 JT joint transmission, DPS dynamic transmission point selection, JR joint reception.
31、 一种基站, 其特征在于, 包括: 31. A base station, characterized by: including:
接收机, 用于接收第一基站发送的半持久调度资源配置信息和半持久调度 激活信息; A receiver, configured to receive semi-persistent scheduling resource configuration information and semi-persistent scheduling activation information sent by the first base station;
处理器, 用于根据所述半持久调度资源配置信息与所述半持久调度激活信 息, 联合所述第一基站在半持久调度时间与用户设备进行通讯。 A processor, configured to cooperate with the first base station to communicate with the user equipment during the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information.
32、 根据权利要求 31所述的基站, 其特征在于: 32. The base station according to claim 31, characterized in that:
所述接收机, 还用于接收所述第一基站发送的所述半持久调度激活信息所 对应的系统帧号和子帧号; The receiver is further configured to receive the system frame number and subframe number corresponding to the semi-persistent scheduling activation information sent by the first base station;
所述处理器, 还用于根据所述接收机接收的所述半持久调度资源配置信息 与所述半持久调度激活信息获取所述半持久调度时间。 The processor is further configured to obtain the semi-persistent scheduling time according to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiver.
33、 根据权利要求 31或 32所述的基站, 其特征在于: 33. The base station according to claim 31 or 32, characterized in that:
所述处理器, 还用于放弃当前半持久调度资源; The processor is also configured to give up current semi-persistent scheduling resources;
所述接收机, 还用于接收所述第一基站发送的动态调度信息; The receiver is also configured to receive dynamic scheduling information sent by the first base station;
所述处理器, 还用于根据所述接收机接收的所述动态调度信息联合所述第 一基站, 用以替代所述当前半持久调度与所述用户设备进行通讯。 The processor is further configured to associate with the first base station according to the dynamic scheduling information received by the receiver to replace the current semi-persistent scheduling to communicate with the user equipment.
34、 根据权利要求 31-33任一项所述的基站, 其特征在于: 34. The base station according to any one of claims 31-33, characterized in that:
所述接收机, 还用于接收所述第一基站发送的所述半持久调度去激活信息; 所述处理器, 还用于根据所述接收机接收的所述半持久调度去激活信息, 译放所述半持久调度资源。 The receiver is further configured to receive the semi-persistent scheduling deactivation information sent by the first base station; the processor is further configured to receive the semi-persistent scheduling deactivation information according to the semi-persistent scheduling deactivation information received by the receiver. Put the semi-persistent scheduling resources.
35、 根据权利要求 31-33任一项所述的基站, 其特征在于: 35. The base station according to any one of claims 31-33, characterized in that:
所述接收机, 还用于接收所述第一基站发送的所述半持久调度资源重配置 信息; The receiver is further configured to receive the semi-persistent scheduling resource reconfiguration sent by the first base station. information;
所述处理器, 还用于根据所述接收机接收的所述半持久调度资源重配置信 息, 译放所述半持久调度资源。 The processor is further configured to interpret and release the semi-persistent scheduling resource according to the semi-persistent scheduling resource reconfiguration information received by the receiver.
36、 根据权利要求 31或 32所述的基站, 其特征在于: 36. The base station according to claim 31 or 32, characterized in that:
所述处理器, 具体用于: The processor is specifically used for:
与所述第一基站进行协调, 并配置协作方式; Coordinate with the first base station and configure a cooperation mode;
根据所述接收机接收到的所述半持久调度资源配置信息和所述半持久调度 激活信息, 按照所述协作方式, 联合所述第一基站在半持久调度时间与所述用 户设备进行通讯; According to the semi-persistent scheduling resource configuration information and the semi-persistent scheduling activation information received by the receiver, in accordance with the cooperation mode, the first base station is combined with the first base station to communicate with the user equipment during the semi-persistent scheduling time;
其中, 所述协作方式包括以下至少一种: Wherein, the cooperation method includes at least one of the following:
JT联合发送、 DPS动态传输点选择、 JR联合接收。 JT joint transmission, DPS dynamic transmission point selection, JR joint reception.
PCT/CN2012/084241 2012-11-07 2012-11-07 Semi-persistent scheduling method and base station WO2014071581A1 (en)

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