WO2021142706A1 - 资源冲突的解决方法、装置、终端和存储介质 - Google Patents

资源冲突的解决方法、装置、终端和存储介质 Download PDF

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Publication number
WO2021142706A1
WO2021142706A1 PCT/CN2020/072443 CN2020072443W WO2021142706A1 WO 2021142706 A1 WO2021142706 A1 WO 2021142706A1 CN 2020072443 W CN2020072443 W CN 2020072443W WO 2021142706 A1 WO2021142706 A1 WO 2021142706A1
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Prior art keywords
resource
harq process
mac pdu
resources
target
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PCT/CN2020/072443
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English (en)
French (fr)
Inventor
付喆
卢前溪
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Oppo广东移动通信有限公司
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Priority to PCT/CN2020/072443 priority Critical patent/WO2021142706A1/zh
Priority to CN202080073348.7A priority patent/CN114586437B/zh
Publication of WO2021142706A1 publication Critical patent/WO2021142706A1/zh

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

Definitions

  • This application relates to the field of wireless communication, and in particular to a method, device, terminal, and storage medium for resolving resource conflicts.
  • Industrial Internet (Industrial Interest of Things, IIoT) supports the transmission of industrial automation (Factory automation), Transport Industry (Transport Industry), and Intelligent Power (Electrical Power Distribution) services in 5G systems.
  • the foregoing resource conflicts may include conflicts between Dynamic Grant (DG) and DG, conflicts between DG and Configured Grant (CG), and conflicts between CG and CG.
  • DG Dynamic Grant
  • CG Configured Grant
  • the embodiments of the present application provide a resource conflict resolution method, device, terminal and medium, which can be used for resource conflicts, especially when conflicts between DG and CG. It is possible that the HARQ processes corresponding to the two resources are the same. , In related technologies, there is no better solution to the problem.
  • the technical solution is as follows.
  • a method for resolving resource conflicts includes:
  • the N resources of the HARQ process of the first hybrid automatic repeat request conflict in the time domain are preferentially transmitted according to the grouping situation of the media access control protocol data unit MAC PDU corresponding to the N resources In one of the resources, the N is an integer greater than 1.
  • an apparatus for resolving resource conflicts including: a transmission module;
  • the transmission module is configured to, when N resources of the first hybrid automatic repeat request HARQ process collide in the time domain, according to the grouping situation of the MAC PDU of the media access control protocol data unit corresponding to the N resources , Transmitting one of the N resources preferentially, where N is an integer greater than 1.
  • a terminal device comprising: a processor; a transceiver connected to the processor; a memory for storing executable instructions of the processor; The processor is configured to load and execute the executable instructions to implement the resource conflict resolution method described in the foregoing aspect.
  • a computer-readable storage medium is provided, and executable instructions are stored in the readable storage medium, and the executable instructions are loaded and executed by the processor to implement the aforementioned aspects.
  • the resolution of resource conflicts is provided.
  • this application considers the grouping of MAC PDUs corresponding to the N resources to determine the priority transmission object as the target resource, providing a resource conflict resolution method , It can effectively allocate network bandwidth and improve the effectiveness of transmission.
  • Fig. 1 is a block diagram of a communication system provided by an exemplary embodiment of the present application
  • Fig. 2 is a flowchart of a resource conflict resolution method provided by an exemplary embodiment of the present application
  • FIG. 3 is a time-frequency schematic diagram of at least two resources conflicting in the time domain provided by an exemplary embodiment of the present application;
  • Fig. 4 is a flowchart of a resource conflict resolution method provided by an exemplary embodiment of the present application.
  • Fig. 5 is a flowchart of a resource conflict resolution method provided by an exemplary embodiment of the present application.
  • Fig. 6 is a structural block diagram of an apparatus for resolving resource conflicts provided by an exemplary embodiment of the present application
  • Fig. 7 is a schematic structural diagram of a terminal device provided by an exemplary embodiment of the present application.
  • Hybrid Automatic Repeat Request It is a technology that combines forward error correction coding (FEC) and automatic repeat request (ARQ). Use FEC technology at the receiving end to correct the correctable part of all errors. It is judged by error detection that the erroneous data packet cannot be corrected. Discard the data packet that cannot be corrected, and request the transmitter to resend the same data packet.
  • FEC forward error correction coding
  • ARQ automatic repeat request
  • Network equipment can schedule terminal equipment for uplink transmission in two ways: “dynamic scheduling” or “configuration scheduling”, for example, by sending a dynamic UL grant or configuring a UL grant to instruct the terminal device to send uplink data.
  • FIG. 1 shows a block diagram of a communication system provided by an exemplary embodiment of the present application.
  • the communication system may include: an access network 12 and a terminal device 13.
  • the access network 12 includes several network devices 120.
  • the network device 120 may be a base station, which is a device deployed in an access network to provide a wireless communication function for a terminal.
  • the base station may include various forms of macro base stations, micro base stations, relay stations, access points, and so on.
  • the names of devices with base station functions may be different. For example, in LTE systems, they are called eNodeB or eNB; in 5G NR-U systems, they are called gNodeB or gNB. .
  • the description of "base station” may change.
  • the above-mentioned devices for providing wireless communication functions for the terminal 13 are collectively referred to as network devices.
  • the terminal device 13 may include various handheld devices with wireless communication functions, vehicle-mounted devices, wearable devices, computing devices or other processing devices connected to a wireless modem, as well as various forms of user equipment, mobile stations (Mobile Station, MS) , Terminal (terminal device) and so on.
  • the network device 120 and the terminal device 13 communicate with each other through a certain air interface technology, such as a Uu interface.
  • the network device 120 schedules the HARQ process to transmit data, and the terminal device 13 performs information feedback on the HARQ process.
  • GSM Global System of Mobile Communication
  • CDMA Code Division Multiple Access
  • WCDMA Wideband Code Division Multiple Access
  • GSM Global System of Mobile Communication
  • GPRS General Packet Radio Service
  • LTE Long Term Evolution
  • FDD Frequency Division Duplex
  • TDD Time Division Duplex
  • LTE-A Advanced long term evolution
  • NR New Radio
  • NR Universal Mobile Telecommunication System
  • WiMAX Worldwide Interoperability for Microwave Access
  • WiMAX Wireless Local Area Networks
  • WLAN Wireless Fidelity
  • D2D Device to Device
  • M2M Machine to Machine
  • MTC machine type communication
  • V2V vehicle to vehicle
  • V2X vehicle to everything
  • Fig. 2 shows a flowchart of a resource conflict resolution method provided by an exemplary embodiment of the present application.
  • the method can be applied to the terminal device in the communication system as shown in Fig. 1.
  • the method includes:
  • Step 201 When N resources of the first HARQ process collide in the time domain, according to the grouping situation of MAC PDUs corresponding to the N resources, one of the N resources is preferentially transmitted.
  • N is an integer greater than 1.
  • the N resources are resources used by the network device to schedule the terminal device for uplink transmission in two ways: “dynamic scheduling” or “configuration scheduling”.
  • the N resources correspond to the same HARQ process: the first HARQ process.
  • LTE and 5G NR stipulate that terminal equipment can use multiple parallel HARQ processes: when one HARQ process is waiting for confirmation information, the terminal equipment can use another HARQ process to continue sending data.
  • the first HARQ process is one HARQ process among multiple parallel HARQ processes used by the terminal device.
  • FIG. 3 shows a time-frequency schematic diagram of at least two resources conflicting in the time domain.
  • the forms of conflict in the time domain include: partial overlap, inclusion, and complete overlap.
  • the Medium Access Control Protocol Data Unit (MAC PDU) is a data structure used by terminal devices to send data to network devices.
  • the MAC PDU may include the Medium Access Control Service Data Unit (MAC SDU), the sub-header corresponding to the MAC SDU, the Medium Access Control Element (MAC CE), The sub-header corresponding to the MAC CE.
  • the MAC SDU is used to transmit data to be sent in different logical channels (Logical Channel, LCH), and the MAC CE is used to transmit some control information.
  • LCH Logical Channel
  • the grouping of MAC PDU means that the MAC layer needs to combine all the delivered data to form a complete MAC PDU.
  • the HARQ process will store the MAC PDU in the corresponding HARQ buffer (buffer) for data retransmission.
  • the terminal device When the terminal device determines that the N resources of the first HARQ process conflict in the time domain, the terminal device will preferentially transmit one of the N resources according to the MAC PDU grouping situation corresponding to the N resources.
  • the grouping situation of MAC PDU corresponding to N resources includes one of the following situations:
  • the MAC PDUs corresponding to M resources have been packaged, and M is an integer less than or equal to N.
  • this application considers the MAC PDU grouping situation corresponding to the N resources, thereby determining the priority transmission object as Target resources provide a solution to resource conflicts, which can effectively allocate network bandwidth and improve transmission effectiveness.
  • N that is, the two resources of the first HARQ process: the first resource and the second resource conflict in the time domain
  • the first resource includes: one of dynamic scheduling (DG) resources, and one of configured scheduling (Configured Grant, CG) resources;
  • the second resource includes: dynamically scheduled resources, among the resources of configuration scheduling Kind of.
  • the conflict between the above two resources in the time domain can be any of the conflict between the DG and the DG, the conflict between the DG and the CG, and the conflict between the CG and the CG.
  • Dynamic scheduling means that network equipment sends uplink scheduling authorization (Uplink grant, UL grant), and sends control information on a physical downlink control channel (Physical Downlink Control Channel, PDCCH), that is, dynamic UL grant, and scrambles through terminal identification. If the terminal device successfully decodes the control information, it can obtain the physical layer resource size corresponding to this uplink scheduling, the time domain/frequency domain distribution of the physical layer resources, and the HARQ information required for this uplink scheduling transmission, so that the terminal device Perform the HARQ process to complete the uplink transmission.
  • PDCCH Physical Downlink Control Channel
  • Configuration scheduling means that the network equipment can pre-configure the resources required for the uplink transmission of the terminal equipment by means of semi-static resource allocation, that is, configure the UL grant.
  • the UL grant can be configured periodically, and there is no need for the terminal device to obtain an uplink grant before each uplink transmission.
  • the network device may configure the resource information for uplink transmission through Radio Resource Control (RRC) signaling, and may also include configuring the UL grant period, so that the terminal device transmits on the pre-configured resource schedule.
  • RRC Radio Resource Control
  • It can be Configured Grant Type 1 (Configured Grant Type 1).
  • the network equipment can also configure part of the uplink transmission information through Radio Resource Control (RRC) signaling, for example, configure the UL grant period, etc., and carry the uplink transmission resource information through physical layer signaling and activate the uplink transmission. Resources, so that the terminal device transmits on the pre-configured resource scheduling.
  • RRC Radio Resource Control
  • the above method may be Configured Grant Type 2 (Configured Grant Type 2).
  • FIG. 4 shows a flowchart of a resource conflict resolution method provided by an exemplary embodiment of the present application.
  • the N resources include: a first resource and a second resource, and step 201 is replaced by step 201a:
  • Step 201a When the N resources of the first HARQ process conflict in the time domain, in the case that the MAC PDUs corresponding to the first resource and the second resource are not packaged, the target resource is preferentially transmitted.
  • the target resource is one of the first resource and the second resource.
  • the MAC PDUs corresponding to the first resource and the second resource are not packaged, so the buffer area of the first HARQ process has not yet stored the MAC PDU corresponding to the first resource and the MAC PDU corresponding to the second resource.
  • the terminal device can be in the first A resource is determined from the resource and the second resource as the target resource, and the target resource is transmitted first.
  • the terminal device will also perform one of the following steps:
  • the MAC PDU corresponding to the target resource is stored in the buffer area of the second HARQ process, and the MAC PDU corresponding to the excluded resource is stored in the buffer area of the first HARQ process.
  • the excluded resource is another resource other than the target resource in the first resource and the second resource
  • the second HARQ process has a different process number from the first HARQ process
  • the buffer area of the second HARQ process is available.
  • the HARQ process number (HARQ process number), also called HARQ process ID, is used to uniquely identify a HARQ process.
  • the process numbers of the second HARQ process and the first HARQ process are different, which means that the second HARQ process and the first HARQ process are not the same HARQ process.
  • the terminal device receives the CG resource configured by the network device through RRC, the corresponding CG index of the CG resource is 1, and the configured HARQ process includes: the first HARQ process with the process ID of HARQ process id1 and the process ID of HARQ process The third HARQ process of id2.
  • the terminal device determines that the configured CG resource is available, the resource is the first resource, and the corresponding HARQ process is the first HARQ process.
  • the terminal device receives the DG scheduling, the scheduled HARQ process is the first HARQ process, and the resource scheduled by the DG is the second resource, and the second resource conflicts with the transmission resource of the first resource.
  • the terminal device After the terminal device determines the first resource as the target resource, it can store the MAC PDU of the first resource in the buffer area of the first HARQ process, give up transmitting the second resource, and discard the MAC PDU of the second resource;
  • the MAC PDU corresponding to the resource is stored in the buffer area of the first HARQ process, and the MAC PDU corresponding to the second resource is stored in the buffer area of the second HARQ process;
  • the MAC PDU corresponding to the first resource can be stored in the second HARQ process Place the MAC PDU corresponding to the second resource on the buffer area of the first HARQ process.
  • this application considers the grouping of MAC PDUs corresponding to the two resources to determine the priority transmission object as Target resources provide a solution to resource conflicts, which can effectively allocate network bandwidth and improve transmission effectiveness.
  • the HARQ processes corresponding to the two conflicting resources are the same first process, that is, when the processes are also conflicting, the target resource for priority transmission is associated with one HARQ, and the two resources are excluded from Another resource of the target resource does not perform transmission or is associated with another HARQ, which solves the problem of process conflict and improves the accuracy of transmission.
  • FIG. 5 shows a flowchart of a resource conflict resolution method provided by an exemplary embodiment of the present application.
  • the N resources include: a first resource and a second resource, and step 201 is replaced by step 201b:
  • Step 201b When the N resources of the first HARQ process conflict in the time domain, if there is a packaged MAC PDU in the MAC PDUs corresponding to the first resource and the second resource, the target resource is preferentially transmitted.
  • the target resource is one of the first resource and the second resource.
  • the terminal device A resource can be determined from the first resource and the second resource as the target resource, and the target resource is transmitted first.
  • the case where there is a packaged MAC PDU in the MAC PDUs corresponding to the first resource and the second resource can be divided into the following three sub-cases:
  • Sub-case 1 The MAC PDU corresponding to the target resource is the resource of the packaged MAC PDU.
  • Sub-case 2 When the MAC PDU corresponding to the excluded resource is a resource of a packaged MAC PDU, the excluded resource is another resource in addition to the target resource among the first resource and the second resource.
  • Sub-case 3 The MAC PDUs corresponding to the first resource and the second resource are the resources of the packaged MAC PDU.
  • the terminal device may also perform one of the following steps:
  • the excluded resource is another resource other than the target resource in the first resource and the second resource
  • the second HARQ process has a different process number from the first HARQ process
  • the buffer area of the second HARQ process is available.
  • the terminal device receives the CG resource configured by the network device through RRC, the corresponding CG index of the CG resource is 1, and the configured HARQ process includes: the first HARQ process with the process ID of HARQ process id1 and the process ID of HARQ process The third HARQ process of id2.
  • the terminal device determines that the configured CG resource is available, the resource is the first resource, and the corresponding HARQ process is the first HARQ process.
  • the terminal device receives the DG scheduling, the scheduled HARQ process is the first HARQ process, the resource scheduled by the DG is the second resource, and the second resource conflicts with the first resource sending resource, and the MAC PDU corresponding to the first resource It is the resource of the packaged MAC PDU.
  • the terminal device After the terminal device determines the first resource as the target resource, it can store the MAC PDU corresponding to the first resource in the buffer area of the first HARQ process, abandon the transmission of the second resource, and not group the MAC PDU corresponding to the second resource;
  • the MAC PDU corresponding to the first resource is stored in the buffer area of the first HARQ process
  • the MAC PDU corresponding to the second resource is stored in the buffer area of the second HARQ process.
  • the terminal device will also execute One of the following steps:
  • the MAC PDU corresponding to the target resource is replaced with the packaged MAC PDU and stored in the buffer area of the first HARQ process, and the MAC PDU corresponding to the excluded resource is stored in the buffer area of the second HARQ process;
  • the process ID of the second HARQ process is different from that of the first HARQ process, and the buffer area of the second HARQ process is available.
  • the terminal device receives the CG resource configured by the network device through RRC, the corresponding CG index of the CG resource is 1, and the configured HARQ process includes: the first HARQ process with the process ID of HARQ process id1 and the process ID of HARQ process The third HARQ process of id2.
  • the terminal device determines that the configured CG resource is available, the resource is the first resource, and the corresponding HARQ process is the first HARQ process.
  • the terminal device receives the DG scheduling, the scheduled HARQ process is the first HARQ process, the resource scheduled by the DG is the second resource, and the second resource conflicts with the first resource sending resource, and the MAC PDU corresponding to the first resource It is the resource of the packaged MAC PDU.
  • the terminal device may clear the buffer of the first HARQ process, and/or replace the MAC PDU corresponding to the second resource with the packaged MAC PDU and store it in the first HARQ process
  • the MAC PDU corresponding to the first resource is discarded; the MAC PDU corresponding to the second resource can be replaced with the packaged MAC PDU and stored in the buffer area of the first HARQ process, and the MAC PDU corresponding to the first resource is stored In the buffer area of the second HARQ process; the MAC PDU corresponding to the second resource may be stored in the buffer area of the second HARQ process, and the MAC PDU corresponding to the first resource may be stored in the buffer area of the first HARQ process.
  • the terminal device will also perform the following steps:
  • the MAC PDU generated later is the MAC PDU corresponding to the first resource and the second resource at the later generation time
  • the MAC PDU generated first is the MAC PDU corresponding to the first resource and the second resource at the earlier generation time.
  • the terminal device receives the CG resource configured by the network device through RRC, the corresponding CG index of the CG resource is 1, and the configured HARQ process includes: the first HARQ process with the process ID of HARQ process id1 and the process ID of HARQ process The third HARQ process of id2.
  • the terminal device determines that the configured CG resource is available, the resource is the first resource, and the corresponding HARQ process is the first HARQ process.
  • the terminal device receives the DG schedule, the scheduled HARQ process is the first HARQ process, the resource scheduled by the DG is the second resource, the second resource conflicts with the transmission resource of the first resource, and the first resource and the second resource
  • the corresponding MAC PDUs are all resources of the packaged MAC PDU, the first resource is the MAC PDU generated first, and the second resource is the MAC PDU generated later.
  • the terminal device After the terminal device determines the first resource as the target resource, it can store the MAC PDU corresponding to the second resource in the buffer area of the second HARQ process, and store the MAC PDU corresponding to the first resource in the buffer area of the first HARQ process .
  • this application considers the grouping of MAC PDUs corresponding to the two resources to determine the priority transmission object as Target resources provide a solution to resource conflicts, which can effectively allocate network bandwidth and improve transmission effectiveness.
  • the HARQ processes corresponding to the two conflicting resources are the same first process, that is, when the processes are also conflicting, the target resource for priority transmission is associated with one HARQ, and the two resources are excluded from Another resource of the target resource does not perform transmission or is associated with another HARQ, which solves the problem of process conflict and improves the accuracy of transmission.
  • the process ID of the second HARQ process may be determined by the terminal device itself, or may be determined by the terminal device receiving the second indication information sent by the network device.
  • the terminal device sends the first indication information to the network device, and the first indication information is used to notify the network device of the process number of the second HARQ process.
  • the first indication information includes: at least one of MAC CE, UCI, physical layer port, scrambling sequence, and codebook.
  • MAC CE is a control cell used for in-band control signaling. MAC CE provides a way to send control signaling faster than Radio Link Control (RLC), without being restricted by physical layer L1/L2 control signaling restrictions in terms of payload size and reliability .
  • RLC Radio Link Control
  • UCI Uplink Control Information
  • CSI Channel State Information
  • HARQ feedback for downlink data, such as HARQ-ACK information.
  • the terminal device receives the second indication information sent by the network device; according to the second indication information, the process number of the second HARQ process is determined.
  • the second indication information is indication information used by the network device to notify the terminal device of the process number of the second HARQ process.
  • the terminal device may also determine whether to perform at least one of the following actions according to the third instruction information sent by the network device:
  • the terminal device receives the third indication information sent by the network device, and the third indication information notifies the terminal device to select the target resource, and/or discards the MAC PDU of the grouped packet.
  • the terminal device determines the second resource as the target resource, and discards the MAC PDU corresponding to the packaged first resource.
  • the terminal device receives the third instruction information sent by the network device, and the third instruction information notifies the terminal device of the resources reached after not processing.
  • the terminal device determines the first resource that arrived first as the target resource, prioritizes transmission, stores the MAC PDU corresponding to the first resource in the buffer area of the first HARQ process, and does not generate the MAC PDU corresponding to the second resource.
  • the terminal device receives the third indication information sent by the network device, and the third indication information informs the terminal device to select the target resource, and/or puts the packaged MAC PDU into HARQ other than the first HARQ process process.
  • the terminal device determines the first resource as the target resource, and puts the MAC PDU corresponding to the packaged first resource into the second HARQ process, which is a HARQ process different from the first HARQ process.
  • the terminal device and the network device can interact through one or more of the first indication information, the second indication information, and the third indication information, which improves the transmission of resources. The reliability of the process.
  • the method for determining the target resource may be one of the following methods:
  • the target resource is the resource with higher priority among the first resource and the second resource; or, the target resource is the resource that arrives first among the first resource and the second resource; or, the target resource is the first resource and the second resource that belongs to The resource of the retransmission resource; or, the target resource is the resource that arrives later in the first resource and the second resource.
  • the initial transmission resource refers to the resource for transmitting a certain service for the first time.
  • the retransmission resource refers to whether a certain service is transmitted for the nth time, and n is an integer greater than 1.
  • the terminal device determines the first resource as the target resource.
  • first and last in the foregoing “arrival first” and “arrival later” can be the comparison of the arrival time of the resources indicated in the Downlink Control Information (DCI). It can be the comparison of the transmission time of the resource, or the comparison of the arrival time of the resource with the transmission time of the resource. This application does not limit the format of the aforementioned DCI.
  • DCI Downlink Control Information
  • the priority includes any one of the following priorities: the priority of the logical channel LCH; the media access control control Cell MAC CE priority; business priority; resource priority.
  • the priority of the logical channel of the first resource is 1, and the priority of the logical channel of the second resource is 2.
  • the smaller the priority value the higher the priority of the logical channel of the resource.
  • the terminal device determines the first resource with a higher priority as the target resource.
  • the priority of the service of the first resource is 2, and the priority of the service of the second resource is 1.
  • the smaller the value of the priority the higher the priority of the service of the resource.
  • the terminal device determines the second resource with a higher priority as the target resource.
  • the target resource is the resource that arrives first among the first resource and the second resource, including: the first resource is the first resource, and the arrival time of the first resource and the arrival time of the second resource When the interval between is less than or equal to the first threshold, the target resource is the first resource; when the second resource is the resource that arrives first, and the time between the arrival time of the second resource and the arrival time of the first resource When the interval is less than or equal to the second threshold value, the target resource is the second resource; wherein, the first threshold value is the same or different from the second threshold value.
  • the target resource is the resource that arrives first among the first resource and the second resource, including: the first resource is the resource that arrives first, and the transmission time of the first resource and the arrival time of the second resource In the case where the interval between is less than or equal to the first threshold, the target resource is the first resource; when the second resource is the resource that arrives first, and the transmission time of the second resource is between the arrival time of the first resource When the interval is less than or equal to the second threshold value, the target resource is the second resource; wherein, the first threshold value is the same or different from the second threshold value.
  • the target resource is the resource that arrives first among the first resource and the second resource, including: the first resource is the resource that arrives first, and the transmission time of the second resource and the arrival time of the second resource When the interval between is less than or equal to the first threshold, the target resource is the first resource; when the second resource is the resource that arrives first, and the transmission time of the first resource is between the arrival time of the first resource When the interval is less than or equal to the second threshold value, the target resource is the second resource; wherein, the first threshold value is the same or different from the second threshold value.
  • the foregoing first threshold value and second threshold value may be configured by the network device, or may be predefined in the standard, which is not limited in this application.
  • the first threshold value is 1.
  • the first resource is the resource that arrives first, and the interval between the arrival time of the first resource and the arrival time of the second resource is equal to 1, which is equal to the first threshold value, and the terminal device determines the first resource as the target resource.
  • the second threshold value is 2, and the first threshold value is different from the second threshold value.
  • the second resource is the resource that arrives first, and the interval between the arrival time of the second resource and the arrival time of the first resource is equal to 1, which is less than the second threshold, the terminal device determines the second resource as the target resource.
  • the target resource is a resource that arrives later among the first resource and the second resource, including: a resource that arrives after the first resource, and the arrival time of the first resource and the arrival time of the second resource
  • the target resource is the first resource
  • the second resource is the resource reached later, and the time between the arrival time of the second resource and the arrival time of the first resource
  • the target resource is the second resource.
  • the third threshold value is the same or different from the fourth threshold value.
  • the target resource is a resource that arrives after the first resource and the second resource, including: a resource that arrives after the first resource, and the transmission time of the first resource and the arrival time of the second resource
  • the target resource is the first resource
  • the second resource is the resource reached later
  • the transmission time of the second resource is between the arrival time of the first resource
  • the target resource is the second resource; where the third threshold value is the same or different from the fourth threshold value.
  • the target resource is a resource that arrives later in the first resource and the second resource, including: a resource that arrives later in the first resource, and the transmission time of the first resource and the arrival time of the first resource
  • the target resource is the first resource
  • the second resource is the resource reached later, and the transmission time of the second resource and the arrival time of the second resource are between
  • the target resource is the second resource; where the third threshold value is the same or different from the fourth threshold value.
  • the foregoing third threshold value and fourth threshold value may be configured by the network device, or may be predefined in the standard, which is not limited in this application.
  • the third threshold value is 1.
  • the first resource is a resource that arrives later, and the interval between the arrival time of the first resource and the arrival time of the second resource is equal to 1, which is equal to the third threshold, the terminal device determines the first resource as the target resource.
  • the fourth threshold value is 1, and the third threshold value is the same as the fourth threshold value.
  • the second resource is a resource that arrives later, and the interval between the arrival time of the second resource and the arrival time of the first resource is equal to 2, which is greater than the fourth threshold, the terminal device determines the second resource as the target resource.
  • the method provided in this embodiment improves the flexibility of the resource conflict resolution method by providing different implementation methods for determining the target resource for priority transmission, so that flexible configuration can be performed in different application scenarios.
  • FIG. 6 shows a structural block diagram of an apparatus for resolving resource conflicts provided by an exemplary embodiment of the present application.
  • the apparatus includes a transmission module 601 and a determination module 602;
  • the transmission module 601 is configured to, when N resources of the first hybrid automatic repeat request HARQ process collide in the time domain, according to the grouping situation of the MAC PDU of the media access control protocol data unit corresponding to the N resources, priority transmission One of the N resources, where N is an integer greater than 1.
  • the N resources include: a first resource and a second resource; the transmission module 601 is configured to conflict between the first resource and the first resource when the N resources of the first HARQ process conflict in the time domain.
  • the target resource is preferentially transmitted; where the target resource is one of the first resource and the second resource.
  • the transmission module 601 is configured to store the MAC PDU corresponding to the target resource in the buffer area of the first HARQ process, and abandon the transmission exclusion resource; or, the transmission module 601 is configured to store the target resource
  • the corresponding MAC PDU is stored in the buffer area of the first HARQ process, and the MAC PDU corresponding to the excluded resource is stored in the buffer area of the second HARQ process; or, the transmission module 601 is configured to store the MAC PDU corresponding to the target resource
  • the MAC PDU corresponding to the excluded resource is placed on the buffer area of the first HARQ process; where the excluded resource is another resource in addition to the target resource in the first resource and the second resource,
  • the process ID of the second HARQ process is different from that of the first HARQ process, and the buffer area of the second HARQ process is available.
  • the N resources include: a first resource and a second resource; the transmission module 601 is configured to conflict between the first resource and the first resource when the N resources of the first HARQ process conflict in the time domain. 2. If there is a packaged MAC PDU in the MAC PDU corresponding to the resource, the target resource is preferentially transmitted; where the target resource is one of the first resource and the second resource.
  • the target resource is the resource with higher priority among the first resource and the second resource; or, the target resource is the resource that arrives first among the first resource and the second resource; or, the target resource is the first resource.
  • the first resource and the second resource are resources belonging to the retransmission resource; or, the target resource is a resource that arrives later in the first resource and the second resource.
  • the transmission module 601 is configured to store the MAC PDU corresponding to the target resource in the buffer of the first HARQ process Area, abandon the transmission of the excluded resource; or, the transmission module 601 is configured to store the MAC PDU corresponding to the target resource in the buffer area of the first HARQ process, and store the MAC PDU corresponding to the excluded resource in the buffer area of the second HARQ process In the area; where the excluded resource is another resource in the first resource and the second resource in addition to the target resource, the second HARQ process has a different process number from the first HARQ process, and the buffer area of the second HARQ process is available.
  • the transmission module 601. It is configured to clear the buffer of the first HARQ process, and/or replace the MAC PDU corresponding to the target resource with the grouped MAC PDU and store it in the buffer area of the first HARQ process; or, the transmission module 601, It is configured to replace the MAC PDU corresponding to the target resource with the packaged MAC PDU and store it in the buffer area of the first HARQ process, and store the MAC PDU corresponding to the excluded resource in the buffer area of the second HARQ process; or, transmit The module 601 is configured to store the MAC PDU corresponding to the target resource in the buffer area of the second HARQ process, and store the MAC PDU corresponding to the excluded resource in the buffer area of the first HARQ process; wherein, the second HARQ process and The process ID of the
  • the transmission module 601 is configured to store the MAC PDU generated later in the first resource 2.
  • the MAC PDU generated first is stored in the buffer area of the first HARQ process; among them, the MAC PDU generated later is the MAC PDU corresponding to the first resource and the second resource in the generation time later
  • the MAC PDU generated first is the MAC PDU corresponding to the first resource and the second resource with the earlier generation time.
  • the priority includes any one of the following priorities: the priority of the logical channel LCH; the priority of the media access control cell MAC CE; the priority of the service; the priority of the resource.
  • the target resource Is the first resource; if the second resource is the resource that arrived first, and the interval between the arrival time of the second resource and the arrival time of the first resource is less than or equal to the second threshold, the target resource is the second Resources; where the first threshold and the second threshold are the same or different.
  • the target resource Is the first resource; in the case that the second resource is a later resource, and the interval between the arrival time of the second resource and the arrival time of the first resource is greater than or equal to the fourth threshold, the target resource is the second Resources; where the third threshold is the same or different from the fourth threshold.
  • the transmission module 601 is configured to send first indication information to the network device, where the first indication information is used to notify the network device of the process number of the second HARQ process.
  • the first indication information includes: at least one of MAC CE, uplink control information UCI, physical layer port, scrambling sequence, and codebook.
  • the transmission module 601 is configured to receive the second indication information sent by the network device; the determination module 602 is configured to determine the process ID of the second HARQ process according to the second indication information.
  • the first resource includes one of dynamically scheduled resources and configuration scheduled resources; the second resource includes: one of dynamically scheduled resources and configuration scheduled resources.
  • the determining module 602 is configured to determine whether to perform at least one of the following actions according to the third instruction information sent by the network device: whether to process the arrived resource; whether to select the target resource; whether to discard Packaged MAC PDU; Whether to put the packaged MAC PDU into other HARQ processes except the first HARQ process; Whether to replace the packaged MAC PDU.
  • FIG. 7 shows a schematic structural diagram of a terminal device provided by an exemplary embodiment of the present application.
  • the terminal device includes: a processor 101, a receiver 102, a transmitter 103, a memory 104, and a bus 105.
  • the processor 101 includes one or more processing cores, and the processor 101 executes various functional applications and information processing by running software programs and modules.
  • the receiver 102 and the transmitter 103 may be implemented as a communication component, and the communication component may be a communication chip.
  • the memory 104 is connected to the processor 101 through a bus 105.
  • the memory 104 may be used to store at least one instruction, and the processor 101 is used to execute the at least one instruction to implement each step in the foregoing method embodiment.
  • the memory 104 can be implemented by any type of volatile or non-volatile storage device or a combination thereof.
  • the volatile or non-volatile storage device includes, but is not limited to: magnetic disks or optical disks, electrically erasable and programmable Read Only Memory (Erasable Programmable Read Only Memory, EEPROM), Erasable Programmable Read Only Memory (EPROM), Static Random Access Memory (SRAM), Read Only Memory (Read -Only Memory, ROM), magnetic memory, flash memory, Programmable Read-Only Memory (PROM).
  • a computer-readable storage medium stores at least one instruction, at least one program, code set, or instruction set, and the at least one instruction, the At least one program, the code set, or the instruction set is loaded and executed by the processor to implement the resource conflict resolution method performed by the terminal device provided by the foregoing method embodiments.
  • the program can be stored in a computer-readable storage medium.
  • the storage medium mentioned can be a read-only memory, a magnetic disk or an optical disk, etc.

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Abstract

本申请公开了一种资源冲突的解决方法、装置、终端和存储介质,涉及无线通信领域。该方法包括:为当第一混合自动重传请求HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,所述N为大于1的整数。当同一HARQ进程的N个资源的传输发生冲突时,本申请通过考虑N个资源对应的MAC PDU的组包情况,从而将优先传输的对象确定为目标资源,提供了一种资源冲突的解决方法,能够有效地分配网络带宽,提高传输的有效性。

Description

资源冲突的解决方法、装置、终端和存储介质 技术领域
本申请涉及无线通信领域,特别涉及一种资源冲突的解决方法、装置、终端和存储介质。
背景技术
工业互联网(Industrial Interest of Things,IIOT)中支持工业自动化(Factory automation),传输自动化(Transport Industry),智能电力(Electrical Power Distribution)等业务在5G系统的传输。
基于IIoT业务的时延和可靠性的传输需求,需要解决传输业务的资源在时间上冲突的问题。上述资源冲突,可以包括动态调度(Dynamic Grant,DG)和DG之间的冲突,DG和配置调度(Configured Grant,CG)之间的冲突,CG和CG之间的冲突。
上述资源冲突,特别是DG和CG之间冲突时,有可能出现两个资源对应的HARQ进程相同的情况。相关技术中,尚未提供较好的解决方案。
发明内容
本申请实施例提供了一种资源冲突的解决方法、装置、终端和介质,可以用于资源冲突时,特别是DG和CG之间冲突时,有可能出现两个资源对应的HARQ进程相同的情况,相关技术中,尚未提供较好的解决方案的问题。所述技术方案如下。
根据本申请的一个方面,提供了一种资源冲突的解决方法,所述方法包括:
当第一混合自动重传请求HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,所述N为大于1的整数。
根据本申请的一个方面,提供了一种资源冲突的解决装置,所述装置包括:传输模块;
所述传输模块,被配置为当第一混合自动重传请求HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,所述N为大于1的整数。
根据本申请的一个方面,提供了一种终端设备,所述终端设备包括:处理器;与所述处理器相连的收发器;用于存储所述处理器的可执行指令的存储器;其中,所述处理器被配置为加载并执行所述可执行指令以实现如上述方面所述的资源冲突的解决方法。
根据本申请的一个方面,提供了一种计算机可读存储介质,所述可读存储介质中存储有可执行指令,所述可执行指令由所述处理器加载并执行以实现如上述方面所述的资源冲突的解决方法。
本申请实施例提供的技术方案至少包括如下有益效果:
当同一HARQ进程的N个资源的传输发生冲突时,本申请通过考虑N个资源对应的MAC PDU的组包情况,从而将优先传输的对象确定为目标资源,提供了一种资源冲突的解决方法,能够有效地分配网络带宽,提高传输的有效性。
附图说明
为了更清楚地说明本申请实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,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。
图1是本申请一个示例性实施例提供的通信系统的框图;
图2是本申请一个示例性实施例提供的资源冲突的解决方法的流程图;
图3是本申请一个示例性实施例提供的至少两个资源在时域上冲突的时频示意图;
图4是本申请一个示例性实施例提供的资源冲突的解决方法的流程图;
图5是本申请一个示例性实施例提供的资源冲突的解决方法的流程图;
图6是本申请一个示例性实施例提供的资源冲突的解决装置的结构框图;
图7是本申请一个示例性实施例提供的终端设备的结构示意图。
具体实施方式
为使本申请的目的、技术方案和优点更加清楚,下面将结合附图对本申请实施方式作进一步地详细描述。
首先,对本申请实施例中涉及的名词进行简单介绍:
混合自动重传请求(Hybrid Automatic Repeat Request,HARQ):是一种将前向纠错编码(FEC)和自动重传请求(ARQ)相结合而形成的技术。在接收端使用FEC技术纠正所有错误中能够纠正的那一部分。通过错误检测判断不能纠正错误的数据包。丢弃不能纠错的数据包,向发射端请求重新发送相同的数据包。
调度:网络设备可以通过“动态调度”或“配置调度”两种方式调度终端设备进行上行传输,例如,通过发送动态UL grant,或配置UL grant,指示终端设备进行上行数据发送。
图1示出了本申请一个示例性实施例提供的通信系统的框图,该通信系统可以包括:接入网12和终端设备13。
接入网12中包括若干个网络设备120。网络设备120可以是基站,所述基站是一种部署在接入网中用以为终端提供无线通信功能的装置。基站可以包括各种形式的宏基站,微基站,中继站,接入点等等。在采用不同的无线接入技术的系统中,具备基站功能的设备的名称可能会有所不同,例如在LTE系统中,称为eNodeB或者eNB;在5G NR-U系统中,称为gNodeB或者gNB。随着通信技术的演进,“基站”这一描述可能会变化。为方便本申请实施例中,上述为终端13提供无线通信功能的装置统称为网络设备。
终端设备13可以包括各种具有无线通信功能的手持设备、车载设备、可穿戴设备、计算设备或连接到无线调制解调器的其他处理设备,以及各种形式的用户设备,移动台(Mobile Station,MS),终端(terminal device)等等。为方便描述,上面提到的设备统称为终端。网络设备120与终端设备13之间通过某种空口技术互相通信,例如Uu接口。
可选的,网络设备120调度HARQ进程传输数据,终端设备13对HARQ进程进行信息反馈。
本申请实施例的技术方案可以应用于各种通信系统,例如:全球移动通讯(Global System of Mobile communication,GSM)系统、码分多址(Code Division Multiple Access,CDMA)系统、宽带码分多址(Wideband Code Division Multiple Access,WCDMA)系统、通用分组无线业务(General Packet Radio Service,GPRS)、长期演进(Long Term Evolution,LTE)系统、LTE频分双工(Frequency Division Duplex,FDD)系统、LTE时分双工(Time Division Duplex,TDD)系统、先进的长期演进(Advanced long term evolution,LTE-A)系统、新无线(New Radio,NR)系统、NR系统的演进系统、非授权频段上的LTE(LTE-based access to unlicensed spectrum,LTE-U)系统、NR-U系统、通用移动通信系统(Universal Mobile Telecommunication System,UMTS)、全球互联微波接入(Worldwide Interoperability for Microwave Access,WiMAX)通信系统、无线局域网(Wireless Local Area Networks,WLAN)、无线保真(Wireless Fidelity,WiFi)、下一代通信系统或其他通信系统等。
通常来说,传统的通信系统支持的连接数有限,也易于实现,然而,随着通信技术的发展,移动通信系统将不仅支持传统的通信,还将支持例如,设备到设备(Device to Device,D2D)通信,机器到机器(Machine to Machine,M2M)通信,机器类型通信(Machine Type Communication,MTC),车辆间(Vehicle to Vehicle,V2V)通信以及车联网(Vehicle to everything,V2X)系统等。本申请实施例也可以应用于这些通信系统。
图2示出了本申请一个示例性实施例提供的资源冲突的解决方法的流程图,该方法可以应用于如图1所示的通信系统中的终端设备中,该方法包括:
步骤201,当第一HARQ进程的N个资源在时域上冲突时,根据N个资源对应的MAC PDU的组包情况,优先传输N个资源中的一个资源。
其中,N为大于1的整数。可选的,N个资源是网络设备通过“动态调度”或“配置调度”两种方式调度终端设备进行上行传输的资源。
示例性的,N个资源对应的是同一个HARQ进程:第一HARQ进程。LTE以及5G NR中规定,终端设备可以使用多个并行的HARQ进程:当一个HARQ进程在等待确认信息时,终端设备可以使用另一个HARQ进程来继续发送数据。可选的,第一HARQ进程是终端设备使用的多个并行的HARQ进程中的一个HARQ进程。
N个资源在时域上冲突,指的是至少两个资源在时域上冲突。结合参考图3,图3示出了至少两个资源在时域上冲突的时频示意图,在时域上冲突的形式包括:部分重叠、包含、完全重叠。以至少两个资源包括:资源A和资源B为例,图3中的(a)示出了资源A和资源 B在时域上包含重叠的情形;图3中的(b)示出了资源A和资源B在时域上完全重叠的情形;图3中的(c)示出了资源A和资源B在时域上是部分重叠的情形。
媒体接入控制协议数据单元(Medium Access Control Protocol Data Unit,MAC PDU)是终端设备用来向网络设备发送数据的一种数据结构。
其中,MAC PDU可以包括媒体接入控制服务数据单元(Medium Access Control Service Data Unit,MAC SDU)、MAC SDU对应的子头、媒体接入控制控制信元(Medium Access Control Control Element,MAC CE)、MAC CE对应的子头。MAC SDU用于传输不同逻辑信道(Logical Channel,LCH)的待发送数据,MAC CE用于传输一些控制信息。
组包MAC PDU指的是:MAC层需要对所有下发的数据进行组合,组合成一个完整的MAC PDU。可选的,在MAC PDU组包完成后,HARQ进程会将此MAC PDU存储在相应的HARQ缓存区(buffer)中,用于数据的重传。
在终端设备确定第一HARQ进程的N个资源在时域上冲突时,终端设备将根据N个资源对应的MAC PDU的组包情况,优先传输N个资源中的一个资源。
其中,N个资源对应的MAC PDU的组包情况,包括如下情况中的一种:
1)N个资源对应的MAC PDU都未组包。
2)M个资源对应的MAC PDU已组包,M为小于或等于N的整数。
综上所述,本实施例提供的方法,当同一HARQ进程的N个资源的传输发生冲突时,本申请通过考虑N个资源对应的MAC PDU的组包情况,从而将优先传输的对象确定为目标资源,提供了一种资源冲突的解决方法,能够有效地分配网络带宽,提高传输的有效性。
下面,以N为2,即第一HARQ进程的2个资源:第一资源和第二资源在时域上发生冲突,对本申请提供的方法进行示例性的说明。
适用于如下场景:两个新传资源冲突;新传资源先可用,重传资源后可用;新传资源先调度,重传资源后调度;重传资源先可用,新传资源后可用;重传资源先调度,新传资源后调度;两个重传资源冲突。
可选的,第一资源包括:动态调度(Dynamic Grant,DG)的资源,配置调度(Configured Grant,CG)的资源中的一种;第二资源包括:动态调度的资源,配置调度的资源中的一种。
上述2个资源在时域上发生冲突,可以是:DG和DG之间的冲突、DG和CG之间的冲突、CG和CG之间的冲突中的任意一种。
动态调度是指:网络设备发送上行调度授权(Uplink grant,UL grant),在物理下行控制信道(Physical Downlink Control Channel,PDCCH)上发送控制信息,即动态UL grant,并且通过终端标识进行加扰,终端设备若成功解码该控制信息,可以获取此次上行调度对应的物理层资源大小以及所述物理层资源的时域/频域分布,以及此次上行调度传输所需的HARQ信息,从而终端设备进行HARQ过程,完成上行传输。
配置调度是指:网络设备可以通过半静态资源分配的方式预配置终端设备上行传输所需的资源,即配置UL grant。配置UL grant可以按周期出现,不需要终端设备每次发送上行传 输前都需要先获得上行授权。例如,网络设备可以通过无线资源控制(Radio Resource Control,RRC)信令配置上行传输的资源信息,还可以包括配置UL grant的周期,从而终端设备在所述预配置的资源调度上传输,上述方式可以是配置授权方式1(Configured Grant Type 1)。网络设备还可以通过无线资源控制(Radio Resource Control,RRC)信令配置上行传输的部分信息,例如,配置UL grant的周期等,并且通过物理层信令携带上行传输的资源信息并激活上行传输的资源,从而终端设备在预配置的资源调度上传输,上述方式可以是配置授权方式2(Configured Grant Type 2)。
在基于图2的可选实施例中,图4示出了本申请一个示例性实施例提供的资源冲突的解决方法的流程图。在本实施例中,N个资源包括:第一资源和第二资源,步骤201替换实现为步骤201a:
步骤201a,当第一HARQ进程的N个资源在时域上冲突时,在第一资源和第二资源对应的MAC PDU都未组包的情况下,优先传输目标资源。
其中,目标资源是第一资源和第二资源中的一个资源。
第一资源和第二资源对应的MAC PDU都未组包,则第一HARQ进程的缓存区还未存储有第一资源对应的MAC PDU和第二资源对应的MAC PDU。
当第一HARQ进程的2个资源:第一资源和第二资源在时域上冲突时,且第一资源和第二资源对应的MAC PDU都未组包的情况下,终端设备可以在第一资源和第二资源中确定出一个资源作为目标资源,优先对目标资源进行传输。
在一个可选的示例中,终端设备还将执行下列步骤中的一个步骤:
将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,放弃传输排除资源;
或,将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,将排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;
或,将目标资源对应的MAC PDU存储在第二HARQ进程的缓存区上,将排除资源对应的MAC PDU放在第一HARQ进程的缓存区上。
其中,排除资源是第一资源和第二资源中除目标资源外的另一个资源,第二HARQ进程与第一HARQ进程的进程号不同,第二HARQ进程的缓存区可用。
其中,HARQ的进程号(HARQ process number),也称为HARQ process ID,用于唯一地标识一个HARQ进程。第二HARQ进程和第一HARQ进程的进程号不同,意味着第二HARQ进程和第一HARQ进程不是同一个HARQ进程。示例性的,终端设备接收到网络设备通过RRC配置的CG资源,该CG资源对应的CG index为1,配置的HARQ进程包括:进程号为HARQ process id1的第一HARQ进程和进程号为HARQ process id2的第三HARQ进程。
在t1时刻,终端设备确定配置的CG资源可用,该资源为第一资源,对应的HARQ进程为第一HARQ进程。
在t2时刻,终端设备收到DG调度,调度的HARQ进程为第一HARQ进程,DG调度的资源为第二资源,该第二资源和第一资源发送资源冲突。
终端设备将第一资源确定为目标资源后,可以将第一资源的MAC PDU存储在第一HARQ进程的缓存区上,放弃传输第二资源,将第二资源的MAC PDU丢弃;可以将第一资源对应的MAC PDU存储在第一HARQ进程的缓存区上,将第二资源对应的MAC PDU存储在第二HARQ进程的缓存区上;可以将第一资源对应的MAC PDU存储在第二HARQ进程的缓存区上,将第二资源对应的MAC PDU放在第一HARQ进程的缓存区上。
综上所述,本实施例提供的方法,当同一HARQ进程的2个资源的传输发生冲突时,本申请通过考虑2个资源对应的MAC PDU的组包情况,从而将优先传输的对象确定为目标资源,提供了一种资源冲突的解决方法,能够有效地分配网络带宽,提高传输的有效性。
同时,本实施例提供的方法,冲突的两个资源对应的HARQ进程是相同的第一进程,即进程也冲突的情况下,通过将优先传输的目标资源关联一个HARQ,将两个资源中除了目标资源的另一个资源不进行传输或者关联另一个HARQ,解决了进程冲突的问题,提高了传输的正确率。
在基于图2的可选实施例中,图5示出了本申请一个示例性实施例提供的资源冲突的解决方法的流程图。在本实施例中,N个资源包括:第一资源和第二资源,步骤201替换实现为步骤201b:
步骤201b,当第一HARQ进程的N个资源在时域上冲突时,在第一资源和第二资源对应的MAC PDU中存在已组包的MAC PDU的情况下,优先传输目标资源。
其中,目标资源是第一资源和第二资源中的一个资源。
第一资源和第二资源对应的MAC PDU中存在已组包的MAC PDU,则第一HARQ进程的缓存区存储有已组包的MAC PDU。
当第一HARQ进程的2个资源:第一资源和第二资源在时域上冲突时,且第一资源和第二资源对应的MAC PDU中存在已组包的MAC PDU的情况下,终端设备可以在第一资源和第二资源中确定出一个资源作为目标资源,优先对目标资源进行传输。
可选的,第一资源和第二资源对应的MAC PDU中存在已组包的MAC PDU的情况,可以分为以下三种子情况:
子情况1:目标资源对应的MAC PDU是已组包的MAC PDU的资源。
子情况2:排除资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,排除资源是第一资源和第二资源中除目标资源外的另一个资源。
子情况3:第一资源和第二资源对应的MAC PDU均是已组包的MAC PDU的资源。
针对上述3种不同的子情况,终端设备用于解决HARQ进程冲突的方法也不同。
针对子情况1,在目标资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,终端设备还可以执行下列步骤中的一个步骤:
将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,放弃传输排除资源;
或,
将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,将排除资源对应的 MAC PDU放在第二HARQ进程的缓存区上;
其中,排除资源是第一资源和第二资源中除目标资源外的另一个资源,第二HARQ进程与第一HARQ进程的进程号不同,第二HARQ进程的缓存区可用。
示例性的,终端设备接收到网络设备通过RRC配置的CG资源,该CG资源对应的CG index为1,配置的HARQ进程包括:进程号为HARQ process id1的第一HARQ进程和进程号为HARQ process id2的第三HARQ进程。
在t1时刻,终端设备确定配置的CG资源可用,该资源为第一资源,对应的HARQ进程为第一HARQ进程。
在t2时刻,终端设备收到DG调度,调度的HARQ进程为第一HARQ进程,DG调度的资源为第二资源,该第二资源和第一资源发送资源冲突,且第一资源对应的MAC PDU是已组包的MAC PDU的资源。
终端设备将第一资源确定为目标资源后,可以将第一资源对应的MAC PDU存储在第一HARQ进程的缓存区上,放弃传输第二资源,不组包第二资源对应的MAC PDU;可以将第一资源对应的MAC PDU存储在第一HARQ进程的缓存区上,将第二资源对应的MAC PDU放在第二HARQ进程的缓存区上。
对子情况2,在排除资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,排除资源是第一资源和第二资源中除目标资源外的另一个资源,终端设备还将执行下列步骤中的一个步骤:
清空第一HARQ进程的缓冲区,和/或,将目标资源的对应的MAC PDU替换已组包的MAC PDU存储在第一HARQ进程的缓存区上;
或,
将目标资源的对应的MAC PDU替换已组包的MAC PDU存储在第一HARQ进程的缓存区上,将排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;
或,
将目标资源的对应的MAC PDU存储在第二HARQ进程的缓存区上,将排除资源对应的MAC PDU存储在第一HARQ进程的缓存区上;
其中,第二HARQ进程与第一HARQ进程的进程号不同,第二HARQ进程的缓存区可用。
示例性的,终端设备接收到网络设备通过RRC配置的CG资源,该CG资源对应的CG index为1,配置的HARQ进程包括:进程号为HARQ process id1的第一HARQ进程和进程号为HARQ process id2的第三HARQ进程。
在t1时刻,终端设备确定配置的CG资源可用,该资源为第一资源,对应的HARQ进程为第一HARQ进程。
在t2时刻,终端设备收到DG调度,调度的HARQ进程为第一HARQ进程,DG调度的资源为第二资源,该第二资源和第一资源发送资源冲突,且第一资源对应的MAC PDU是已组包的MAC PDU的资源。
终端设备将第二资源确定为目标资源后,可以将清空第一HARQ进程的缓冲区,和/或,将第二资源的对应的MAC PDU替换已组包的MAC PDU存储在第一HARQ进程的缓存区上,丢弃第一资源对应的MAC PDU;可以将第二资源的对应的MAC PDU替换已组包的MAC PDU存储在第一HARQ进程的缓存区上,将第一资源对应的MAC PDU存储在第二HARQ进程的缓存区上;可以将第二资源的对应的MAC PDU存储在第二HARQ进程的缓存区上,将第一资源对应的MAC PDU存储在第一HARQ进程的缓存区上。
针对子情况3,在第一资源和第二资源对应的MAC PDU均是已组包的MAC PDU的资源的情况下,终端设备还将执行下列步骤:
将后生成的MAC PDU存储在第二HARQ进程的缓存区上,将先生成的MAC PDU存储在第一HARQ进程的缓存区上;
其中,后生成的MAC PDU是第一资源和第二资源对应的MAC PDU中生成时间靠后的一个,先生成的MAC PDU是第一资源和第二资源对应的MAC PDU中生成时间靠前的一个。
示例性的,终端设备接收到网络设备通过RRC配置的CG资源,该CG资源对应的CG index为1,配置的HARQ进程包括:进程号为HARQ process id1的第一HARQ进程和进程号为HARQ process id2的第三HARQ进程。
在t1时刻,终端设备确定配置的CG资源可用,该资源为第一资源,对应的HARQ进程为第一HARQ进程。
在t2时刻,终端设备收到DG调度,调度的HARQ进程为第一HARQ进程,DG调度的资源为第二资源,该第二资源和第一资源发送资源冲突,且第一资源和第二资源对应的MAC PDU均是已组包的MAC PDU的资源,第一资源是先生成的MAC PDU,第二资源是后生成的MAC PDU。
终端设备将第一资源确定为目标资源后,可以将第二资源对应的MAC PDU存储在第二HARQ进程的缓存区上,将第一资源对应的MAC PDU存储在第一HARQ进程的缓存区上。
综上所述,本实施例提供的方法,当同一HARQ进程的2个资源的传输发生冲突时,本申请通过考虑2个资源对应的MAC PDU的组包情况,从而将优先传输的对象确定为目标资源,提供了一种资源冲突的解决方法,能够有效地分配网络带宽,提高传输的有效性。
同时,本实施例提供的方法,冲突的两个资源对应的HARQ进程是相同的第一进程,即进程也冲突的情况下,通过将优先传输的目标资源关联一个HARQ,将两个资源中除了目标资源的另一个资源不进行传输或者关联另一个HARQ,解决了进程冲突的问题,提高了传输的正确率。
在上述实施例的可选实施例中,第二HARQ进程的进程号可以是终端设备自己确定的,也可以是终端设备接收网络设备发送的第二指示信息来确定的。
在一个可选的示例中,终端设备向网络设备发送第一指示信息,第一指示信息用于通知网络设备第二HARQ进程的进程号。
可选的,第一指示信息包括:MAC CE、UCI、物理层端口、加扰序列、码本中的至少一 种。
MAC CE是用于带内控制信令的控制信元。MAC CE提供了比无线链路控制(Radio Link Control,RLC)更快的发送控制信令的方式,而不必受制于物理层L1/L2的控制信令在有效净荷大小和可靠性方面的限制。
上行控制信息(Uplink Control Information,UCI)是终端设备发送给网络设备的控制信息。UCI信息可以包括信道状态信息(Channel State Information,CSI),、针对下行数据的HARQ反馈,例如HARQ-ACK信息。
在一个可选的示例中,终端设备接收网络设备发送的第二指示信息;根据第二指示信息,确定第二HARQ进程的进程号。
其中,第二指示信息是网络设备用于通知终端设备第二HARQ进程的进程号的指示信息。
在上述实施例的可选实施例中,终端设备还可以根据网络设备发送的第三指示信息,确定是否执行以下行为至少之一:
是否处理后到达的资源;
是否进行目标资源的选择;
是否丢弃已组包的MAC PDU;
是否将已组包的MAC PDU放入除第一HARQ进程的其他HARQ进程;
是否替换已组包的MAC PDU。
示例性的,终端设备接收网络设备发送的第三指示信息,第三指示信息通知终端设备进行目标资源的选择,和/或,将已组包的MAC PDU丢弃。终端设备将第二资源确定为目标资源,并将已组包的第一资源对应的MAC PDU丢弃。
示例性的,终端设备接收网络设备发送的第三指示信息,第三指示信息通知终端设备不处理后达到的资源。终端设备将先到达的第一资源确定为目标资源,优先进行传输,将第一资源对应的MAC PDU存储在第一HARQ进程的缓存区上,不生成第二资源对应的MAC PDU。
示例性的,终端设备接收网络设备发送的第三指示信息,第三指示信息通知终端设备进行目标资源的选择,和/或,将已组包的MAC PDU放入除第一HARQ进程的其他HARQ进程。终端设备将第一资源确定为目标资源,将已组包的第一资源对应的MAC PDU放入第二HARQ进程,第二HARQ进程是不同于第一HARQ进程的HARQ进程。
综上所述,本实施例提供的方法,终端设备和网络设备之间可以通过第一指示信息、第二指示信息和第三指示信息中的一种或多种进行交互,提高了资源的传输过程的可靠性。
在基于图4或图5的可选实施例中,终端设备在优先传输目标资源之前,确定目标资源的方法可以是如下方法中的一种:
目标资源是第一资源和第二资源中优先级较高的资源;或,目标资源是第一资源和第二资源中先到达的资源;或,目标资源是第一资源和第二资源中属于重传资源的资源;或,目标资源是第一资源和第二资源中后到达的资源。
其中,初传资源指的是第一次传输某一业务的资源。重传资源指的是不是第n次传输某一业务的资源,n为大于1的整数。
示例性的,在第一资源是重传资源,第二资源是初传资源的情况下,终端设备将第一资源确定为目标资源。
需要说明的是,上述“先到达”和“后到达”中的“先”、“后”的概念,可以是下行控制信息(Downlink Control Information,DCI)中指示的资源的到达时间的比较,也可以是资源的传输时间的比较,也可以是资源的到达时间与资源的传输时间的比较。本申请对上述DCI的格式不加以限定。
可选的,在目标资源是第一资源和第二资源中优先级较高的资源的情况下,优先级包括如下优先级中的任意一种:逻辑信道LCH的优先级;媒体接入控制控制信元MAC CE的优先级;业务优先级;资源优先级。
示例性的,第一资源的逻辑信道的优先级为1,第二资源的逻辑信道的优先级为2。优先级的数值越小,表示该资源的逻辑信道的优先级越高。终端设备将优先级较高的第一资源确定为目标资源。
示例性的,第一资源的业务的优先级为2,第二资源的业务的优先级为1。优先级的数值越小,表示该资源的业务的优先级越高。终端设备将优先级较高的第二资源确定为目标资源。
在一个可选的示例中,目标资源是第一资源和第二资源中先到达的资源,包括:在第一资源是先达到的资源,且第一资源的到达时间与第二资源的到达时间之间的间隔小于或等于第一门限值的情况下,目标资源是第一资源;在第二资源是先达到的资源,且第二资源的到达时间与第一资源的到达时间之间的间隔小于或等于第二门限值的情况下,目标资源是第二资源;其中,第一门限值与第二门限值相同或不同。
在一个可选的示例中,目标资源是第一资源和第二资源中先到达的资源,包括:在第一资源是先达到的资源,且第一资源的传输时间与第二资源的到达时间之间的间隔小于或等于第一门限值的情况下,目标资源是第一资源;在第二资源是先达到的资源,且第二资源的传输时间与第一资源的到达时间之间的间隔小于或等于第二门限值的情况下,目标资源是第二资源;其中,第一门限值与第二门限值相同或不同。
在一个可选的示例中,目标资源是第一资源和第二资源中先到达的资源,包括:在第一资源是先达到的资源,且第二资源的传输时间与第二资源的到达时间之间的间隔小于或等于第一门限值的情况下,目标资源是第一资源;在第二资源是先达到的资源,且第一资源的传输时间与第一资源的到达时间之间的间隔小于或等于第二门限值的情况下,目标资源是第二资源;其中,第一门限值与第二门限值相同或不同。
上述第一门限值、第二门限值可以是网络设备配置的,也可以是标准中预定义的,本申请对此不加以限制。
示例性的,第一门限值为1。第一资源是先到达的资源,且第一资源的到达时间与第二资源的到达时间的间隔等于1,等于第一门限值,则终端设备将第一资源确定为目标资源。
第二门限值值为2,第一门限值和第二门限值不同。第二资源是先到达的资源,且第二资 源的到达时间与第一资源的到达时间的间隔等于1,小于第二门限值,则终端设备将第二资源确定为目标资源。
在一个可选的示例中,目标资源是第一资源和第二资源中后到达的资源,包括:在第一资源是后达到的资源,且第一资源的到达时间与第二资源的到达时间之间的间隔大于或等于第三门限值的情况下,目标资源是第一资源;在第二资源是后达到的资源,且第二资源的到达时间与第一资源的到达时间之间的间隔大于或等于第四门限值的情况下,目标资源是第二资源。其中,第三门限值与第四门限值相同或不同。
在一个可选的示例中,目标资源是第一资源和第二资源中后到达的资源,包括:在第一资源是后达到的资源,且第一资源的传输时间与第二资源的到达时间之间的间隔大于或等于第三门限值的情况下,目标资源是第一资源;在第二资源是后达到的资源,且第二资源的传输时间与第一资源的到达时间之间的间隔大于或等于第四门限值的情况下,目标资源是第二资源;其中,第三门限值与第四门限值相同或不同。
在一个可选的示例中,目标资源是第一资源和第二资源中后到达的资源,包括:在第一资源是后达到的资源,且第一资源的传输时间与第一资源的到达时间之间的间隔大于或等于第三门限值的情况下,目标资源是第一资源;在第二资源是后达到的资源,且第二资源的传输时间与第二资源的到达时间之间的间隔大于或等于第四门限值的情况下,目标资源是第二资源;其中,第三门限值与第四门限值相同或不同。
上述第三门限值、第四门限值可以是网络设备配置的,也可以是标准中预定义的,本申请对此不加以限制。
示例性的,第三门限值为1。第一资源是后到达的资源,且第一资源的到达时间与第二资源的到达时间的间隔等于1,等于第三门限值,则终端设备将第一资源确定为目标资源。
第四门限值为1,第三门限值和第四门限值相同。第二资源是后到达的资源,且第二资源的到达时间与第一资源的到达时间的间隔等于2,大于第四门限值,则终端设备将第二资源确定为目标资源。
综上所述,本实施例提供的方法,通过提供确定优先传输的目标资源的不同的实现方式,提高了资源冲突的解决方法的灵活性,从而可以在不同的应用场景下,进行灵活配置。
图6示出了本申请一个示例性实施例提供的资源冲突的解决装置的结构框图,该装置包括传输模块601和确定模块602;
传输模块601,被配置为当第一混合自动重传请求HARQ进程的N个资源在时域上冲突时,根据N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输N个资源中的一个资源,N为大于1的整数。
在一个可选的示例中,N个资源包括:第一资源和第二资源;传输模块601,被配置为当第一HARQ进程的N个资源在时域上冲突时,在第一资源和第二资源对应的MAC PDU都未组包的情况下,优先传输目标资源;其中,目标资源是第一资源和第二资源中的一个资源。
在一个可选的示例中,传输模块601,被配置为将目标资源对应的MAC PDU存储在第 一HARQ进程的缓存区上,放弃传输排除资源;或,传输模块601,被配置为将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,将排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;或,传输模块601,被配置为将目标资源对应的MAC PDU存储在第二HARQ进程的缓存区上,将排除资源对应的MAC PDU放在第一HARQ进程的缓存区上;其中,排除资源是第一资源和第二资源中除目标资源外的另一个资源,第二HARQ进程与第一HARQ进程的进程号不同,第二HARQ进程的缓存区可用。
在一个可选的示例中,N个资源包括:第一资源和第二资源;传输模块601,被配置为当第一HARQ进程的N个资源在时域上冲突时,在第一资源和第二资源对应的MAC PDU中存在已组包的MAC PDU的情况下,优先传输目标资源;其中,目标资源是第一资源和第二资源中的一个资源。
在一个可选的示例中,目标资源是第一资源和第二资源中优先级较高的资源;或,目标资源是第一资源和第二资源中先到达的资源;或,目标资源是第一资源和第二资源中属于重传资源的资源;或,目标资源是第一资源和第二资源中后到达的资源。
在一个可选的示例中,在目标资源对应的MAC PDU是已组包的MAC PDU的资源的情况下;传输模块601,被配置为将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,放弃传输排除资源;或,传输模块601,被配置为将目标资源对应的MAC PDU存储在第一HARQ进程的缓存区上,将排除资源对应的MAC PDU放在第二HARQ进程的缓存区上;其中,排除资源是第一资源和第二资源中除目标资源外的另一个资源,第二HARQ进程与第一HARQ进程的进程号不同,第二HARQ进程的缓存区可用。
在一个可选的示例中,在排除资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,排除资源是第一资源和第二资源中除目标资源外的另一个资源;传输模块601,被配置为清空第一HARQ进程的缓冲区,和/或,将目标资源的对应的MAC PDU替换已组包的MAC PDU存储在第一HARQ进程的缓存区上;或,传输模块601,被配置为将目标资源的对应的MAC PDU替换已组包的MAC PDU存储在第一HARQ进程的缓存区上,将排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;或,传输模块601,被配置为将目标资源的对应的MAC PDU存储在第二HARQ进程的缓存区上,将排除资源对应的MAC PDU存储在第一HARQ进程的缓存区上;其中,第二HARQ进程与第一HARQ进程的进程号不同,第二HARQ进程的缓存区可用。
在一个可选的示例中,在第一资源和第二资源对应的MAC PDU均是已组包的MAC PDU的资源的情况下;传输模块601,被配置为将后生成的MAC PDU存储在第二HARQ进程的缓存区上,将先生成的MAC PDU存储在第一HARQ进程的缓存区上;其中,后生成的MAC PDU是第一资源和第二资源对应的MAC PDU中生成时间靠后的一个,先生成的MAC PDU是第一资源和第二资源对应的MAC PDU中生成时间靠前的一个。
在一个可选的示例中,优先级包括如下优先级中的任意一种:逻辑信道LCH的优先级;媒体接入控制控制信元MAC CE的优先级;业务优先级;资源优先级。
在一个可选的示例中,在第一资源是先达到的资源,且第一资源的到达时间与第二资源 的到达时间之间的间隔小于或等于第一门限值的情况下,目标资源是第一资源;在第二资源是先达到的资源,且第二资源的到达时间与第一资源的到达时间之间的间隔小于或等于第二门限值的情况下,目标资源是第二资源;其中,第一门限值与第二门限值相同或不同。
在一个可选的示例中,在第一资源是后达到的资源,且第一资源的到达时间与第二资源的到达时间之间的间隔大于或等于第三门限值的情况下,目标资源是第一资源;在第二资源是后达到的资源,且第二资源的到达时间与第一资源的到达时间之间的间隔大于或等于第四门限值的情况下,目标资源是第二资源;其中,第三门限值与第四门限值相同或不同。
在一个可选的示例中,传输模块601,被配置为向网络设备发送第一指示信息,第一指示信息用于通知网络设备第二HARQ进程的进程号。
在一个可选的示例中,第一指示信息包括:MAC CE、上行控制信息UCI、物理层端口、加扰序列、码本中的至少一种。
在一个可选的示例中,传输模块601,被配置为接收网络设备发送的第二指示信息;确定模块602,被配置为根据第二指示信息,确定第二HARQ进程的进程号。
在一个可选的示例中,第一资源包括:动态调度的资源,配置调度的资源中的一种;第二资源包括:动态调度的资源,配置调度的资源中的一种。
在一个可选的示例中,确定模块602,被配置为根据网络设备发送的第三指示信息,确定是否执行以下行为至少之一:是否处理后到达的资源;是否进行目标资源的选择;是否丢弃已组包的MAC PDU;是否将已组包的MAC PDU放入除第一HARQ进程的其他HARQ进程;是否替换已组包的MAC PDU。
图7示出了本申请一个示例性实施例提供的终端设备的结构示意图,该终端设备包括:处理器101、接收器102、发射器103、存储器104和总线105。
处理器101包括一个或者一个以上处理核心,处理器101通过运行软件程序以及模块,从而执行各种功能应用以及信息处理。
接收器102和发射器103可以实现为一个通信组件,该通信组件可以是一块通信芯片。
存储器104通过总线105与处理器101相连。
存储器104可用于存储至少一个指令,处理器101用于执行该至少一个指令,以实现上述方法实施例中的各个步骤。
此外,存储器104可以由任何类型的易失性或非易失性存储设备或者它们的组合实现,易失性或非易失性存储设备包括但不限于:磁盘或光盘,电可擦除可编程只读存储器(Erasable Programmable Read Only Memory,EEPROM),可擦除可编程只读存储器(Erasable Programmable Read Only Memory,EPROM),静态随时存取存储器(Static Random Access Memory,SRAM),只读存储器(Read-Only Memory,ROM),磁存储器,快闪存储器,可编程只读存储器(Programmable Read-Only Memory,PROM)。
在示例性实施例中,还提供了一种计算机可读存储介质,所述计算机可读存储介质中存储有至少一条指令、至少一段程序、代码集或指令集,所述至少一条指令、所述至少一段程 序、所述代码集或指令集由所述处理器加载并执行以实现上述各个方法实施例提供的由终端设备执行的资源冲突的解决方法。
本领域普通技术人员可以理解实现上述实施例的全部或部分步骤可以通过硬件来完成,也可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,上述提到的存储介质可以是只读存储器,磁盘或光盘等。
以上所述仅为本申请的可选实施例,并不用以限制本申请,凡在本申请的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本申请的保护范围之内。

Claims (34)

  1. 一种资源冲突的解决方法,其特征在于,应用于终端设备中,所述方法包括:
    当第一混合自动重传请求HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,所述N为大于1的整数。
  2. 根据权利要求1所述的方法,其特征在于,所述N个资源包括:第一资源和第二资源;
    所述当第一HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,包括:
    当第一HARQ进程的N个资源在时域上冲突时,在所述第一资源和所述第二资源对应的MAC PDU都未组包的情况下,优先传输目标资源;
    其中,所述目标资源是所述第一资源和所述第二资源中的一个资源。
  3. 根据权利要求2所述的方法,其特征在于,所述方法还包括:
    将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,放弃传输排除资源;
    或,将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,将所述排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;
    或,将所述目标资源对应的MAC PDU存储在所述第二HARQ进程的缓存区上,将所述排除资源对应的MAC PDU放在所述第一HARQ进程的缓存区上;
    其中,所述排除资源是所述第一资源和所述第二资源中除所述目标资源外的另一个资源,所述第二HARQ进程与所述第一HARQ进程的进程号不同,所述第二HARQ进程的缓存区可用。
  4. 根据权利要求1所述的方法,其特征在于,所述N个资源包括:第一资源和第二资源;
    所述当第一HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,包括:
    当第一HARQ进程的N个资源在时域上冲突时,在所述第一资源和所述第二资源对应的MAC PDU中存在已组包的MAC PDU的情况下,优先传输目标资源;
    其中,所述目标资源是所述第一资源和所述第二资源中的一个资源。
  5. 根据权利要求2或4所述的方法,其特征在于,
    所述目标资源是所述第一资源和所述第二资源中优先级较高的资源;
    或,所述目标资源是所述第一资源和所述第二资源中先到达的资源;
    或,所述目标资源是所述第一资源和所述第二资源中属于重传资源的资源;
    或,所述目标资源是所述第一资源和所述第二资源中后到达的资源。
  6. 根据权利要求4所述的方法,其特征在于,在所述目标资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,所述方法还包括:
    将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,放弃传输排除资源;
    或,
    将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,将所述排除资源对应的MAC PDU放在第二HARQ进程的缓存区上;
    其中,所述排除资源是所述第一资源和所述第二资源中除所述目标资源外的另一个资源,所述第二HARQ进程与所述第一HARQ进程的进程号不同,所述第二HARQ进程的缓存区可用。
  7. 根据权利要求4所述的方法,其特征在于,在所述排除资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,所述排除资源是所述第一资源和所述第二资源中除所述目标资源外的另一个资源,所述方法还包括:
    清空所述第一HARQ进程的缓冲区,和/或,将所述目标资源的对应的MAC PDU替换所述已组包的MAC PDU存储在所述第一HARQ进程的缓存区上;
    或,
    将所述目标资源的对应的MAC PDU替换所述已组包的MAC PDU存储在所述第一HARQ进程的缓存区上,将所述排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;
    或,
    将所述目标资源的对应的MAC PDU存储在所述第二HARQ进程的缓存区上,将所述排除资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上;
    其中,所述第二HARQ进程与所述第一HARQ进程的进程号不同,所述第二HARQ进程的缓存区可用。
  8. 根据权利要求4所述的方法,其特征在于,在所述第一资源和所述第二资源对应的MAC PDU均是已组包的MAC PDU的资源的情况下,所述方法还包括:
    将后生成的MAC PDU存储在所述第二HARQ进程的缓存区上,将先生成的MAC PDU存储在所述第一HARQ进程的缓存区上;
    其中,所述后生成的MAC PDU是所述第一资源和所述第二资源对应的MAC PDU中生成时间靠后的一个,所述先生成的MAC PDU是所述第一资源和所述第二资源对应的MAC PDU中生成时间靠前的一个。
  9. 根据权利要求5所述的方法,其特征在于,所述优先级包括如下优先级中的任意一种:
    逻辑信道LCH的优先级;
    媒体接入控制控制信元MAC CE的优先级;
    业务优先级;
    资源优先级。
  10. 根据权利要求5所述的方法,其特征在于,所述目标资源是所述第一资源和所述第二资源中先到达的资源,包括:
    在所述第一资源是所述先达到的资源,且所述第一资源的到达时间与所述第二资源的到达时间之间的间隔小于或等于第一门限值的情况下,所述目标资源是所述第一资源;
    在所述第二资源是所述先达到的资源,且所述第二资源的到达时间与所述第一资源的到达时间之间的间隔小于或等于第二门限值的情况下,所述目标资源是所述第二资源;
    其中,所述第一门限值与所述第二门限值相同或不同。
  11. 根据权利要求5所述的方法,其特征在于,所述目标资源是所述第一资源和所述第二资源中后到达的资源,包括:
    在所述第一资源是所述后达到的资源,且所述第一资源的到达时间与所述第二资源的到达时间之间的间隔大于或等于第三门限值的情况下,所述目标资源是所述第一资源;
    在所述第二资源是所述后达到的资源,且所述第二资源的到达时间与所述第一资源的到达时间之间的间隔大于或等于第四门限值的情况下,所述目标资源是所述第二资源;
    其中,所述第三门限值与所述第四门限值相同或不同。
  12. 根据权利要求3、7和8中的任意一项所述的方法,其特征在于,所述方法还包括:
    向网络设备发送第一指示信息,所述第一指示信息用于通知网络设备所述第二HARQ进程的进程号。
  13. 根据权利要求12所述的方法,其特征在于,所述第一指示信息包括:MAC CE、上行控制信息UCI、物理层端口、加扰序列、码本中的至少一种。
  14. 根据权利要求3、7和8中的任意一项所述的方法,其特征在于,所述方法还包括:
    接收网络设备发送的第二指示信息;
    根据所述第二指示信息,确定所述第二HARQ进程的进程号。
  15. 根据权利要求2至14任一所述的方法,其特征在于,
    所述第一资源包括:动态调度的资源,配置调度的资源中的一种;
    所述第二资源包括:动态调度的资源,配置调度的资源中的一种。
  16. 根据权利要求4所述的方法,其特征在于,所述方法还包括:
    根据网络设备发送的第三指示信息,确定是否执行以下行为至少之一:
    是否处理后到达的资源;
    是否进行目标资源的选择;
    是否丢弃已组包的MAC PDU;
    是否将已组包的MAC PDU放入除所述第一HARQ进程的其他HARQ进程;
    是否替换已组包的MAC PDU。
  17. 一种资源冲突的解决装置,其特征在于,应用于终端设备中,所述装置包括:传输模块;
    所述传输模块,被配置为当第一混合自动重传请求HARQ进程的N个资源在时域上冲突时,根据所述N个资源对应的媒体接入控制协议数据单元MAC PDU的组包情况,优先传输所述N个资源中的一个资源,所述N为大于1的整数。
  18. 根据权利要求17所述的装置,其特征在于,所述N个资源包括:第一资源和第二资源;
    所述传输模块,被配置为当第一HARQ进程的N个资源在时域上冲突时,在所述第一资源和所述第二资源对应的MAC PDU都未组包的情况下,优先传输目标资源;
    其中,所述目标资源是所述第一资源和所述第二资源中的一个资源。
  19. 根据权利要求18所述的装置,其特征在于,
    所述传输模块,被配置为将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,放弃传输排除资源;
    或,所述传输模块,被配置为将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,将所述排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;
    或,所述传输模块,被配置为将所述目标资源对应的MAC PDU存储在所述第二HARQ进程的缓存区上,将所述排除资源对应的MAC PDU放在所述第一HARQ进程的缓存区上;
    其中,所述排除资源是所述第一资源和所述第二资源中除所述目标资源外的另一个资源,所述第二HARQ进程与所述第一HARQ进程的进程号不同,所述第二HARQ进程的缓存区可用。
  20. 根据权利要求17所述的装置,其特征在于,所述N个资源包括:第一资源和第二资源;
    所述传输模块,被配置为当第一HARQ进程的N个资源在时域上冲突时,在所述第一资源和所述第二资源对应的MAC PDU中存在已组包的MAC PDU的情况下,优先传输目标资源;
    其中,所述目标资源是所述第一资源和所述第二资源中的一个资源。
  21. 根据权利要求18或20所述的装置,其特征在于,
    所述目标资源是所述第一资源和所述第二资源中优先级较高的资源;
    或,所述目标资源是所述第一资源和所述第二资源中先到达的资源;
    或,所述目标资源是所述第一资源和所述第二资源中属于重传资源的资源;
    或,所述目标资源是所述第一资源和所述第二资源中后到达的资源。
  22. 根据权利要求20所述的装置,其特征在于,在所述目标资源对应的MAC PDU是已组包的MAC PDU的资源的情况下;
    所述传输模块,被配置为将所述目标资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上,放弃传输排除资源;
    或,
    所述传输模块,被配置为将所述目标资源对应的MAC PDU存储在所述第一HARQ进程 的缓存区上,将所述排除资源对应的MAC PDU放在第二HARQ进程的缓存区上;
    其中,所述排除资源是所述第一资源和所述第二资源中除所述目标资源外的另一个资源,所述第二HARQ进程与所述第一HARQ进程的进程号不同,所述第二HARQ进程的缓存区可用。
  23. 根据权利要求20所述的装置,其特征在于,在所述排除资源对应的MAC PDU是已组包的MAC PDU的资源的情况下,所述排除资源是所述第一资源和所述第二资源中除所述目标资源外的另一个资源;
    所述传输模块,被配置为清空所述第一HARQ进程的缓冲区,和/或,将所述目标资源的对应的MAC PDU替换所述已组包的MAC PDU存储在所述第一HARQ进程的缓存区上;
    或,
    所述传输模块,被配置为将所述目标资源的对应的MAC PDU替换所述已组包的MAC PDU存储在所述第一HARQ进程的缓存区上,将所述排除资源对应的MAC PDU存储在第二HARQ进程的缓存区上;
    或,
    所述传输模块,被配置为将所述目标资源的对应的MAC PDU存储在所述第二HARQ进程的缓存区上,将所述排除资源对应的MAC PDU存储在所述第一HARQ进程的缓存区上;
    其中,所述第二HARQ进程与所述第一HARQ进程的进程号不同,所述第二HARQ进程的缓存区可用。
  24. 根据权利要求20所述的装置,其特征在于,在所述第一资源和所述第二资源对应的MAC PDU均是已组包的MAC PDU的资源的情况下;
    所述传输模块,被配置为将后生成的MAC PDU存储在所述第二HARQ进程的缓存区上,将先生成的MAC PDU存储在所述第一HARQ进程的缓存区上;
    其中,所述后生成的MAC PDU是所述第一资源和所述第二资源对应的MAC PDU中生成时间靠后的一个,所述先生成的MAC PDU是所述第一资源和所述第二资源对应的MAC PDU中生成时间靠前的一个。
  25. 根据权利要求21所述的装置,其特征在于,所述优先级包括如下优先级中的任意一种:
    逻辑信道LCH的优先级;
    媒体接入控制控制信元MAC CE的优先级;
    业务优先级;
    资源优先级。
  26. 根据权利要求21所述的装置,其特征在于,
    在所述第一资源是所述先达到的资源,且所述第一资源的到达时间与所述第二资源的到达时间之间的间隔小于或等于第一门限值的情况下,所述目标资源是所述第一资源;
    在所述第二资源是所述先达到的资源,且所述第二资源的到达时间与所述第一资源的到 达时间之间的间隔小于或等于第二门限值的情况下,所述目标资源是所述第二资源;
    其中,所述第一门限值与所述第二门限值相同或不同。
  27. 根据权利要求21所述的装置,其特征在于,
    在所述第一资源是所述后达到的资源,且所述第一资源的到达时间与所述第二资源的到达时间之间的间隔大于或等于第三门限值的情况下,所述目标资源是所述第一资源;
    在所述第二资源是所述后达到的资源,且所述第二资源的到达时间与所述第一资源的到达时间之间的间隔大于或等于第四门限值的情况下,所述目标资源是所述第二资源;
    其中,所述第三门限值与所述第四门限值相同或不同。
  28. 根据权利要求19、23和24中的任意一项所述的装置,其特征在于,
    所述传输模块,被配置为向网络设备发送第一指示信息,所述第一指示信息用于通知网络设备所述第二HARQ进程的进程号。
  29. 根据权利要求28所述的装置,其特征在于,所述第一指示信息包括:MAC CE、上行控制信息UCI、物理层端口、加扰序列、码本中的至少一种。
  30. 根据权利要求19、23和24中的任意一项所述的装置,其特征在于,所述装置还包括:确定模块;
    所述传输模块,被配置为接收网络设备发送的第二指示信息;
    所述确定模块,被配置为根据所述第二指示信息,确定所述第二HARQ进程的进程号。
  31. 根据权利要求18至30任一所述的装置,其特征在于,
    所述第一资源包括:动态调度的资源,配置调度的资源中的一种;
    所述第二资源包括:动态调度的资源,配置调度的资源中的一种。
  32. 根据权利要求20所述的装置,其特征在于,所述装置还包括:确定模块;
    所述确定模块,被配置为根据网络设备发送的第三指示信息,确定是否执行以下行为至少之一:
    是否处理后到达的资源;
    是否进行目标资源的选择;
    是否丢弃已组包的MAC PDU;
    是否将已组包的MAC PDU放入除所述第一HARQ进程的其他HARQ进程;
    是否替换已组包的MAC PDU。
  33. 一种终端设备,其特征在于,所述终端设备包括:
    处理器;
    与所述处理器相连的收发器;
    用于存储所述处理器的可执行指令的存储器;
    其中,所述处理器被配置为加载并执行所述可执行指令以实现如权利要求1至16中任一所述的资源冲突的解决方法。
  34. 一种计算机可读存储介质,其特征在于,所述可读存储介质中存储有可执行指令, 所述可执行指令由所述处理器加载并执行以实现如权利要求1至16中任一所述的资源冲突的解决方法。
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