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WO2024031381A1 - Procédé d'envoi de pdsch sps, procédé de réception de pdsch sps et appareils associés - Google Patents

Procédé d'envoi de pdsch sps, procédé de réception de pdsch sps et appareils associés Download PDF

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Publication number
WO2024031381A1
WO2024031381A1 PCT/CN2022/111271 CN2022111271W WO2024031381A1 WO 2024031381 A1 WO2024031381 A1 WO 2024031381A1 CN 2022111271 W CN2022111271 W CN 2022111271W WO 2024031381 A1 WO2024031381 A1 WO 2024031381A1
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WIPO (PCT)
Prior art keywords
information
window
sps pdsch
configuration information
receiving
Prior art date
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PCT/CN2022/111271
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English (en)
Chinese (zh)
Inventor
付婷
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Beijing Xiaomi Mobile Software Co Ltd
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Beijing Xiaomi Mobile Software Co Ltd
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Application filed by Beijing Xiaomi Mobile Software Co Ltd filed Critical Beijing Xiaomi Mobile Software Co Ltd
Priority to PCT/CN2022/111271 priority Critical patent/WO2024031381A1/fr
Priority to CN202280002659.3A priority patent/CN117859349A/zh
Publication of WO2024031381A1 publication Critical patent/WO2024031381A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services

Definitions

  • the present application relates to the field of communication technology, and in particular to a method and device for transmitting and receiving SPS PDSCH.
  • SPS PDSCH Semi-Persistent SchedulingPhysical Downlink Shared channel
  • the higher layer configures periodic PDSCH transmission resources and uses downlink control information (DCI) to activate and deactivate Activation, except for activation and deactivation, does not require DCI scheduling for each PDSCH transmission.
  • DCI downlink control information
  • SPS PDSCH For Extended Reality (XR) services, since SPS PDSCH does not require DCI scheduling, it can be used to enhance system capacity to support more XR services. However, if the SPS PDSCH cycle is configured relatively short, the terminal equipment needs to monitor the PDSCH in each cycle, and the energy consumption of the terminal equipment is relatively large.
  • XR Extended Reality
  • the embodiment of the present application provides a method and device for sending and receiving SPS PDSCH, which can be applied in the field of communication technology.
  • the terminal device receives the SPS PDSCH sent by the network device within the designated receiving window, avoiding the terminal device from monitoring the PDSCH in each cycle. , reduce the energy consumption of terminal equipment.
  • embodiments of the present application provide a method for receiving SPS PDSCH, which is executed by a terminal device.
  • the method includes: receiving the SPS PDSCH sent by the network device in a designated receiving window.
  • the terminal device can receive the SPS PDSCH sent by the network device within the designated receiving window, so that the terminal device only monitors the PDSCH in each cycle within the designated receiving window, reducing the number of times the terminal device monitors the PDSCH and reducing the terminal cost.
  • Equipment energy consumption is the terminal device that uses the SPS PDSCH to monitor the PDSCH in each cycle within the designated receiving window.
  • embodiments of the present application provide another method of sending SPS PDSCH, which is executed by a network device.
  • the method includes: sending SPS PDSCH to a terminal device in a designated receiving window.
  • the network device can only send SPS PDSCH to the terminal device within the designated receiving window, so that the terminal device only needs to monitor PDSCH in each cycle within the designated receiving window, reducing the number of times the terminal device monitors PDSCH and reducing Energy consumption of terminal equipment.
  • embodiments of the present application provide a communication device that has some or all of the functions of the terminal device in implementing the method described in the first aspect.
  • the functions of the communication device may have some or all of the functions in this application.
  • the functions in the embodiments may also be used to independently implement any of the embodiments in this application.
  • the functions described can be implemented by hardware, or can be implemented by hardware executing corresponding software.
  • the hardware or software includes one or more units or modules corresponding to the above functions.
  • the structure of the communication device may include a transceiver unit and a processing unit, and the processing unit is configured to support the communication device in performing corresponding functions in the above method.
  • the transceiver unit is used to support communication between the communication device and other devices.
  • the communication device may further include a storage unit coupled to the transceiver unit and the processing unit, which stores computer programs and data necessary for the communication device.
  • the processing unit may be a processor
  • the transceiving unit may be a transceiver or a communication interface
  • the storage unit may be a memory
  • embodiments of the present application provide another communication device that has some or all of the functions of the network device in the method example described in the second aspect.
  • the functions of the communication device may have some of the functions in this application.
  • the functions in all embodiments may also be used to implement any one embodiment of the present application independently.
  • the functions described can be implemented by hardware, or can be implemented by hardware executing corresponding software.
  • the hardware or software includes one or more units or modules corresponding to the above functions.
  • the structure of the communication device may include a transceiver unit and a processing unit, and the processing unit is configured to support the communication device in performing corresponding functions in the above method.
  • the transceiver unit is used to support communication between the communication device and other equipment.
  • the communication device may further include a storage unit coupled to the transceiver unit and the processing unit, which stores computer programs and data necessary for the communication device.
  • inventions of the present application provide a communication device.
  • the communication device includes a processor.
  • the processor calls a computer program in a memory, it executes the method described in the first aspect.
  • inventions of the present application provide a communication device.
  • the communication device includes a processor.
  • the processor calls a computer program in a memory, it executes the method described in the second aspect.
  • inventions of the present application provide a communication device.
  • the communication device includes a processor and a memory, and a computer program is stored in the memory; the processor executes the computer program stored in the memory, so that the communication device executes The method described in the first aspect above.
  • inventions of the present application provide a communication device.
  • the communication device includes a processor and a memory, and a computer program is stored in the memory; the processor executes the computer program stored in the memory, so that the communication device executes The method described in the second aspect above.
  • inventions of the present application provide a communication device.
  • the device includes a processor and an interface circuit.
  • the interface circuit is used to receive code instructions and transmit them to the processor.
  • the processor is used to run the code instructions to cause the The device performs the method described in the first aspect.
  • inventions of the present application provide a communication device.
  • the device includes a processor and an interface circuit.
  • the interface circuit is used to receive code instructions and transmit them to the processor.
  • the processor is used to run the code instructions to cause the The device performs the method described in the second aspect above.
  • embodiments of the present application provide a communication system, which includes the communication device described in the third aspect and the communication device described in the fourth aspect, or the system includes the communication device described in the fifth aspect and The communication device according to the sixth aspect, or the system includes the communication device according to the seventh aspect and the communication device according to the eighth aspect, or the system includes the communication device according to the ninth aspect and the communication device according to the tenth aspect. the above-mentioned communication device.
  • embodiments of the present invention provide a computer-readable storage medium for storing instructions used by the above-mentioned terminal equipment. When the instructions are executed, the terminal equipment is caused to execute the above-mentioned first aspect. method.
  • embodiments of the present invention provide a computer-readable storage medium for storing instructions used by the above-mentioned network device. When the instructions are executed, the network device is caused to execute the above-mentioned second aspect. method.
  • embodiments of the present invention further provide a communication system, including a terminal device and a network device.
  • the terminal device performs the method described in the first aspect
  • the network device performs the method described in the second aspect. .
  • the present application also provides a computer program product including a computer program, which when run on a computer causes the computer to execute the method described in the first aspect.
  • the present application also provides a computer program product including a computer program, which when run on a computer causes the computer to execute the method described in the second aspect.
  • the present application provides a chip system, which includes at least one processor and an interface for supporting the terminal device to implement the functions involved in the first aspect, for example, determining or processing the data involved in the above method. and information.
  • the chip system further includes a memory, and the memory is used to store necessary computer programs and data for the terminal device.
  • the chip system may be composed of chips, or may include chips and other discrete devices.
  • this application provides a chip system, which includes at least one processor and an interface for supporting network equipment to implement the functions involved in the second aspect, for example, determining or processing the data involved in the above method. and information.
  • the chip system further includes a memory, and the memory is used to store necessary computer programs and data for the network device.
  • the chip system may be composed of chips, or may include chips and other discrete devices.
  • the present application provides a computer program that, when run on a computer, causes the computer to execute the method described in the first aspect.
  • the present application provides a computer program that, when run on a computer, causes the computer to execute the method described in the second aspect.
  • Figure 1 is a schematic architectural diagram of a communication system provided by an embodiment of the present application.
  • Figure 2 is a schematic flow chart of a SPS PDSCH receiving method provided by an embodiment of the present application
  • Figure 3 is a schematic flow chart of another SPS PDSCH receiving method provided by the embodiment of the present application.
  • Figure 4 is a schematic flow chart of another SPS PDSCH receiving method provided by the embodiment of the present application.
  • Figure 5 is a schematic flow chart of another SPS PDSCH receiving method provided by the embodiment of the present application.
  • Figure 6 is a schematic flow chart of a SPS PDSCH sending method provided by an embodiment of the present application.
  • Figure 7 is a schematic flow chart of another SPS PDSCH transmission method provided by the embodiment of the present application.
  • Figure 8 is a schematic flow chart of another SPS PDSCH transmission method provided by the embodiment of the present application.
  • Figure 9 is a schematic flow chart of another SPS PDSCH transmission method provided by the embodiment of the present application.
  • Figure 10 is a schematic structural diagram of a communication device provided by an embodiment of the present application.
  • Figure 11 is a schematic structural diagram of another communication device provided by an embodiment of the present application.
  • Figure 12 is a schematic structural diagram of a chip provided by an embodiment of the present application.
  • XR business is one of the business types to be supported by the 5G system.
  • XR includes augmented reality (Augmented Reality, AR), virtual reality (Virtual Reality, VR), cloud gaming (Cloud gaming), etc.
  • a typical feature of XR services is that there is a fixed frame rate, that is, there is a fixed period for the service to arrive at the terminal device, but there will be additional delay jitter (Jitter) above the fixed period, resulting in some differences in the actual data service arriving at the terminal device. Advance or delay.
  • the fixed frame rate can be 60 frames per second (FPS), that is, the fixed period is 16.67ms, and the jitter range is [4,-4]ms.
  • the number of bits (Binary digits, BIT) contained in a frame may be large, and it will be split into multiple TBs and transmitted in multiple physical resources (such as multiple time slots).
  • the terminal equipment can be configured with a periodic on-off time domain pattern. Whenever the working period (on duration) is reached, the physical downlink control channel (Physical Downlink Control Channel, PDCCH) monitoring is turned on. When the PDCCH monitoring is completed or the off duration (off duration) is enabled, ) arrives, it goes to sleep, thus saving energy.
  • PDCCH Physical Downlink Control Channel
  • the C-DRX mechanism achieves energy saving by controlling terminal equipment to reduce unnecessary PDCCH monitoring. However, the C-DRX mechanism will not affect the reception of SPS PDSCH.
  • SPS PDSCH is a semi-persistent PDSCH.
  • the higher layer configures periodic PDSCH transmission resources and uses DCI activation and deactivation. In addition to activation and deactivation, each PDSCH transmission does not require DCI scheduling.
  • Figure 1 is a schematic architectural diagram of a communication system provided by an embodiment of the present application.
  • the communication system may include but is not limited to one network device and one terminal device.
  • the number and form of devices shown in Figure 1 are only for examples and do not constitute a limitation on the embodiments of the present application. In actual applications, two or more devices may be included.
  • the communication system shown in Figure 1 includes a network device 101 and a terminal device 102 as an example.
  • LTE long term evolution
  • 5th generation 5th generation
  • NR 5th generation new radio
  • side link in the embodiment of the present application may also be called a side link or a through link.
  • the network device 101 in the embodiment of this application is an entity on the network side that is used to transmit or receive signals.
  • the network device 101 can be an evolved base station (evolved NodeB, eNB), a transmission point (transmission reception point, TRP), a next generation base station (next generation NodeB, gNB) in an NR system, or other base stations in future mobile communication systems. Or access nodes in wireless fidelity (WiFi) systems, etc.
  • the embodiments of this application do not limit the specific technology and specific equipment form used by the network equipment.
  • the network equipment provided by the embodiments of this application may be composed of a centralized unit (central unit, CU) and a distributed unit (DU).
  • the CU may also be called a control unit (control unit).
  • the structure can separate the protocol layers of network equipment, such as base stations, and place some protocol layer functions under centralized control on the CU. The remaining part or all protocol layer functions are distributed in the DU, and the CU centrally controls the DU.
  • the terminal device 102 in the embodiment of this application is an entity on the user side that is used to receive or transmit signals, such as a mobile phone.
  • Terminal equipment can also be called terminal equipment (terminal), user equipment (user equipment, UE), mobile station (mobile station, MS), mobile terminal equipment (mobile terminal, MT), etc.
  • the terminal device can be a car with communication functions, a smart car, a mobile phone, a wearable device, a tablet computer (Pad), a computer with wireless transceiver functions, a virtual reality (VR) terminal device, an augmented reality (augmented reality (AR) terminal equipment, wireless terminal equipment in industrial control, wireless terminal equipment in self-driving, wireless terminal equipment in remote medical surgery, smart grid ( Wireless terminal equipment in smart grid, wireless terminal equipment in transportation safety, wireless terminal equipment in smart city, wireless terminal equipment in smart home, etc.
  • the embodiments of this application do not limit the specific technology and specific equipment form used by the terminal equipment.
  • the cycle of SPS PDSCH is configured relatively short.
  • the cycle is configured as 1 time slot (slot), that is, there is SPS PDSCH in each slot.
  • the resources are used to transmit downlink data.
  • the terminal equipment in each slot needs to monitor the PDSCH, and the energy consumption of the terminal equipment is relatively large.
  • the terminal device can perform the method described in any one of the embodiments in Figures 2 to 5, and the network device can perform the method described in any one of the embodiments in Figures 6 to 9 Methods.
  • Figure 2 is a schematic flow chart of a SPS PDSCH receiving method provided by an embodiment of the present application.
  • the SPS PDSCH receiving method is performed by the terminal equipment. As shown in Figure 2, the method may include but is not limited to the following steps:
  • Step S201 Receive the SPS PDSCH sent by the network device in the designated receiving window.
  • the terminal device can stop receiving the SPS PDSCH sent by the network device.
  • the SPS PDSCH resource may be a first category resource, that is, the terminal device may only monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated reception window to receive the SPS PDSCH; and in the designated reception window Outside the window, stop monitoring PDSCH and stop receiving SPS PDSCH.
  • the reception of the SPS PDSCH will not be restricted by the designated reception window. That is to say, within the designated reception window and outside the designated reception window, the terminal device can monitor the PDSCH in each cycle of the SPS PDSCH resource to receive the SPS PDSCH.
  • SPS PDSCH is activated by DCI activation information. That is, before the SPS PDSCH resource, the terminal equipment receives DCI activation information. That is to say, after the terminal device receives the DCI activation information and before receiving the DCI deactivation information, if there is a designated receiving window, it will monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated receiving window.
  • DCI activation information e.g., a terminal device receives the DCI activation information and before receiving the DCI deactivation information, if there is a designated receiving window, it will monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated receiving window.
  • SPS PDSCH resources can be used to transmit XR services. Since SPS PDSCH does not require DCI scheduling, the SPS PDSCH transmission mechanism can be used to enhance system capacity to support more XR services. Due to the periodicity of the XR service, there is not downlink XR service data to be transmitted in every SPS PDSCH cycle. Therefore, the network device can configure the second indication information for the terminal device according to the transmission situation of the downlink XR service data. to indicate the specified receive window.
  • the number of designated receiving windows may be one or more.
  • the terminal device can receive the SPS PDSCH sent by the network device in the designated receiving window, so that the terminal device only monitors the PDSCH in each cycle within the designated receiving window, reducing the number of terminal devices monitoring the PDSCH. times to reduce the energy consumption of terminal equipment.
  • Another benefit is that by using a designated reception window to limit the reception of SPS PDSCH, network equipment does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • Figure 3 is a schematic flow chart of another SPS PDSCH receiving method provided by an embodiment of the present application.
  • the SPS PDSCH receiving method is performed by the terminal equipment. As shown in Figure 3, the method may include but is not limited to the following steps:
  • Step S301 Receive first indication information sent by the network device.
  • the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; DCI activation information of SPS PDSCH resources; information other than SPS PDSCH configuration information and DCI activation information.
  • the terminal device may receive the SPS PDSCH configuration information sent by the network device, where the SPS PDSCH configuration information may carry a first parameter for indicating that the SPS PDSCH resource is a resource of the first category.
  • SPS PDSCH configuration information is used to configure periodic SPS PDSCH resources, and may also include at least one of the following parameters: the period of SPS PDSCH, the physical uplink control channel (Physical Uplink Control Channel, PUCCH) resource used for HARQ feedback Index number, MCS, etc. can be set according to actual needs.
  • PUCCH Physical Uplink Control Channel
  • the terminal device can receive the SPS PDSCH configuration information sent by the network device. If the DCI activation information is received, the terminal device can monitor the PDSCH in each cycle of the SPS PDSCH resource in the subsequent designated reception window to Receive SPS PDSCH. It should be noted that every time the activation information of DCI is received, the terminal device can monitor the PDSCH in each cycle of the SPS PDSCH resource in the subsequent designated reception window to receive the SPS PDSCH.
  • the terminal device can receive the SPS PDSCH configuration information sent by the network device, and then can receive DCI activation information of the SPS PDSCH resource, where the DCI activation information can carry the first parameter.
  • the DCI activation information is used to activate SPS PDSCH resources and indicate that subsequent SPS PDSCH resources can be used for PDSCH transmission.
  • each SPS PDSCH resource within the designated reception window listen to PDSCH to receive SPS PDSCH. It should be noted that if the DCI activation information received again does not carry the first parameter, the PDSCH will be monitored in all cycles of the SPS PDSCH resource before the DCI deactivation information is received again to receive the SPS PDSCH.
  • the terminal device can receive the SPS PDSCH configuration information sent by the network device, and then can receive the DCI activation information of the SPS PDSCH resource, and the terminal device can also receive the first indication information.
  • the first indication information may carry the first parameter, and the reception time point of the first indication information may be before, after, or at the same time as the DCI activation information, or before or at the same time as the SPS PDSCH configuration information. There is no specific limit here. Set according to actual needs.
  • the reception of the first indication information is independent of the reception of the SPS PDSCH configuration information and the reception of the DCI activation information, and may be information other than the SPS PDSCH configuration information and the DCI activation information.
  • the terminal device After the terminal device receives the three pieces of information, if there is a designated reception window, it will listen to the PDSCH in each cycle of the SPS PDSCH resource within the designated reception window to receive the SPS PDSCH.
  • Step S302 Receive the SPS PDSCH sent by the network device in the designated receiving window.
  • SPS PDSCH resources can be used to transmit XR services. Since SPS PDSCH does not require DCI scheduling, the SPS PDSCH transmission mechanism can be used to enhance system capacity to support more XR services. Due to the periodicity of the XR service, there is not downlink XR service data to be transmitted in every SPS PDSCH cycle. Therefore, the network device can configure the second indication information for the terminal device according to the transmission situation of the downlink XR service data. to indicate the specified receive window.
  • the number of designated receiving windows may be one or more.
  • the terminal device can receive the first indication information sent by the network device.
  • the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category; the network device receives the SPS PDSCH resource in the designated receiving window.
  • the SPS PDSCH is sent, so that the terminal device only monitors the PDSCH in each cycle within the specified receiving window, reducing the number of times the terminal device monitors the PDSCH and reducing the energy consumption of the terminal device.
  • Another benefit is that by using a designated reception window to limit the reception of SPS PDSCH, network equipment does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • FIG 4 is a schematic flow chart of another SPS PDSCH receiving method provided by an embodiment of the present application.
  • the SPS PDSCH receiving method is performed by the terminal equipment. As shown in Figure 4, the method may include but is not limited to the following steps:
  • Step S401 Receive second indication information sent by the network device, where the second indication information is used to indicate a designated receiving window.
  • the second indication information may be C-DRX configuration information
  • the designated receiving window is an activation time period corresponding to the C-DRX configuration information
  • the activation time period includes: the working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the inactivation timer mentioned here is the inactivation timer related to SPS PDSCH; wherein, the inactivation timer and the inactivation timer related to DCI can be the same or different. .
  • the C-DRX configuration information is configured with multiple DRX cycles. Includes working period and off period in each DRX cycle. Among them, PDCCH monitoring is turned on during the working period, and the sleep state can be entered when the PDCCH monitoring ends or the shutdown period arrives. The sum of the working period and the off period is one DRX cycle.
  • the C-DRX configuration information can be used to indicate a designated reception window in which the SPS PDSCH resource can be received.
  • the starting time point of the designated receiving window can be the starting time point of the working period;
  • the closing time point of the designated receiving window can be the latest time point among the following time points: the time point when the inactivation timer expires, the time point of the working period end time point.
  • the restart condition of the inactivation timer may include: correctly receiving DCI information.
  • the restart condition of the inactivation timer may also include: correctly receiving the SPS PDSCH. That is to say, when the SPS PDSCH is correctly received, the inactivation timer will be restarted and the starting time period of the inactivation period will be redetermined.
  • the inactivation timer mentioned here is the inactivation timer related to SPS PDSCH; wherein, the inactivation timer and the inactivation timer related to DCI can be the same or different.
  • Each DRX cycle includes an activation period and an inactivation period. The sum of the activation period and the inactivation period is one DRX cycle.
  • the second indication information includes: configuration information of window opening information and configuration information of window closing information; configuration information of window opening information, used to indicate the time and frequency position of sending window opening information; configuration information of window closing information Information, used to indicate the time and frequency position of sending window closing information; specify the opening time point of the receiving window as the receiving time point of the window opening information; specify the closing time point of the receiving window as the receiving time point of the window closing information.
  • the configuration information of the window opening information may include the time and frequency position at which the window opening information is sent, and the terminal device can monitor the window opening information at the sending time and frequency position.
  • the configuration information of the window closing information may include the time and frequency position of sending the window closing information, etc., and the terminal device may monitor the window closing information at the sending time and frequency position.
  • the window opening information and the window closing information are different information.
  • the second indication information includes: configuration information of the window control information; configuration information of the window control information, used to indicate the time and frequency position of sending the window control information; specifying the receiving window as the point between two adjacent window control information The time period between receiving time points; wherein, when the first window control information of two adjacent window control information is received, the specified receiving window is closed.
  • the configuration information of the window control information may include the time-frequency position of sending the window control information, etc., and the terminal device may monitor the window control information at the sending time-frequency position.
  • the window control information is received when the designated receiving window is closed, the designated receiving window is opened, that is, the receiving time point of the window control information is regarded as the opening time point of the designated receiving window.
  • the designated receiving window is closed, that is, the receiving time point of the window control information is regarded as the closing time point of the designated receiving window.
  • Step S402 Receive the SPS PDSCH sent by the network device in the designated receiving window.
  • the SPS PDSCH resources may be the first category of resources, that is, the terminal device may only monitor the PDSCH in each cycle of the SPS PDSCH resources within the designated reception window to receive the SPS PDSCH; while in the designated reception window Outside the window, stop monitoring PDSCH and stop receiving SPS PDSCH.
  • the reception of the SPS PDSCH will not be restricted by the designated reception window. That is to say, within the designated reception window and outside the designated reception window, the terminal device can monitor the PDSCH in each cycle of the SPS PDSCH resource to receive the SPS PDSCH.
  • SPS PDSCH is activated by DCI activation information. That is, before the SPS PDSCH resource, the terminal equipment receives DCI activation information. That is to say, after the terminal device receives the DCI activation information and before receiving the DCI deactivation information, if there is a designated receiving window, it will monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated receiving window.
  • DCI activation information e.g., a terminal device receives the DCI activation information and before receiving the DCI deactivation information, if there is a designated receiving window, it will monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated receiving window.
  • SPS PDSCH resources can be used to transmit XR services.
  • the number of specified receiving windows can be one or more.
  • the terminal device can receive the second indication information sent by the network device.
  • the second indication information is used to indicate the designated receiving window; receive the SPS PDSCH sent by the network device in the designated receiving window, Therefore, the terminal device only monitors the PDSCH in each cycle within the designated reception window, reducing the number of times the terminal device monitors the PDSCH and reducing the energy consumption of the terminal device.
  • Another benefit is that by using a designated reception window to limit the reception of SPS PDSCH, network equipment does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • Figure 5 is a schematic flow chart of another SPS PDSCH receiving method provided by an embodiment of the present application.
  • the SPS PDSCH receiving method is performed by the terminal equipment. As shown in Figure 5, the method may include but is not limited to the following steps:
  • Step S501 Receive first indication information sent by the network device.
  • the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; DCI activation information of SPS PDSCH resources; information other than SPS PDSCH configuration information and DCI activation information.
  • the terminal device may receive the SPS PDSCH configuration information sent by the network device, where the SPS PDSCH configuration information may carry a first parameter to indicate that the SPS PDSCH resource is a resource of the first category.
  • the terminal device may receive the SPS PDSCH configuration information sent by the network device, and then may receive DCI activation information of the SPS PDSCH resource, where the DCI activation information may carry the first parameter.
  • the terminal device can receive the SPS PDSCH configuration information sent by the network device, and then can receive the DCI activation information of the SPS PDSCH resource, and the terminal device can also receive the first indication information.
  • the first indication information may carry the first parameter.
  • the reception of the first indication information is independent of the reception of the SPS PDSCH configuration information and the reception of the DCI activation information, and may be information other than the SPS PDSCH configuration information and the DCI activation information.
  • Step S502 Receive second indication information sent by the network device, where the second indication information is used to indicate a designated receiving window.
  • the second indication information may be C-DRX configuration information
  • the designated receiving window is an activation time period corresponding to the C-DRX configuration information.
  • the activation time period includes: the working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the restart condition of the inactivation timer may also include: correctly receiving the SPS PDSCH.
  • the inactivation timer mentioned here is the inactivation timer related to SPS PDSCH; wherein, the inactivation timer and the inactivation timer related to DCI can be the same or different. .
  • the second indication information includes: configuration information of window opening information and configuration information of window closing information; configuration information of window opening information, used to indicate the time and frequency position of sending window opening information; configuration information of window closing information Information, used to indicate the time and frequency position of sending window closing information; specify the opening time point of the receiving window as the receiving time point of the window opening information; specify the closing time point of the receiving window as the receiving time point of the window closing information.
  • the second indication information includes: configuration information of the window control information; configuration information of the window control information, used to indicate the time and frequency position of sending the window control information; specifying the receiving window as the point between two adjacent window control information The time period between receiving time points; wherein, when the first window control information of two adjacent window control information is received, the specified receiving window is closed.
  • Step S503 Receive the SPS PDSCH sent by the network device in the designated receiving window.
  • SPS PDSCH is activated by DCI activation information. That is, before the SPS PDSCH resource, the terminal equipment receives DCI activation information. That is to say, after the terminal device receives the DCI activation information and before receiving the DCI deactivation information, if there is a designated receiving window, it will monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated receiving window.
  • DCI activation information e.g., a terminal device receives the DCI activation information and before receiving the DCI deactivation information, if there is a designated receiving window, it will monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated receiving window.
  • SPS PDSCH resources can be used to transmit XR services.
  • the number of specified receiving windows can be one or more.
  • step S501 and step S502 are not limited. S501 may be executed first, and then step S502 may be executed; or step S502 may be executed first, and then step S501 may be executed; or step S501 and step S502 may be executed simultaneously.
  • the terminal device can receive the first indication information sent by the network device.
  • the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category; receive the second indication information sent by the network device.
  • Instruction information, the second instruction information is used to indicate the designated receiving window; receive the SPS PDSCH sent by the network device in the designated receiving window, so that the terminal device only monitors the PDSCH in each cycle within the designated receiving window, reducing the number of times the terminal device monitors the PDSCH. , reduce the energy consumption of terminal equipment.
  • Another benefit is that by using a designated reception window to limit the reception of SPS PDSCH, network equipment does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • Figure 6 is a schematic flowchart of a SPS PDSCH sending method provided by an embodiment of the present application.
  • the SPS PDSCH sending method is performed by the network device. As shown in Figure 6, the method may include but is not limited to the following steps:
  • Step S601 Send SPS PDSCH to the terminal device in the designated receiving window.
  • the network device can stop sending SPS PDSCH to the terminal device.
  • the SPS PDSCH resource may be a first category resource, that is, the terminal device may only monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated reception window to receive the SPS PDSCH. Therefore, the network device can only send SPS PDSCH to the terminal device within at least one cycle of the SPS PDSCH resource within the designated reception window.
  • the reception of the SPS PDSCH will not be restricted by the designated reception window. That is to say, within the designated reception window and outside the designated reception window, the terminal device can monitor the PDSCH in each cycle of the SPS PDSCH resource to receive the SPS PDSCH. Therefore, the network device can send SPS PDSCH to the terminal device within the designated receiving window and within at least one cycle of the SPS PDSCH resource outside the designated receiving window.
  • SPS PDSCH is activated by DCI activation information. That is, before the SPS PDSCH resources, the network device can send DCI activation information to the terminal device to activate the SPS PDSCH. That is, the SPS PDSCH resources can be used to send the SPS PDSCH to the terminal device.
  • SPS PDSCH resources can be used to transmit XR services. Since SPS PDSCH does not require DCI scheduling, the SPS PDSCH transmission mechanism can be used to enhance system capacity to support more XR services. Due to the periodicity of the XR service, there is not downlink XR service data to be transmitted in every SPS PDSCH cycle. Therefore, the network device can configure the second indication information for the terminal device according to the transmission situation of the downlink XR service data. to indicate the specified receive window.
  • the number of designated receiving windows may be one or more.
  • the network device can send SPS PDSCH to the terminal device in the designated receiving window, so that the terminal device can only monitor the PDSCH in each cycle within the designated receiving window, reducing the monitoring of the terminal device.
  • the number of PDSCHs reduces the energy consumption of terminal equipment.
  • the network device does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • FIG 7 is a schematic flow chart of another SPS PDSCH transmission method provided by an embodiment of the present application.
  • the SPS PDSCH sending method is performed by the network device. As shown in Figure 7, the method may include but is not limited to the following steps:
  • Step S701 Send first indication information to the terminal equipment, where the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; DCI activation information of SPS PDSCH resources; information other than SPS PDSCH configuration information and DCI activation information.
  • the network device may send SPS PDSCH configuration information to the terminal device, where the SPS PDSCH configuration information may carry a first parameter to indicate that the SPS PDSCH resource is a resource of the first category.
  • SPS PDSCH configuration information is used to configure periodic SPS PDSCH resources, and may also include at least one of the following parameters: the period of SPS PDSCH, the physical uplink control channel (Physical Uplink Control Channel, PUCCH) resource used for HARQ feedback Index number, MCS, etc. can be set according to actual needs.
  • PUCCH Physical Uplink Control Channel
  • the network device can send SPS PDSCH configuration information to the terminal device, and then can send DCI activation information to the terminal device to indicate that the terminal device can monitor PDSCH in each cycle of the SPS PDSCH resource in the subsequent designated reception window. , to receive SPS PDSCH.
  • the network device may send SPS PDSCH configuration information to the terminal device, and then may send DCI activation information of the SPS PDSCH resource to the terminal device, where the DCI activation information may carry the first parameter.
  • the DCI activation information is used to activate SPS PDSCH resources and indicate that subsequent SPS PDSCH resources can be used for PDSCH transmission.
  • the network device can send the SPS PDSCH configuration information to the terminal device, and then can send the DCI activation information of the SPS PDSCH resource to the terminal device.
  • the network device can also send the first indication information to the terminal device.
  • the first indication information may carry the first parameter, and the sending time point of the first indication information may be before, after, or at the same time as the DCI activation information, or before or at the same time as the SPS PDSCH configuration information. There is no specific limit here. Set according to actual needs.
  • Step S702 Send SPS PDSCH to the terminal device in the designated receiving window.
  • SPS PDSCH resources can be used to transmit XR services. Since SPS PDSCH does not require DCI scheduling, the SPS PDSCH transmission mechanism can be used to enhance system capacity to support more XR services. Due to the periodicity of the XR service, there is not downlink XR service data to be transmitted in every SPS PDSCH cycle. Therefore, the network device can configure the second indication information for the terminal device according to the transmission situation of the downlink XR service data. to indicate the specified receive window.
  • the number of designated receiving windows may be one or more.
  • the network device can send the first indication information to the terminal device.
  • the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category; the network device sends it to the terminal device in the designated receiving window.
  • SPS PDSCH allows the terminal device to monitor PDSCH only in each cycle within the specified reception window, reducing the number of times the terminal device monitors PDSCH and reducing the energy consumption of the terminal device.
  • the network device does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • FIG 8 is a schematic flow chart of another SPS PDSCH transmission method provided by an embodiment of the present application.
  • the SPS PDSCH sending method is performed by the network device. As shown in Figure 8, the method may include but is not limited to the following steps:
  • Step S801 Send second indication information to the terminal device, where the second indication information is used to indicate a designated receiving window.
  • the second indication information may be C-DRX configuration information
  • the designated receiving window is an activation time period corresponding to the C-DRX configuration information
  • the activation time period includes: the working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the inactivation timer mentioned here is the inactivation timer related to SPS PDSCH; wherein, the inactivation timer and the inactivation timer related to DCI can be the same or different. .
  • the C-DRX configuration information is configured with multiple DRX cycles. Includes working period and off period in each DRX cycle. Among them, PDCCH monitoring is turned on during the working period, and the sleep state can be entered when the PDCCH monitoring ends or the shutdown period arrives. The sum of the working period and the off period is one DRX cycle.
  • the C-DRX configuration information can be used to indicate a designated reception window in which the SPS PDSCH resource can be received.
  • the starting time point of the designated receiving window can be the starting time point of the working period;
  • the closing time point of the designated receiving window can be the latest time point among the following time points: the time point when the inactivation timer expires, the time point of the working period end time point.
  • the restart condition of the inactivation timer may include: correctly receiving DCI information.
  • the restart condition of the inactivation timer may also include: correctly receiving the SPS PDSCH.
  • the second indication information includes: configuration information of window opening information and configuration information of window closing information; configuration information of window opening information, used to indicate the time and frequency position of sending window opening information; configuration information of window closing information Information, used to indicate the time and frequency position of sending window closing information; specify the opening time point of the receiving window as the receiving time point of the window opening information; specify the closing time point of the receiving window as the receiving time point of the window closing information.
  • the configuration information of the window opening information may include the sending time and frequency position of the window opening information, etc., to instruct the terminal device to monitor the window opening information at the sending time and frequency position.
  • the configuration information of the window closing information may include the time and frequency position of sending the window closing information, etc., to instruct the terminal device to monitor the window closing information at the sending time and frequency position.
  • the second indication information includes: configuration information of the window control information; configuration information of the window control information, used to indicate the time and frequency position of sending the window control information; specifying the receiving window as the point between two adjacent window control information The time period between receiving time points; wherein, when the first window control information of two adjacent window control information is received, the specified receiving window is closed.
  • the configuration information of the window control information may include the sending time and frequency position of the window control information, etc., to instruct the terminal device to monitor the window control information at the sending time and frequency position.
  • Step S802 Send SPS PDSCH to the terminal device in the designated receiving window.
  • the SPS PDSCH resource may be a first category resource, that is, the terminal device may only monitor the PDSCH in each cycle of the SPS PDSCH resource within the designated reception window to receive the SPS PDSCH. Therefore, the network device can only send SPS PDSCH to the terminal device within at least one cycle of the SPS PDSCH resource within the designated reception window.
  • the reception of the SPS PDSCH will not be restricted by the designated reception window. That is to say, within the designated reception window and outside the designated reception window, the terminal device can monitor the PDSCH in each cycle of the SPS PDSCH resource to receive the SPS PDSCH. Therefore, the network device can send SPS PDSCH to the terminal device within the designated receiving window and within at least one cycle of the SPS PDSCH resource outside the designated receiving window.
  • SPS PDSCH is activated by DCI activation information. That is, before the SPS PDSCH resources, the network device can send DCI activation information to the terminal device to activate the SPS PDSCH. That is, the SPS PDSCH resources can be used to send the SPS PDSCH to the terminal device.
  • SPS PDSCH resources can be used to transmit XR services.
  • the number of specified receiving windows can be one or more.
  • the network device can send the second indication information to the terminal device, and the second indication information is used to indicate the designated receiving window; the SPS PDSCH is sent to the terminal device in the designated receiving window, so that the terminal The device can only listen to the PDSCH in each cycle within the specified reception window, reducing the number of times the terminal device monitors the PDSCH and reducing the energy consumption of the terminal device.
  • the network device does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • Figure 9 is a schematic flow chart of another SPS PDSCH transmission method provided by an embodiment of the present application.
  • the SPS PDSCH sending method is executed by the network device, as shown in Figure 9.
  • the method may include but is not limited to the following steps:
  • Step S901 Send first indication information to the terminal device, where the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following information: SPS PDSCH configuration information; DCI activation information of SPS PDSCH resources; information other than SPS PDSCH configuration information and DCI activation information.
  • the network device may send SPS PDSCH configuration information to the terminal device, where the SPS PDSCH configuration information may carry a first parameter to indicate that the SPS PDSCH resource is a resource of the first category.
  • the network device may send SPS PDSCH configuration information to the terminal device, and then may send DCI activation information of the SPS PDSCH resource to the terminal device, where the DCI activation information may carry the first parameter.
  • the network device can send the SPS PDSCH configuration information to the terminal device, and then can send the DCI activation information of the SPS PDSCH resource to the terminal device.
  • the network device can also send the first indication information to the terminal device.
  • the first indication information may carry the first parameter.
  • the sending time point of the first indication information can be before, after, or at the same time as the DCI activation information, or before or at the same time as the SPS PDSCH configuration information. There is no specific limit here and can be set according to actual needs.
  • Step S902 Send second indication information to the terminal device, where the second indication information is used to indicate a designated receiving window.
  • the second indication information may be C-DRX configuration information
  • the designated receiving window is an activation time period corresponding to the C-DRX configuration information
  • the activation time period includes: the working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the inactivation timer mentioned here is the inactivation timer related to SPS PDSCH; wherein, the inactivation timer and the inactivation timer related to DCI can be the same or different. .
  • the C-DRX configuration information can be used to indicate a designated reception window in which the SPS PDSCH resource can be received.
  • the starting time point of the designated receiving window can be the starting time point of the working period;
  • the closing time point of the designated receiving window can be the latest time point among the following time points: the time point when the inactivation timer expires, the time point of the working period end time point.
  • the restart condition of the inactivation timer may include: correctly receiving DCI information.
  • the restart condition of the inactivation timer may also include: correctly receiving the SPS PDSCH.
  • the second indication information includes: configuration information of window opening information and configuration information of window closing information; configuration information of window opening information, used to indicate the time and frequency position of sending window opening information; configuration information of window closing information Information, used to indicate the time and frequency position of sending window closing information; specify the opening time point of the receiving window as the receiving time point of the window opening information; specify the closing time point of the receiving window as the receiving time point of the window closing information.
  • the second indication information includes: configuration information of the window control information; configuration information of the window control information, used to indicate the time and frequency position of sending the window control information; specifying the receiving window as the point between two adjacent window control information The time period between receiving time points; wherein, when the first window control information of two adjacent window control information is received, the specified receiving window is closed.
  • Step S903 Send SPS PDSCH to the terminal device in the designated receiving window.
  • SPS PDSCH resources can be used to transmit XR services. Since SPS PDSCH does not require DCI scheduling, the SPS PDSCH transmission mechanism can be used to enhance system capacity to support more XR services. Due to the periodicity of the XR service, there is not downlink XR service data to be transmitted in every SPS PDSCH cycle. Therefore, the network device can configure the second indication information for the terminal device according to the transmission situation of the downlink XR service data. to indicate the specified receive window.
  • the number of designated receiving windows may be one or more.
  • step S901 and step S902 are not limited. S901 may be executed first, and then step S902 may be executed; or step S902 may be executed first, and then step S901 may be executed; or step S901 and step S902 may be executed simultaneously.
  • the network device can send the first indication information to the terminal device.
  • the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category;
  • the network device can send the second indication information to the terminal device.
  • the second instruction information is used to indicate the designated receiving window; send SPS PDSCH to the terminal device in the designated receiving window, so that the terminal device can only monitor PDSCH in each cycle within the designated receiving window, reducing the number of times the terminal device monitors PDSCH. Reduce energy consumption of terminal equipment.
  • the network device does not need to frequently send DCI activation information and DCI deactivation information for each XR service cycle, which is beneficial to reducing network overhead.
  • network equipment and terminal equipment may include hardware structures and software modules to implement the above functions in the form of hardware structures, software modules, or hardware structures plus software modules.
  • a certain function among the above functions can be executed by a hardware structure, a software module, or a hardware structure plus a software module.
  • FIG. 10 is a schematic structural diagram of a communication device 100 provided by an embodiment of the present application.
  • the communication device 100 shown in FIG. 10 may include a transceiver unit 1001 and a processing unit 1002.
  • the transceiving unit 1001 may include a sending unit and/or a receiving unit.
  • the sending unit is used to implement the sending function
  • the receiving unit is used to implement the receiving function.
  • the transceiving unit 1001 may implement the sending function and/or the receiving function.
  • the communication device 100 may be a terminal device, a device in the terminal device, or a device that can be used in conjunction with the terminal device.
  • the communication device 100 may be a network device, a device in a network device, or a device that can be used in conjunction with the network device.
  • the communication device 100 is a terminal device:
  • the transceiver unit 1001 is used to receive the SPS PDSCH sent by the network device in the designated receiving window.
  • the transceiver unit 1001 is also configured to stop receiving the SPS PDSCH outside the designated receiving window.
  • the transceiver unit 1001 is further configured to receive first indication information sent by the network device, where the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; activation information of downlink control information DCI of SPS PDSCH resources.
  • the transceiver unit 1001 is further configured to receive second indication information sent by the network device, where the second indication information is used to indicate the designated receiving window.
  • the second indication information is the discontinuous reception C-DRX configuration information in the RRC connection state;
  • the designated reception window is the activation time period corresponding to the C-DRX configuration information;
  • the activation time period includes : The working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the restart condition of the inactivation timer includes: correctly receiving the SPS PDSCH.
  • the second indication information includes: configuration information of the window opening information and configuration information of the window closing information; the configuration information of the window opening information is used to indicate the time and frequency position of sending the window opening information; The configuration information of the window closing information is used to indicate the sending time and frequency position of the window closing information; the opening time point of the designated receiving window is the receiving time point of the window opening information; the closing time of the designated receiving window The point is the time point when the window closing information is received.
  • the second indication information includes: configuration information of window control information; configuration information of the window control information, used to indicate the sending time and frequency position of the window control information; the designated receiving window is adjacent The time period between the reception time points of two window control information; wherein, when the first window control information of the two adjacent window control information is received, the designated receiving window is in a closed state.
  • the SPS PDSCH is activated by DCI activation information.
  • the communication device 100 is a network device:
  • the transceiver unit 1001 is used to send SPS PDSCH to the terminal device in the designated receiving window.
  • the transceiver unit 1001 is also configured to stop sending the SPS PDSCH outside the designated receiving window.
  • the transceiver unit 1001 is further configured to send first indication information to the terminal device, where the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; activation information of downlink control information DCI of SPS PDSCH resources.
  • the transceiver unit 1001 is further configured to send second indication information to the terminal device, where the second indication information is used to indicate the designated receiving window.
  • the second indication information is the discontinuous reception C-DRX configuration information in the RRC connection state;
  • the designated reception window is the activation time period corresponding to the C-DRX configuration information;
  • the activation time period includes : The working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the second indication information includes: configuration information of the window opening information and configuration information of the window closing information; the configuration information of the window opening information is used to indicate the time and frequency position of sending the window opening information; The configuration information of the window closing information is used to indicate the sending time and frequency position of the window closing information; the opening time point of the designated receiving window is the receiving time point of the window opening information; the closing time of the designated receiving window The point is the time point when the window closing information is received.
  • the second indication information includes: configuration information of window control information; configuration information of the window control information, used to indicate the sending time and frequency position of the window control information; the designated receiving window is adjacent The time period between the reception time points of two window control information; wherein, when the first window control information of the two adjacent window control information is received, the designated receiving window is in a closed state.
  • the SPS PDSCH is activated by DCI activation information.
  • FIG 11 is a schematic structural diagram of another communication device 110 provided by an embodiment of the present application.
  • the communication device 110 may be a network device, a terminal device, a chip, a chip system, or a processor that supports a network device to implement the above method, or a chip, a chip system, or a processor that supports a terminal device to implement the above method. Processor etc.
  • the device can be used to implement the method described in the above method embodiment. For details, please refer to the description in the above method embodiment.
  • Communication device 110 may include one or more processors 1101.
  • the processor 1101 may be a general-purpose processor or a special-purpose processor, or the like. For example, it can be a baseband processor or a central processing unit.
  • the baseband processor can be used to process communication protocols and communication data.
  • the central processor can be used to control communication devices (such as base stations, baseband chips, terminal equipment, terminal equipment chips, DU or CU, etc.) and execute computer programs. , processing data for computer programs.
  • the communication device 110 may also include one or more memories 1102, on which a computer program 1104 may be stored.
  • the processor 1101 executes the computer program 1104, so that the communication device 110 performs the steps described in the above method embodiments. method.
  • the memory 1102 may also store data.
  • the communication device 110 and the memory 1102 can be provided separately or integrated together.
  • the communication device 110 may also include a transceiver 1105 and an antenna 1106.
  • the transceiver 1105 may be called a transceiver unit, a transceiver, a transceiver circuit, etc., and is used to implement transceiver functions.
  • the transceiver 1105 may include a receiver and a transmitter.
  • the receiver may be called a receiver or a receiving circuit, etc., used to implement the receiving function;
  • the transmitter may be called a transmitter, a transmitting circuit, etc., used to implement the transmitting function.
  • the communication device 110 may also include one or more interface circuits 1107.
  • the interface circuit 1107 is used to receive code instructions and transmit them to the processor 1101 .
  • the processor 1101 executes the code instructions to cause the communication device 110 to perform the method described in the above method embodiment.
  • the communication device 110 is a terminal device: the transceiver 1105 is used to perform step S201 in Figure 2; step S301 and step S302 in Figure 3; step S401 and step S402 in Figure 4; step S501, step S502 and step S502 in Figure 5 Step S502.
  • the communication device 110 is a network device: the transceiver 1105 is used to perform step S601 in Figure 6; step S701 and step S702 in Figure 7; step S801 and step S802 in Figure 8; step S901, step S902 and step S902 in Figure 9 Step S902.
  • the processor 1101 may include a transceiver for implementing receiving and transmitting functions.
  • the transceiver may be a transceiver circuit, an interface, or an interface circuit.
  • the transceiver circuits, interfaces or interface circuits used to implement the receiving and transmitting functions can be separate or integrated together.
  • the above-mentioned transceiver circuit, interface or interface circuit can be used for reading and writing codes/data, or the above-mentioned transceiver circuit, interface or interface circuit can be used for signal transmission or transfer.
  • the processor 1101 may store a computer program 1103, and the computer program 1103 runs on the processor 1101, causing the communication device 110 to perform the method described in the above method embodiment.
  • the computer program 1103 may be solidified in the processor 1101, in which case the processor 1101 may be implemented by hardware.
  • the communication device 110 may include a circuit, and the circuit may implement the functions of sending or receiving or communicating in the foregoing method embodiments.
  • the processor and transceiver described in this application can be implemented in integrated circuits (ICs), analog ICs, radio frequency integrated circuits RFICs, mixed signal ICs, application specific integrated circuits (ASICs), printed circuit boards ( printed circuit board (PCB), electronic equipment, etc.
  • the processor and transceiver can also be manufactured using various IC process technologies, such as complementary metal oxide semiconductor (CMOS), n-type metal oxide-semiconductor (NMOS), P-type Metal oxide semiconductor (positive channel metal oxide semiconductor, PMOS), bipolar junction transistor (BJT), bipolar CMOS (BiCMOS), silicon germanium (SiGe), gallium arsenide (GaAs), etc.
  • CMOS complementary metal oxide semiconductor
  • NMOS n-type metal oxide-semiconductor
  • PMOS P-type Metal oxide semiconductor
  • BJT bipolar junction transistor
  • BiCMOS bipolar CMOS
  • SiGe silicon germanium
  • GaAs gallium arsenide
  • the communication device described in the above embodiments may be a network device or a terminal device (such as the first terminal device in the foregoing method embodiment), but the scope of the communication device described in this application is not limited thereto, and the structure of the communication device may be Not limited by Figure 11.
  • the communication device may be a stand-alone device or may be part of a larger device.
  • the communication device may be:
  • the IC collection may also include storage components for storing data and computer programs;
  • the communication device may be a chip or a chip system
  • the schematic structural diagram of the chip shown in FIG. 12 refer to the schematic structural diagram of the chip shown in FIG. 12 .
  • the chip shown in Figure 12 includes a processor 1201 and an interface 1202.
  • the number of processors 1201 may be one or more, and the number of interfaces 1202 may be multiple.
  • Interface 1202 is used to receive the SPS PDSCH sent by the network device in the designated receiving window.
  • the interface 1202 is also configured to stop receiving the SPS PDSCH outside the designated receiving window.
  • the interface 1202 is also configured to receive first indication information sent by the network device, where the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; activation information of downlink control information DCI of SPS PDSCH resources.
  • the interface 1202 is further configured to receive second indication information sent by the network device, where the second indication information is used to indicate the designated receiving window.
  • the second indication information is the discontinuous reception C-DRX configuration information in the RRC connection state;
  • the designated reception window is the activation time period corresponding to the C-DRX configuration information;
  • the activation time period includes : The working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the restart condition of the inactivation timer includes: correctly receiving the SPS PDSCH.
  • the second indication information includes: configuration information of the window opening information and configuration information of the window closing information; the configuration information of the window opening information is used to indicate the time and frequency position of sending the window opening information; The configuration information of the window closing information is used to indicate the sending time and frequency position of the window closing information; the opening time point of the designated receiving window is the receiving time point of the window opening information; the closing time of the designated receiving window The point is the time point when the window closing information is received.
  • the second indication information includes: configuration information of window control information; configuration information of the window control information, used to indicate the sending time and frequency position of the window control information; the designated receiving window is adjacent The time period between the reception time points of two window control information; wherein, when the first window control information of the two adjacent window control information is received, the designated receiving window is in a closed state.
  • the SPS PDSCH is activated by DCI activation information.
  • Interface 1202 used to send SPS PDSCH to the terminal device in the designated receiving window.
  • the interface 1202 is also used to stop sending the SPS PDSCH outside the designated receiving window.
  • the interface 1202 is also configured to send first indication information to the terminal device, where the first indication information is used to indicate that the SPS PDSCH resource is a resource of the first category.
  • the first indication information is any one of the following: SPS PDSCH configuration information; activation information of downlink control information DCI of SPS PDSCH resources.
  • the interface 1202 is also configured to send second indication information to the terminal device, where the second indication information is used to indicate the designated receiving window.
  • the second indication information is the discontinuous reception C-DRX configuration information in the RRC connection state;
  • the designated reception window is the activation time period corresponding to the C-DRX configuration information;
  • the activation time period includes : The working period configured in the C-DRX configuration information, and the period in which the inactivation timer configured in the C-DRX configuration information has not expired.
  • the second indication information includes: configuration information of the window opening information and configuration information of the window closing information; the configuration information of the window opening information is used to indicate the time and frequency position of sending the window opening information; The configuration information of the window closing information is used to indicate the sending time and frequency position of the window closing information; the opening time point of the designated receiving window is the receiving time point of the window opening information; the closing time of the designated receiving window The point is the time point when the window closing information is received.
  • the second indication information includes: configuration information of window control information; configuration information of the window control information, used to indicate the sending time and frequency position of the window control information; the designated receiving window is adjacent The time period between the reception time points of two window control information; wherein, when the first window control information of the two adjacent window control information is received, the designated receiving window is in a closed state.
  • the SPS PDSCH is activated by DCI activation information.
  • the chip also includes a memory 1203, which is used to store necessary computer programs and data.
  • Embodiments of the present application also provide a communication system that includes a communication device as a terminal device and a communication device as a network device in the embodiment of FIG. 10 , or the system includes a communication device as a terminal device in the embodiment of FIG. 11 devices and communication devices as network equipment.
  • This application also provides a readable storage medium on which instructions are stored. When the instructions are executed by a computer, the functions of any of the above method embodiments are implemented.
  • This application also provides a computer program product, which, when executed by a computer, implements the functions of any of the above method embodiments.
  • the above embodiments it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof.
  • software it may be implemented in whole or in part in the form of a computer program product.
  • the computer program product includes one or more computer programs.
  • the computer program When the computer program is loaded and executed on a computer, the processes or functions described in the embodiments of the present application are generated in whole or in part.
  • the computer may be a general-purpose computer, a special-purpose computer, a computer network, or other programmable device.
  • the computer program may be stored in or transferred from one computer-readable storage medium to another, for example, the computer program may be transferred from a website, computer, server, or data center Transmission to another website, computer, server or data center through wired (such as coaxial cable, optical fiber, digital subscriber line (DSL)) or wireless (such as infrared, wireless, microwave, etc.) means.
  • the computer-readable storage medium may be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that contains one or more available media integrated.
  • the usable media may be magnetic media (e.g., floppy disks, hard disks, magnetic tapes), optical media (e.g., high-density digital video discs (DVD)), or semiconductor media (e.g., solid state disks, SSD)) etc.
  • magnetic media e.g., floppy disks, hard disks, magnetic tapes
  • optical media e.g., high-density digital video discs (DVD)
  • DVD digital video discs
  • semiconductor media e.g., solid state disks, SSD
  • At least one in this application can also be described as one or more, and the plurality can be two, three, four or more, which is not limited by this application.
  • the technical feature is distinguished by “first”, “second”, “third”, “A”, “B”, “C” and “D”, etc.
  • the technical features described in “first”, “second”, “third”, “A”, “B”, “C” and “D” are in no particular order or order.
  • the corresponding relationships shown in each table in this application can be configured or predefined.
  • the values of the information in each table are only examples and can be configured as other values, which are not limited by this application.
  • the corresponding relationships shown in some rows may not be configured.
  • appropriate deformation adjustments can be made based on the above table, such as splitting, merging, etc.
  • the names of the parameters shown in the titles of the above tables may also be other names understandable by the communication device, and the values or expressions of the parameters may also be other values or expressions understandable by the communication device.
  • other data structures can also be used, such as arrays, queues, containers, stacks, linear lists, pointers, linked lists, trees, graphs, structures, classes, heaps, hash tables or hash tables. wait.
  • Predefinition in this application can be understood as definition, pre-definition, storage, pre-storage, pre-negotiation, pre-configuration, solidification, or pre-burning.

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

Abstract

Les modes de réalisation de la présente demande concernent un procédé d'envoi de PDSCH SPS, un procédé de réception de PDSCH SPS et des appareils associés, qui peuvent être appliqués au domaine technique des communications. Le procédé de réception comprend l'étape suivante : un dispositif terminal peut recevoir dans une fenêtre de réception spécifiée un PDSCH SPS envoyé par un dispositif de réseau, de sorte que le dispositif terminal surveille uniquement un PDSCH sur chaque cycle dans la fenêtre de réception spécifiée, ce qui réduit le nombre de fois où le dispositif terminal surveille un PDSCH et réduit la consommation d'énergie du dispositif terminal.
PCT/CN2022/111271 2022-08-09 2022-08-09 Procédé d'envoi de pdsch sps, procédé de réception de pdsch sps et appareils associés Ceased WO2024031381A1 (fr)

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CN202280002659.3A CN117859349A (zh) 2022-08-09 2022-08-09 Sps pdsch的发送接收方法及其装置

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PCT/CN2022/111271 WO2024031381A1 (fr) 2022-08-09 2022-08-09 Procédé d'envoi de pdsch sps, procédé de réception de pdsch sps et appareils associés

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