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WO2021022569A1 - 用于检测、发送物理下行控制信道的方法及设备 - Google Patents

用于检测、发送物理下行控制信道的方法及设备 Download PDF

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Publication number
WO2021022569A1
WO2021022569A1 PCT/CN2019/099870 CN2019099870W WO2021022569A1 WO 2021022569 A1 WO2021022569 A1 WO 2021022569A1 CN 2019099870 W CN2019099870 W CN 2019099870W WO 2021022569 A1 WO2021022569 A1 WO 2021022569A1
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WO
WIPO (PCT)
Prior art keywords
search space
priority
terminal device
information
time range
Prior art date
Application number
PCT/CN2019/099870
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English (en)
French (fr)
Inventor
徐婧
林亚男
Original Assignee
Oppo广东移动通信有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Oppo广东移动通信有限公司 filed Critical Oppo广东移动通信有限公司
Priority to PCT/CN2019/099870 priority Critical patent/WO2021022569A1/zh
Priority to CN201980094026.8A priority patent/CN113557778B/zh
Publication of WO2021022569A1 publication Critical patent/WO2021022569A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation

Definitions

  • This application relates to the field of communications, and more specifically, to a method and device for detecting and transmitting a physical downlink control channel.
  • the terminal device can blindly detect the physical downlink control channel (PDCCH) in a predefined search space according to high-level configuration or protocol agreement.
  • PDCCH physical downlink control channel
  • NR New Radio
  • BWP bandwidth part
  • the design criteria of the search space are as follows: the priority of the public search space set is higher than the priority of the user-specific search space set; in the user-specific search space set, the identity (ID) number is small The priority of the search space is higher than the priority of the search space with a larger ID number.
  • the above design criteria have the following problems: 1) The priority of the public search space is always higher than the user-specific search space, and the conditional public signaling will waste the blind detection opportunity of the terminal when the terminal device is not transmitting; 2) According to the ID The number determines the priority of searching the user-specific search space, so that the priority of the user-specific search space cannot be dynamically adjusted to meet business needs.
  • This application provides a method and device for detecting and sending a physical downlink control channel, which can make full use of the blind detection opportunity of the terminal device.
  • a method for detecting a physical downlink control channel including: a terminal device determines the priority of a search space according to first information received from a network device; and the terminal device is based on the search space Priority, to detect the physical downlink control channel.
  • a method for sending a physical downlink control channel including: a network device determines the priority of a search space according to first information sent to a terminal device; the network device determines the priority of a search space based on the priority of the search space Stage, sending the physical downlink control channel.
  • a terminal device which is used to execute the method in the foregoing first aspect or each of its implementation manners.
  • the terminal device includes a functional module for executing the method in the foregoing first aspect or each implementation manner thereof.
  • a network device configured to execute the method in the second aspect or its implementation manners.
  • the network device includes a functional module for executing the method in the foregoing second aspect or each implementation manner thereof.
  • a terminal device including a processor and a memory.
  • the memory is used to store a computer program
  • the processor is used to call and run the computer program stored in the memory to execute the method in the above-mentioned first aspect or each of its implementation modes.
  • a network device including a processor and a memory.
  • the memory is used to store a computer program
  • the processor is used to call and run the computer program stored in the memory to execute the method in the above-mentioned second aspect or each of its implementation modes.
  • a device for implementing any one of the first aspect to the second aspect or the method in each implementation manner thereof.
  • the device includes: a processor, configured to call and run a computer program from the memory, so that the device installed with the device executes any one of the above-mentioned first aspect to the second aspect or any of its implementation modes method.
  • a computer-readable storage medium for storing a computer program that enables a computer to execute any one of the first aspect to the second aspect or the method in each implementation manner thereof.
  • a computer program product which includes computer program instructions that cause a computer to execute any one of the above-mentioned first aspect to the second aspect or the method in each implementation manner thereof.
  • a computer program which when running on a computer, causes the computer to execute any one of the above-mentioned first aspect to the second aspect or the method in each implementation manner thereof.
  • the priority of the search space can be adjusted according to the first information sent by the network device, so that the priority of the search space can be flexibly adjusted according to service requirements, and the blind detection opportunity of the terminal device can be fully utilized.
  • Fig. 1 is a schematic diagram of a wireless communication system applied in an embodiment of the present application.
  • Fig. 2 is a schematic diagram of an uplink transmission stop mechanism provided by an embodiment of the present application.
  • Fig. 3 is a schematic flowchart of a method for transmitting PDCCH provided by an embodiment of the present application.
  • Fig. 4 is a schematic diagram of a method for determining a time range provided by an embodiment of the present application.
  • Fig. 5 is a schematic block diagram of a terminal device provided by an embodiment of the present application.
  • Fig. 6 is a schematic block diagram of a network device provided by an embodiment of the present application.
  • Fig. 7 is a schematic structural diagram of a communication device according to an embodiment of the present application.
  • Fig. 8 is a schematic structural diagram of a device according to an embodiment of the present application.
  • Fig. 9 is a schematic block diagram of a communication system according to an embodiment of the present application.
  • Fig. 1 is a schematic diagram of a system 100 according to an embodiment of the present application.
  • the terminal device 110 is connected to the first network device 130 under the first communication system and the second network device 120 under the second communication system.
  • the first network device 130 is a Long Term Evolution (Long Term Evolution).
  • the second network device 120 is a network device under a New Radio (NR).
  • NR New Radio
  • the first network device 130 and the second network device 120 may include multiple cells.
  • FIG. 1 is an example of a communication system in an embodiment of the present application, and the embodiment of the present application is not limited to that shown in FIG. 1.
  • the communication system to which the embodiment of the present application is adapted may include at least multiple network devices under the first communication system and/or multiple network devices under the second communication system.
  • the system 100 shown in FIG. 1 may include one main network device under the first communication system and at least one auxiliary network device under the second communication system. At least one auxiliary network device is respectively connected to the one main network device to form multiple connections, and is connected to the terminal device 110 to provide services for it. Specifically, the terminal device 110 may simultaneously establish a connection through the main network device and the auxiliary network device.
  • connection established between the terminal device 110 and the main network device is the main connection
  • connection established between the terminal device 110 and the auxiliary network device is the auxiliary connection.
  • the control signaling of the terminal device 110 may be transmitted through the main connection
  • the data of the terminal device 110 may be transmitted through the main connection and the auxiliary connection at the same time, or may be transmitted only through the auxiliary connection.
  • first communication system and the second communication system in the embodiment of the present application are different, but the specific types of the first communication system and the second communication system are not limited.
  • the first communication system and the second communication system may be various communication systems, such as: Global System of Mobile Communication (GSM) system, Code Division Multiple Access (CDMA) system, Wideband Code Division Multiple Access (WCDMA) system, General Packet Radio Service (GPRS), Long Term Evolution (LTE) system, LTE Time Division Duplex (TDD) ), Universal Mobile Telecommunication System (UMTS), etc.
  • GSM Global System of Mobile Communication
  • CDMA Code Division Multiple Access
  • WCDMA Wideband Code Division Multiple Access
  • GPRS General Packet Radio Service
  • LTE Long Term Evolution
  • TDD Time Division Duplex
  • UMTS Universal Mobile Telecommunication System
  • the main network device and the auxiliary network device may be any access network device.
  • the access network device may be a base station (Base Transceiver) in the Global System of Mobile Communications (GSM) system or Code Division Multiple Access (CDMA). Station, BTS), it can also be a base station (NodeB, NB) in a Wideband Code Division Multiple Access (WCDMA) system, or an evolved base station in a Long Term Evolution (LTE) system (Evolutional Node B, eNB or eNodeB).
  • GSM Global System of Mobile Communications
  • CDMA Code Division Multiple Access
  • Station, BTS can also be a base station (NodeB, NB) in a Wideband Code Division Multiple Access (WCDMA) system, or an evolved base station in a Long Term Evolution (LTE) system (Evolutional Node B, eNB or eNodeB).
  • GSM Global System of Mobile Communications
  • CDMA Code Division Multiple Access
  • Station, BTS can also be a base station (NodeB, NB) in a Wideband Code Division Multiple Access (WCDMA) system,
  • the access network device may also be a Next Generation Radio Access Network (NG RAN), or a base station (gNB) in an NR system, or a cloud radio access network (Cloud
  • NG RAN Next Generation Radio Access Network
  • gNB base station
  • Cloud Cloud
  • the radio controller in Radio Access Network, CRAN, or the access network device can be a relay station, access point, in-vehicle device, wearable device, or in the future evolution of Public Land Mobile Network (PLMN) Network equipment, etc.
  • PLMN Public Land Mobile Network
  • the first network device 130 is taken as the main network device, and the second network device 120 is taken as an auxiliary network device as an example.
  • the first network device 130 may be an LTE network device, and the second network device 120 may be an NR network device. Or, the first network device 130 may be an NR network device, and the second network device 120 may be an LTE network device. Or both the first network device 130 and the second network device 120 may be NR network devices. Or the first network device 130 may be a GSM network device, a CDMA network device, etc., and the second network device 120 may also be a GSM network device, a CDMA network device, etc. Or the first network device 130 may be a Macrocell, and the second network device 120 may be a Microcell, Picocell, Femtocell, or the like.
  • the terminal device 110 may be any terminal device, and the terminal device 110 includes but is not limited to:
  • wired lines such as via Public Switched Telephone Networks (PSTN), Digital Subscriber Line (DSL), digital cable, direct cable connection; and/or another data connection/network; and/ Or via a wireless interface, such as for cellular networks, wireless local area networks (WLAN), digital TV networks such as DVB-H networks, satellite networks, AM-FM broadcast transmitters; and/or another terminal device
  • PSTN Public Switched Telephone Networks
  • DSL Digital Subscriber Line
  • WLAN wireless local area networks
  • digital TV networks such as DVB-H networks, satellite networks, AM-FM broadcast transmitters
  • IoT Internet of Things
  • a terminal device set to communicate through a wireless interface may be referred to as a "wireless communication terminal", a "wireless terminal” or a "mobile terminal”.
  • Examples of mobile terminals include, but are not limited to, satellites or cellular phones; Personal Communications System (PCS) terminals that can combine cellular radio phones with data processing, fax, and data communication capabilities; can include radio phones, pagers, Internet/intranet PDA with internet access, web browser, memo pad, calendar, and/or Global Positioning System (GPS) receiver; and conventional laptop and/or palmtop receivers or others including radio phone transceivers Electronic device.
  • Terminal equipment can refer to access terminals, user equipment (UE), user units, user stations, mobile stations, mobile stations, remote stations, remote terminals, mobile equipment, user terminals, terminals, wireless communication equipment, user agents, or User device.
  • the access terminal can be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, a wireless local loop (Wireless Local Loop, WLL) station, a personal digital processing (Personal Digital Assistant, PDA), with wireless communication Functional handheld devices, computing devices or other processing devices connected to wireless modems, in-vehicle devices, wearable devices, terminal devices in 5G networks, or terminal devices in the future evolution of PLMN, etc.
  • SIP Session Initiation Protocol
  • WLL Wireless Local Loop
  • PDA Personal Digital Assistant
  • the terminal device can blindly detect the physical downlink control channel (PDCCH) in a predefined search space according to high-level configuration or protocol agreement.
  • the search space can be used to indicate the time domain resource location of the terminal device blindly detecting the PDCCH.
  • the terminal device can blindly detect the PDCCH at the time domain resource location corresponding to the search space.
  • NR new radio
  • BWP bandwidth part
  • the search space configured by the network device to the terminal device may include a public search space and a user-specific search space.
  • the data transmitted in the public search space mainly includes system information, RAR, paging messages and other messages.
  • Each terminal device needs to blindly detect the PDCCH in the public search space.
  • the user-specific search space is sent for a specific terminal device, the user-specific search space configured by the network device for different terminal devices may be different.
  • the network device configures the terminal device with a semi-static search space priority, and the terminal device can perform blind detection according to the semi-static search space priority.
  • the design criteria of the search space are as follows:
  • the priority of the public search space set is higher than the priority of the user-specific search space set. If in a certain time slot, both the public search space configured by the network device and the user-specific search space configured by the network device are included, the terminal device will give priority to blind detection in the public search space when performing blind detection in this time slot. PDCCH, and then detect the PDCCH in the user-specific search space.
  • the priority of the search space with a small ID number is higher than the priority of the search space with a large ID number.
  • the network device can configure multiple sets of user-specific search spaces on the terminal device, and number the multiple sets of exclusive search spaces. During blind detection, the terminal device can preferentially detect the PDCCH in the search space with a small ID number.
  • the detection capability of the terminal device is: the maximum number of blind detections in a time slot is 15 times. Assuming that a certain time slot configured by a network device to a terminal device includes a common search space and 3 user-specific search spaces, and the number of blind detections in each search space is 4, the terminal device needs to perform 16 times in this time slot. The second blind detection is beyond the blind detection capability of the terminal equipment. Therefore, when the terminal device performs blind detection in this time slot, it can abandon the 4 blind detections in the user-specific search space with the largest ID number, and only perform the blind detection 12 times in this time slot.
  • the network equipment needs to ensure that the complexity of the blind detection of the public search space set does not exceed the capabilities of the terminal equipment.
  • the above design criteria have the following problems: 1) The priority of the public search space is always higher than the user-specific search space, and the conditional public signaling will waste the blind detection opportunity of the terminal when the terminal device is not transmitting; 2) According to the ID The number determines the priority of searching the user-specific search space, so that the priority of the user-specific search space cannot be dynamically adjusted to meet business needs.
  • the current 5G system introduces ultra-reliable low-latency communications (URLLC) services, which are characterized by achieving ultra-high reliability (e.g., 99.999%) within extreme delays (e.g., 1ms) Transmission.
  • URLLC ultra-reliable low-latency communications
  • the uplink considers introducing a preemption mechanism, that is, inserting the URLLC service during the transmission of enhanced mobile broadband (eMBB) services, as shown in Figure 2.
  • eMBB enhanced mobile broadband
  • the network device may send uplink stop transmission control information to the terminal device to instruct the terminal device to stop the transmission of the eMBB service.
  • the terminal device makes sense for the terminal device to blindly detect the uplink stop transmission control information only when there is uplink transmission. If the terminal device has no uplink transmission, the terminal device does not need to detect the uplink stop transmission control information, but if the terminal device still detects the uplink stop transmission control Information, this will waste blind detection opportunities for terminal equipment.
  • the terminal device will first detect the public search space, that is The terminal device will still preferentially detect the public search space configured by the network device for sending the uplink stop transmission control information, which will waste the blind detection opportunity of the terminal device and make the terminal device unable to detect other information in time.
  • the terminal device If the terminal device has uplink transmission, but due to the semi-static priority configuration, the terminal device cannot detect the uplink stop transmission control information in time, thereby affecting the transmission of other services.
  • the search space where the uplink stop transmission control information is located is the user-specific search space, and the priority of the user-specific search space is determined according to the size of the ID number. Assuming that the terminal device currently has uplink transmission, the terminal device needs to receive the uplink stop transmission control information to stop the current uplink transmission, but due to the limitation of the ID number of the search space, the terminal device may not be able to detect the uplink stop transmission control information in time. Affect the transmission of other services. Therefore, the priority of the exclusive search space determined according to the ID number makes the priority of the search space unable to be dynamically adjusted to meet business needs.
  • the embodiments of the present application provide a method for detecting and sending PDCCH, which can dynamically adjust the priority of the search space and make full use of the blind detection opportunity of the terminal device.
  • FIG. 3 is a method for detecting and sending PDCCH provided by an embodiment of the present application, and the method includes steps S310 to S330.
  • the terminal device determines the priority of the search space according to the first information.
  • S310 includes: the network device determines the priority of the search space according to the first information.
  • the first information is information sent by the network device to the terminal device.
  • the first information is information dynamically configured by the network device to the terminal device.
  • the first information may be, for example, scheduling information.
  • the network device may send the scheduling information to the terminal device according to the transmission requirements of the service. At different times, the network device may send the scheduling information of different services to the terminal device.
  • the first information may be, for example, time slot format indication information
  • the network device may send different time slot format indication information to the terminal device according to the uplink and downlink transmission requirements of the terminal device. For example, when the terminal device has a relatively large demand for downlink transmission, it indicates more downlink time slots to the terminal device, and when the terminal device has a relatively large demand for uplink transmission, it indicates more uplink time slots to the terminal device.
  • the terminal device detects the PDCCH based on the priority of the search space.
  • the terminal device When detecting the PDCCH, the terminal device first detects the PDCCH in the search space with high priority, and then detects the PDCCH in the search space with low priority.
  • the network device sends the PDCCH based on the priority of the search space.
  • the network device When the network device sends the PDCCH, it can send the PDCCH corresponding to the search space with the higher priority first, and then send the PDCCH corresponding to the search space with the lower priority.
  • the priority of the search space in the embodiment of this application is not static or semi-static, but will be dynamically adjusted according to the first information sent by the network device, so that the priority of the search space can be dynamically adjusted to meet the needs of different services.
  • the transmission requirements of the business At the same time, by dynamically adjusting the priority of the search space, it is also possible to make full use of the blind detection opportunities of the terminal device, and it is possible to avoid the terminal device from performing some meaningless blind detection.
  • the first information may be scheduling information, for example, and the scheduling information may be uplink scheduling information, and the terminal device may determine the priority of the search space according to the uplink scheduling situation.
  • the uplink scheduling information is used to schedule the terminal equipment for uplink transmission, and the terminal equipment can sort the search space in different order according to whether there is uplink transmission.
  • the first information may be scheduling information for scheduling eMBB services, or the first information may be scheduling information for scheduling URLLC services, for example.
  • the first information may also be, for example, uplink and downlink direction indication information of the subframe.
  • the second information is scheduling information. If the terminal device is limited to a specific subframe format for scheduling, the terminal device can first determine whether the subframe is suitable for user scheduling based on the uplink and downlink direction indication information. For subframes that are not suitable for user scheduling, the terminal device is not in the subframe. The frame detects the second information.
  • the search space in the embodiment of the present application may include a first search space, the first search space is used to transmit second information, and the first search space is used to transmit second information.
  • the second information is detected on the downlink control channel.
  • the embodiment of the present application does not specifically limit the second information.
  • the second information may be received based on the first information.
  • the second information is conditionally received information, and the terminal device does not receive the second information in the search space corresponding to each second information.
  • the second information may be, for example, uplink stop transmission control information
  • the first information may be scheduling information, and the scheduling information is used to instruct the terminal device to perform uplink transmission.
  • the terminal device only receives the uplink stop transmission control information when there is uplink transmission; the terminal device does not receive the uplink stop transmission control information when there is no uplink transmission.
  • the second information may also be power adjustment information, for example, and the first information is scheduling information, and the scheduling information is used to instruct the terminal device to perform uplink transmission or downlink transmission.
  • the terminal device may receive the power adjustment information when there is uplink transmission or downlink transmission, and does not receive the power adjustment information when there is internal uplink transmission or downlink transmission.
  • the second information may also be scheduling information for scheduling the first service, and the first service may include eMBB service.
  • the first information may be scheduling information for scheduling URLLC services.
  • the terminal device may not receive the scheduling of the eMBB service by the network device when there is URLLC service transmission; the terminal device may receive the scheduling of the eMBB service by the network device without the URLLC service scheduling.
  • search space 1 is used to transmit URLLC scheduling information
  • search space 2 is used to transmit eMBB scheduling information.
  • the scheduling information is used to instruct the terminal device to transmit the URLLC service in the time slot 5, and the terminal device is not in the time slot 1 to PDCCH in search space 2 between time slots 5 is detected.
  • the priority of the search space may include the priority of the search space within the first time range and/or the priority of the search space outside the first time range, where the first time range is determined according to the first information.
  • the first time range may be the time slot in which the scheduling information schedules the terminal device for uplink transmission, or the first time range may be the time slot in which the terminal device receives the scheduling information to the scheduling information indication Part or all of the time slots between the time slots in which the terminal equipment performs uplink transmission.
  • the terminal device receives the uplink authorization sent by the network device in the time slot n, the uplink authorization instructs the terminal device to perform uplink transmission in the time slot (n+m), n is an integer, and m is a positive integer, then the first time range can be time The time range corresponding to the slot (n+m), or the first time slot may be the time range corresponding to part or all of the time slots from the time slot n to the time slot (n+m). That is to say, the priority of the search space determined in the embodiment of the present application may be applied to time slot n, and may also be applicable to some or all of the time slots from time slot n to time slot (n+m).
  • the terminal equipment can determine the priority of the search space corresponding to the time slot (n+m) according to the uplink authorization, or the terminal equipment can determine the interval between time slot n and time slot (n+m) according to the uplink authorization The priority of the search space corresponding to some or all of the time slots.
  • the search space in the embodiment of the present application may include a public search space, or the search space in the embodiment of the present application may include a public search space and a user search space. That is, the embodiment of the present application may sort the public search space and the user-specific search space, or may only sort the user-specific search space.
  • the priority of the first search space is higher than the priority of the user transmission search space; outside the first time range, the priority of the first search space User-specific search space whose level is lower than part or all. Or, outside the first time range, the first search space fails, and the terminal device may not detect the first search space.
  • the terminal device preferentially detects the first time A search space, and then the user-specific search space is detected, which can ensure that the terminal equipment receives the information transmitted in the first search space in time; in the time range from time slot n to time slot (n+m), terminal equipment
  • the user transmission search space may be detected first, and then the first search space may be detected, or the terminal device may not detect the first search space.
  • the terminal device may receive the configuration information of the search space sent by the network device.
  • the configuration information of the search space may include the time domain configuration information of the search space and the number of the search space.
  • the terminal device receives the configuration information of the uplink stop transmission control information sent by the network device, and the configuration information of the uplink stop transmission control information is used to indicate the search space where the uplink stop transmission control information is located.
  • the terminal device can detect the uplink stop transmission control information in the search space where the uplink stop transmission control information is located. Assuming that the terminal device receives N user-specific search space configurations, their numbers are ⁇ 0,1,2,...N-1 ⁇ , N is a positive integer, and the search space where the uplink stop transmission control information is obtained is the public search Space K.
  • the terminal device determines whether the priority of the public search space K is better than the user-specific search space based on the uplink transmission situation. Specifically, referring to Figure 4, the terminal device receives the uplink authorization sent by the network device in the time slot n, the uplink authorization instructs the terminal device to perform uplink transmission in the time slot (n+m), and the corresponding first time range is the time slot n ⁇ time slot (n+m).
  • the terminal device When the terminal device blindly detects the PDCCH in the time slot (n+x), x is a positive number and x ⁇ m, the terminal device first detects the search space K, and then detects the user-specific search space in turn; the terminal device in the time slot (n+ y) When blindly detecting PDCCH, y is a positive number and y>m, then the terminal device will first detect part or all of the search space in the user-specific search space, and then the public search space K, or the terminal device will not detect the public search space K.
  • the terminal device detects the user-specific search space, it can still detect the user-specific search space sequentially according to the size of the ID number in a traditional manner.
  • the network device can determine the priority of the search space in the same manner as the terminal device. For example, the network device can determine the priority of the search space according to whether the uplink transmission is scheduled to the terminal device. If the network device schedules uplink transmission to the terminal device, the priority of the public search space K is higher than the user-specific search space, and the network device can send the PDCCH corresponding to the public search space K first, and then send the PDCCH corresponding to the user-specific search space; If the network device does not schedule uplink transmission to the terminal device, the priority of the public search space K is lower than the priority of the user-specific search space, and the terminal device can send the PDCCH corresponding to the user-specific search space first, and then send the corresponding public search space K If the PDCCH or the public search space K fails, the network device does not send the PDCCH corresponding to the public search space K, which can save signaling overhead.
  • the priority of the first search space is higher than the priority of some or all other user-specific search spaces; outside the first time range, the first search The priority of the space is lower than the priority of some or all other user-specific search spaces, where the priority of other user-specific search spaces is other search spaces in the user-specific search space except the first search space.
  • the terminal device preferentially detects the first time A search space, and then detect other user-specific search spaces, so as to ensure that the terminal equipment receives the information transmitted in the first search space in time; in the time range from time slot n to time slot (n+m), the terminal The device may first detect part or all of the search space transmitted by other users, and then detect the first search space, or the terminal device may not detect the first search space.
  • the terminal device may receive the configuration information of the search space sent by the network device.
  • the configuration information of the search space may include the time domain configuration information of the search space and the number of the search space.
  • the terminal device receives the configuration information of the uplink stop transmission control information sent by the network device, and the configuration information of the uplink stop transmission control information is used to indicate the search space where the uplink stop transmission control information is located.
  • the terminal device can detect the uplink stop transmission control information in the search space where the uplink stop transmission control information is located.
  • the terminal device receives N user-specific search space configurations, their numbers are ⁇ 0,1,2,...N-1 ⁇ , and the search space where the uplink stop transmission control information is obtained is the user-specific search space K, N Is a positive integer, K is an integer less than N.
  • the terminal device determines whether the priority of the user-specific search space K is better than other user-specific search spaces based on the uplink transmission situation. Specifically, referring to Figure 4, the terminal device receives the uplink authorization sent by the network device in the time slot n, the uplink authorization instructs the terminal device to perform uplink transmission in the time slot (n+m), and the corresponding first time range is the time slot n ⁇ time slot (n+m).
  • x is a positive number. If x ⁇ m, the terminal device first detects the user-specific search space K, and then sequentially detects the user-specific search space, that is, the user-specific search space
  • the priority order of is ⁇ K,0,1,...K-1,K+1,...,N-1 ⁇ ; if x>m, the terminal device will first detect part or all of the search space in the user-specific search space , And then check the public search space K, that is, the priority order of user-specific search space is ⁇ 0,1,...K-1,K+1,...,N-1,K ⁇ , or user-specific search
  • the priority order of the space is ⁇ 0,1,...K-1,K,K+1,...,N-1 ⁇ .
  • the terminal device blindly detects the PDCCH on the time slot (n+y), y is a positive number and y>m, and the terminal device does not detect the public search space K.
  • the priority order of the user-specific search space is ⁇ 0,1,...K-1,K+1,...,N-1 ⁇ .
  • the first information in the embodiment of the present application may include multiple scheduling information.
  • the first time range is a time range determined according to the multiple scheduling information.
  • the terminal device currently has 3 uplink schedules, namely uplink scheduling 1, uplink scheduling 2, and uplink scheduling 3.
  • the time range determined by the terminal device according to uplink scheduling 1 is time range 1
  • the time range determined according to uplink scheduling 2 is time Range 2
  • the time range determined according to uplink scheduling 3 is time range 3.
  • the first time range is the set of time range 1, time range 2, and time range 3.
  • the terminal device can determine the priority of the search space in this set, And/or the priority of the search space outside the set.
  • FIG. 5 is a schematic block diagram of a terminal device provided by an embodiment of the present application.
  • the terminal device may be any of the terminal devices described above.
  • the terminal device 500 in FIG. 5 includes a processing unit 510, where:
  • the processing unit 510 is configured to perform the following operations: determine the priority of the search space according to the first information received from the network device; and detect the physical downlink control channel based on the priority of the search space.
  • the search space includes a first search space, and the first search space is used by the terminal device to detect the second information on the physical downlink control channel.
  • the priority of the search space includes the priority of the search space within the first time range, and/or the priority of the search space outside the first time range, and the first time range It is determined based on the first information.
  • the first search space is a public search space, and within the first time range, the priority of the first search space is higher than the priority of the user-specific search space; in the first time range Otherwise, the priority of the first search space is lower than the priority of part or all of the user-specific search space.
  • the first search space is a user-specific search space, and within the first time range, the priority of the first search space is higher than the priority of some or all other user-specific search spaces; Outside the first time range, the priority of the first search space is lower than some or all of the other user-specific search spaces, and the other user-specific search spaces are those of the user-specific search spaces except for the first search space. Search space outside.
  • the processing unit 510 is configured to: outside the first time range, not detect the physical downlink control channel in the first search space.
  • the first information is scheduling information
  • the first time range is a time slot in which the scheduling information instructs the terminal device to perform uplink transmission
  • the first time range is a time slot received by the terminal device Part or all of the time slots between the time slot of the scheduling information and the time slot in which the scheduling information indicates that the terminal device performs uplink transmission.
  • the second information includes at least one of the following: uplink stop transmission control information, power adjustment information, scheduling information for scheduling a first service, and the first service includes an eMBB service.
  • the first information includes scheduling information.
  • Fig. 6 is a schematic block diagram of a network device provided by an embodiment of the present application.
  • the network device may be any of the network devices described above.
  • the network device 600 in FIG. 6 includes a processing unit 610 and a communication unit 620, where:
  • the processing unit 610 is configured to determine the priority of the search space according to the first information sent to the terminal device.
  • the communication unit 620 is configured to send the physical downlink control channel based on the priority of the search space.
  • the search space includes a first search space, and the first search space is used by the network device to send the second information on the physical downlink control channel.
  • the priority of the search space includes the priority of the search space within the first time range, and/or the priority of the search space outside the first time range, and the first time range It is determined based on the first information.
  • the first search space is a public search space, and within the first time range, the priority of the first search space is higher than the priority of the user-specific search space; in the first time range Otherwise, the priority of the first search space is lower than the priority of part or all of the user-specific search space.
  • the first search space is a user-specific search space, and within the first time range, the priority of the first search space is higher than the priority of some or all other user-specific search spaces; Outside the first time range, the priority of the first search space is lower than some or all of the other user-specific search spaces, and the other user-specific search spaces are those of the user-specific search spaces except for the first search space. Search space outside.
  • the processing unit 610 is configured to: not send the physical downlink control channel in the first search space outside the first time range.
  • the first information is scheduling information
  • the first time range is a time slot in which the scheduling information instructs the terminal device to perform uplink transmission
  • the first time range is a time slot received by the terminal device Part or all of the time slots between the time slot of the scheduling information and the time slot in which the scheduling information indicates that the terminal device performs uplink transmission.
  • the second information includes at least one of the following: uplink stop transmission control information, power adjustment information, scheduling information for scheduling a first service, and the first service includes an eMBB service.
  • the first information includes scheduling information.
  • the aforementioned communication module may be a communication interface or a transceiver, or an input/output interface of a communication chip or a system-on-chip.
  • the aforementioned determining module may be one or more processors.
  • FIG. 7 is a schematic structural diagram of a communication device 700 provided by an embodiment of the present application.
  • the communication device 700 shown in FIG. 7 includes a processor 710, and the processor 710 can call and run a computer program from a memory to implement the method in the embodiment of the present application.
  • the communication device 700 may further include a memory 720.
  • the processor 710 may call and run a computer program from the memory 720 to implement the method in the embodiment of the present application.
  • the memory 720 may be a separate device independent of the processor 710, or may be integrated in the processor 710.
  • the communication device 700 may further include a transceiver 730, and the processor 710 may control the transceiver 730 to communicate with other devices. Specifically, it may send information or data to other devices, or receive other devices. Information or data sent by the device.
  • the transceiver 730 may include a transmitter and a receiver.
  • the transceiver 730 may further include an antenna, and the number of antennas may be one or more.
  • the communication device 700 may specifically be a network device in an embodiment of the present application, and the communication device 700 may implement the corresponding process implemented by the network device in each method of the embodiment of the present application. For brevity, details are not repeated here. .
  • the communication device 700 may specifically be a mobile terminal/terminal device of an embodiment of the present application, and the communication device 700 may implement the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of the present application. For simplicity , I won’t repeat it here.
  • Fig. 8 is a schematic structural diagram of a device according to an embodiment of the present application.
  • the apparatus 800 shown in FIG. 8 includes a processor 810, and the processor 810 can call and run a computer program from the memory to implement the method in the embodiment of the present application.
  • the device 800 may further include a memory 820.
  • the processor 810 can call and run a computer program from the memory 820 to implement the method in the embodiment of the present application.
  • the memory 820 may be a separate device independent of the processor 810, or may be integrated in the processor 810.
  • the device 800 may further include an input interface 830.
  • the processor 810 can control the input interface 830 to communicate with other devices or devices, and specifically, can obtain information or data sent by other devices or devices.
  • the device 800 may further include an output interface 840.
  • the processor 810 can control the output interface 840 to communicate with other devices or devices, and specifically, can output information or data to other devices or devices.
  • the device can be applied to the network equipment in the embodiments of the present application, and the device can implement the corresponding processes implemented by the network equipment in the various methods of the embodiments of the present application.
  • the device can implement the corresponding processes implemented by the network equipment in the various methods of the embodiments of the present application.
  • details are not described herein again.
  • the device can be applied to the mobile terminal/terminal device in the embodiment of this application, and the device can implement the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of this application.
  • the device can implement the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of this application.
  • the device can implement the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of this application.
  • the device mentioned in the embodiments of the present application may be a chip, and the chip may also be referred to as a system-on-chip, a system-on-chip, a system-on-chip, or a system-on-chip.
  • FIG. 9 is a schematic block diagram of a communication system 900 according to an embodiment of the present application.
  • the communication system 900 includes a terminal device 910 and a network device 920.
  • the terminal device 910 can be used to implement the corresponding function implemented by the terminal device in the above method
  • the network device 920 can be used to implement the corresponding function implemented by the network device in the above method. For brevity, it will not be repeated here. .
  • the processor of the embodiment of the present application may be an integrated circuit chip with signal processing capability.
  • the steps of the foregoing method embodiments can be completed by hardware integrated logic circuits in the processor or instructions in the form of software.
  • the above-mentioned processor can be a general-purpose processor, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a ready-made programmable gate array (Field Programmable Gate Array, FPGA) or other Programming logic devices, discrete gates or transistor logic devices, discrete hardware components.
  • DSP digital signal processor
  • ASIC application specific integrated circuit
  • FPGA ready-made programmable gate array
  • the methods, steps, and logical block diagrams disclosed in the embodiments of the present application can be implemented or executed.
  • the general-purpose processor may be a microprocessor or the processor may also be any conventional processor or the like.
  • the steps of the method disclosed in the embodiments of the present application may be directly embodied as being executed and completed by a hardware decoding processor, or executed and completed by a combination of hardware and software modules in the decoding processor.
  • the software module can be located in a mature storage medium in the field such as random access memory, flash memory, read-only memory, programmable read-only memory, or electrically erasable programmable memory, registers.
  • the storage medium is located in the memory, and the processor reads the information in the memory and completes the steps of the above method in combination with its hardware.
  • the memory in the embodiment of the present application may be a volatile memory or a non-volatile memory, or may include both volatile and non-volatile memory.
  • the non-volatile memory can be read-only memory (Read-Only Memory, ROM), programmable read-only memory (Programmable ROM, PROM), erasable programmable read-only memory (Erasable PROM, EPROM), and electrically available Erase programmable read-only memory (Electrically EPROM, EEPROM) or flash memory.
  • the volatile memory may be a random access memory (Random Access Memory, RAM), which is used as an external cache.
  • RAM random access memory
  • SRAM static random access memory
  • DRAM dynamic random access memory
  • DRAM synchronous dynamic random access memory
  • SDRAM double data rate synchronous dynamic random access memory
  • Double Data Rate SDRAM DDR SDRAM
  • ESDRAM enhanced synchronous dynamic random access memory
  • Synchlink DRAM SLDRAM
  • DR RAM Direct Rambus RAM
  • the memory in the embodiment of the present application may also be static random access memory (static RAM, SRAM), dynamic random access memory (dynamic RAM, DRAM), Synchronous dynamic random access memory (synchronous DRAM, SDRAM), double data rate synchronous dynamic random access memory (double data rate SDRAM, DDR SDRAM), enhanced synchronous dynamic random access memory (enhanced SDRAM, ESDRAM), synchronous connection Dynamic random access memory (synch link DRAM, SLDRAM) and direct memory bus random access memory (Direct Rambus RAM, DR RAM), etc. That is to say, the memory in the embodiment of the present application is intended to include but not limited to these and any other suitable types of memory.
  • the embodiment of the present application also provides a computer-readable storage medium for storing computer programs.
  • the computer-readable storage medium may be applied to the network device in the embodiment of the present application, and the computer program causes the computer to execute the corresponding process implemented by the network device in each method of the embodiment of the present application.
  • the computer program causes the computer to execute the corresponding process implemented by the network device in each method of the embodiment of the present application.
  • the computer-readable storage medium can be applied to the mobile terminal/terminal device in the embodiment of the present application, and the computer program enables the computer to execute the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of the present application ,
  • the computer program enables the computer to execute the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of the present application ,
  • I will not repeat it here.
  • the embodiments of the present application also provide a computer program product, including computer program instructions.
  • the computer program product may be applied to the network device in the embodiment of the present application, and the computer program instructions cause the computer to execute the corresponding process implemented by the network device in each method of the embodiment of the present application.
  • the computer program instructions cause the computer to execute the corresponding process implemented by the network device in each method of the embodiment of the present application.
  • the computer program instructions cause the computer to execute the corresponding process implemented by the network device in each method of the embodiment of the present application.
  • the computer program product can be applied to the mobile terminal/terminal device in the embodiment of the present application, and the computer program instructions cause the computer to execute the corresponding process implemented by the mobile terminal/terminal device in each method of the embodiment of the present application, For brevity, I won't repeat them here.
  • the embodiment of the present application also provides a computer program.
  • the computer program can be applied to the network device in the embodiment of the present application.
  • the computer program runs on the computer, the computer is caused to execute the corresponding process implemented by the network device in each method of the embodiment of the present application.
  • I won’t repeat it here.
  • the computer program can be applied to the mobile terminal/terminal device in the embodiment of the present application.
  • the computer program runs on the computer, the computer executes each method in the embodiment of the present application. For the sake of brevity, the corresponding process will not be repeated here.
  • the disclosed system, device, and method may be implemented in other ways.
  • the device embodiments described above are only illustrative.
  • the division of the units is only a logical function division, and there may be other divisions in actual implementation, for example, multiple units or components can be combined or It can be integrated into another system, or some features can be ignored or not implemented.
  • the displayed or discussed mutual coupling or direct coupling or communication connection may be through some interfaces, indirect coupling or communication connection of devices or units, and may be in electrical, mechanical or other forms.
  • the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, they may be located in one place, or they may be distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the objectives of the solutions of the embodiments.
  • each unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit.
  • the function is implemented in the form of a software functional unit and sold or used as an independent product, it can be stored in a computer readable storage medium.
  • the technical solution of this application essentially or the part that contributes to the prior art or the part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium, including Several instructions are used to make a computer device (which may be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the method described in each embodiment of the present application.
  • the aforementioned storage media include: U disk, mobile hard disk, read-only memory (Read-Only Memory,) ROM, random access memory (Random Access Memory, RAM), magnetic disk or optical disk and other media that can store program code .

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Abstract

本申请提供了一种用检测、发送物理下行控制信道的方法及设备,使得搜索空间的优先级能够根据业务传输情况调整,能够充分利用终端设备的盲检测机会。该用于检测物理下行控制信道的方法包括:终端设备根据从网络设备接收到的第一信息,确定搜索空间的优先级;所述终端设备基于所述搜索空间的优先级,对所述物理下行控制信道进行检测。

Description

用于检测、发送物理下行控制信道的方法及设备 技术领域
本申请涉及通信领域,并且更具体地,涉及一种用于检测、发送物理下行控制信道的方法及设备。
背景技术
目前,终端设备可以根据高层配置或协议约定在预定义的搜索空间内盲检测物理下行控制信道(physical harq indication channel,PDCCH)。在新无线(new radio,NR)中,为了支持多种业务,引入了多套搜索空间配置,一个带宽部分(bandwidth part,BWP)内最多配置10个搜索空间。
为了简化终端设备的盲检测,搜索空间的设计准则如下:公共搜索空间集合的优先级高于用户专属搜索空间集合的优先级;在用户专属搜索空间集合内,标识(identity,ID)编号小的搜索空间的优先级高于ID编号大的搜索空间的优先级。
但是,上述设计准则存在以下问题:1)公共搜索空间优先级总是高于用户专属搜索空间,条件性发生的公共信令在终端设备没有传输时,会浪费终端盲检测机会;2)根据ID编号确定搜索用户专属搜索空间的优先级,使得用户专属搜索空间的优先级不能够适应业务需要动态调整。
发明内容
本申请提供一种用于检测、发送物理下行控制信道的方法及设备,能够充分利用终端设备的盲检测机会。
第一方面,提供了一种用于检测物理下行控制信道的方法,包括:终端设备根据从网络设备接收到的第一信息,确定搜索空间的优先级;所述终端设备基于所述搜索空间的优先级,对所述物理下行控制信道进行检测。
第二方面,提供了一种用于发送物理下行控制信道的方法,包括:网络设备根据向终端设备发送的第一信息,确定搜索空间的优先级;所述网络设备基于所述搜索空间的优先级,发送所述物理下行控制信道。
第三方面,提供了一种终端设备,用于执行上述第一方面或其各实现方式中的方法。
具体地,该终端设备包括用于执行上述第一方面或其各实现方式中的方法的功能模块。
第四方面,提供了一种网络设备,用于执行上述第二方面或其各实现方式中的方法。
具体地,该网络设备包括用于执行上述第二方面或其各实现方式中的方法的功能模块。
第五方面,提供了一种终端设备,包括处理器和存储器。该存储器用于存储计算机程序,该处理器用于调用并运行该存储器中存储的计算机程序,执行上述第一方面或其各实现方式中的方法。
第六方面,提供了一种网络设备,包括处理器和存储器。该存储器用于存储计算机程序,该处理器用于调用并运行该存储器中存储的计算机程序,执行上述第二方面或其各实现方式中的方法。
第七方面,提供了一种装置,用于实现上述第一方面至第二方面中的任一方面或其各实现方式中的方法。
具体地,该装置包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有该装置的设备执行如上述第一方面至第二方面中的任一方面或其各实现方式中的方法。
第八方面,提供了一种计算机可读存储介质,用于存储计算机程序,该计算机程序使得计算机执行上述第一方面至第二方面中的任一方面或其各实现方式中的方法。
第九方面,提供了一种计算机程序产品,包括计算机程序指令,所述计算机程序指令使得计算机执行上述第一方面至第二方面中的任一方面或其各实现方式中的方法。
第十方面,提供了一种计算机程序,当其在计算机上运行时,使得计算机执行上述第一方面至第二方面中的任一方面或其各实现方式中的方法。
本申请提供的技术方案,搜索空间的优先级能够根据网络设备发送的第一信息进行调整,使得搜索空间的优先级能够根据业务需要灵活调整,能够充分利用终端设备的盲检测机会。
附图说明
图1是本申请实施例应用的无线通信系统的示意图。
图2是本申请实施例提供的一种上行停止传输机制的示意图。
图3是本申请实施例提供的一种用于传输PDCCH的方法的示意性流程图。
图4是本申请实施例提供的一种确定时间范围的方法的示意图。
图5是本申请实施例提供的一种终端设备的示意性框图。
图6是本申请实施例提供的一种网络设备的示意性框图。
图7是本申请实施例的通信设备的示意性结构图。
图8是本申请实施例的装置的示意性结构图。
图9是本申请实施例的通信系统的示意性框图。
具体实施方式
图1是本申请实施例的系统100的示意图。
如图1所示,终端设备110与第一通信系统下的第一网络设备130和第二通信系统下的第二网络设备120相连,例如,该第一网络设备130为长期演进(Long Term Evolution,LTE)下的网络设备,该第二网络设备120为新空口(New Radio,NR)下的网络设备。
其中,该第一网络设备130和该第二网络设备120下可以包括多个小区。
应理解,图1是本申请实施例的通信系统的示例,本申请实施例不限于图1所示。
作为一个示例,本申请实施例适应的通信系统可以包括至少该第一通信系统下的多个网络设备和/或该第二通信系统下的多个网络设备。
例如,图1所示的系统100可以包括第一通信系统下的一个主网络设备和第二通信系统下的至少一个辅助网络设备。至少一个辅助网络设备分别与该一个主网络设备相连,构成多连接,并分别与终端设备110连接为其提供服务。具体地,终端设备110可以通过主网络设备和辅助网络设备同时建立连接。
可选地,终端设备110和主网络设备建立的连接为主连接,终端设备110与辅助网络设备建立的连接为辅连接。终端设备110的控制信令可以通过主连接进行传输,而终端设备110的数据可以通过主连接以及辅连接同时进行传输,也可以只通过辅连接进行传输。
作为又一示例,本申请实施例中的第一通信系统和第二通信系统不同,但对第一通信 系统和该第二通信系统的具体类别不作限定。
例如,该第一通信系统和该第二通信系统可以是各种通信系统,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时分双工(Time Division Duplex,TDD)、通用移动通信系统(Universal Mobile Telecommunication System,UMTS)等。
所述主网络设备和所述辅助网络设备可以为任意接入网设备。
可选地,在一些实施例中,所述接入网设备可以是全球移动通讯(Global System of Mobile communication,GSM)系统或码分多址(Code Division Multiple Access,CDMA)中的基站(Base Transceiver Station,BTS),也可以是宽带码分多址(Wideband Code Division Multiple Access,WCDMA)系统中的基站(NodeB,NB),还可以是长期演进(Long Term Evolution,LTE)系统中的演进型基站(Evolutional Node B,eNB或eNodeB)。
可选地,所述接入网设备还可以是下一代无线接入网(Next Generation Radio Access Network,NG RAN),或者是NR系统中的基站(gNB),或者是云无线接入网络(Cloud Radio Access Network,CRAN)中的无线控制器,或者该接入网设备可以为中继站、接入点、车载设备、可穿戴设备,或者未来演进的公共陆地移动网络(Public Land Mobile Network,PLMN)中的网络设备等。
在图1所示的系统100中,以该第一网络设备130为主网络设备,以该第二网络设备120为辅助网络设备为例。
该第一网络设备130可以为LTE网络设备,该第二网络设备120可以为NR网络设备。或者该第一网络设备130可以为NR网络设备,第二网络设备120可以为LTE网络设备。或者该第一网络设备130和该第二网络设备120都可以为NR网络设备。或者该第一网络设备130可以为GSM网络设备,CDMA网络设备等,该第二网络设备120也可以为GSM网络设备,CDMA网络设备等。或者第一网络设备130可以是宏基站(Macrocell),第二网络设备120可以为微蜂窝基站(Microcell)、微微蜂窝基站(Picocell)或者毫微微蜂窝基站(Femtocell)等。
可选地,所述终端设备110可以是任意终端设备,所述终端设备110包括但不限于:
经由有线线路连接,如经由公共交换电话网络(Public Switched Telephone Networks,PSTN)、数字用户线路(Digital Subscriber Line,DSL)、数字电缆、直接电缆连接;和/或另一数据连接/网络;和/或经由无线接口,如,针对蜂窝网络、无线局域网(Wireless Local Area Network,WLAN)、诸如DVB-H网络的数字电视网络、卫星网络、AM-FM广播发送器;和/或另一终端设备的被设置成接收/发送通信信号的装置;和/或物联网(Internet of Things,IoT)设备。被设置成通过无线接口通信的终端设备可以被称为“无线通信终端”、“无线终端”或“移动终端”。移动终端的示例包括但不限于卫星或蜂窝电话;可以组合蜂窝无线电电话与数据处理、传真以及数据通信能力的个人通信系统(Personal Communications System,PCS)终端;可以包括无线电电话、寻呼机、因特网/内联网接入、Web浏览器、记事簿、日历以及/或全球定位系统(Global Positioning System,GPS)接收器的PDA;以及常规膝上型和/或掌上型接收器或包括无线电电话收发器的其它电子装置。终端设备可以指接入终端、用户设备(User Equipment,UE)、用户单元、用户站、移动站、 移动台、远方站、远程终端、移动设备、用户终端、终端、无线通信设备、用户代理或用户装置。接入终端可以是蜂窝电话、无绳电话、会话启动协议(Session Initiation Protocol,SIP)电话、无线本地环路(Wireless Local Loop,WLL)站、个人数字处理(Personal Digital Assistant,PDA)、具有无线通信功能的手持设备、计算设备或连接到无线调制解调器的其它处理设备、车载设备、可穿戴设备、5G网络中的终端设备或者未来演进的PLMN中的终端设备等。
应理解,本文中术语“系统”和“网络”在本文中常被可互换使用。
目前,终端设备可以根据高层配置或协议约定在预定义的搜索空间内盲检测物理下行控制信道(physical harq indication channel,PDCCH)。其中,搜索空间可用于指示终端设备盲检测PDCCH的时域资源位置。网络设备向终端设备配置搜索空间后,终端设备可以在搜索空间对应的时域资源位置上盲检测PDCCH。
在新无线(new radio,NR)中,为了支持多种业务,引入了多套搜索空间配置,一个带宽部分(bandwidth part,BWP)内最多可以配置10个搜索空间。
网络设备向终端设备配置的搜索空间可以包括公共搜索空间和用户专属搜索空间。公共搜索空间中传输的数据主要包括系统信息、RAR、寻呼消息等消息,每个终端设备都需要盲检测公共搜索空间中的PDCCH。用户专属搜索空间时针对特定终端设备发送的,网络设备向不同终端设备配置的用户专属搜索空间可以不同。
为了简化终端设备的盲检测,网络设备向终端设备配置了半静态的搜索空间优先级,终端设备可以按照该半静态的搜索空间优先级进行盲检测。
具体地,搜索空间的设计准则如下:
(1)公共搜索空间集合的优先级高于用户专属搜索空间集合的优先级。如果在某个时隙内,既包括网络设备配置的公共搜索空间,又包括网络设备配置的用户专属搜索空间,则终端设备在这个时隙中进行盲检测时,优先盲检测公共搜索空间中的PDCCH,然后再检测用户专属搜索空间中的PDCCH。
(2)在用户专属搜索空间集合内,ID编号小的搜索空间的优先级高于ID编号大的搜索空间的优先级。网络设备可以向终端设备配置多套用户专属搜索空间,并对该多套专属搜索空间进行编号。终端设备在盲检测时,可以优先检测ID编号小的搜索空间中的PDCCH。
(3)如果配置的用户专属搜索空间的集合超过终端设备盲检测的能力,超出部分的专属搜索空间集合内的所有候选控制信道均不进行盲检测。且ID编号大于这个搜索空间集合的用户专属搜索空间集合也不进行盲检测。
例如,终端设备的检测能力为:一个时隙内的盲检测次数最大为15次。假设网络设备向终端设备配置的某个时隙内包括一个公共搜索空间和3个用户专属搜索空间,且每个搜索空间的盲检测次数为4次,则终端设备需要在这个时隙内进行16次的盲检测,这超出了终端设备的盲检测能力。因此,终端设备在该时隙内进行盲检测时,可以放弃ID编号最大的用户专属搜索空间的4次盲检测,而仅在该时隙进行12次的盲检测。
(4)网络设备需要确保公共搜索空间集合的盲检测的复杂度不超过终端设备的能力。
但是,上述设计准则存在以下问题:1)公共搜索空间优先级总是高于用户专属搜索空间,条件性发生的公共信令在终端设备没有传输时,会浪费终端盲检测机会;2)根据ID编号确定搜索用户专属搜索空间的优先级,使得用户专属搜索空间的优先级不能够适应业务需要动态调整。
下面以上行停止传输控制信息所在的搜索空间为例,对上述问题进行描述。
目前的5G系统引入了高可靠低时延通信(ultra reliable low latency communications,URLLC)业务,该业务的特征是在极端的时延内(例如,1ms)实现超高可靠性(例如,99.999%)的传输。为了实现这个目标,上行考虑引入抢占机制(preemption),即在增强移动带宽(enhanced mobile broadband,eMBB)业务传输过程中,插入URLLC业务,如图2所示。
为了避免eMBB业务对URLLC业务的影响,网络设备可以向终端设备发送上行停止传输控制信息,以指示终端设备停止eMBB业务的传输。
终端设备只有在有上行传输时,盲检测上行停止传输控制信息才有意义,如果终端设备没有上行传输,终端设备就没有必要检测上行停止传输控制信息,但如果终端设备仍然去检测上行停止传输控制信息,这样会浪费终端设备的盲检测机会。
假设上行停止传输控制信息所在的搜索空间为公共搜索空间,且终端设备当前没有上行传输,由于公共搜索空间的优先级高于用户专属搜索空间的优先级,终端设备会优先检测公共搜索空间,即终端设备仍然会优先检测网络设备配置的用于发送上行停止传输控制信息的公共搜索空间,这样会浪费终端设备的盲检测机会,使得终端设备不能及时地检测到其他信息。
如果终端设备有上行传输,但由于半静态优先级的配置,导致终端设备不能及时检测到上行停止传输控制信息,从而影响其他业务的传输。
假设上行停止传输控制信息所在的搜索空间为用户专属搜索空间,用户专属搜索空间的优先级是根据ID编号大小进行确定的。假设终端设备当前有上行传输,终端设备需要接收上行停止传输控制信息以停止当前的上行传输,但是由于搜索空间的ID编号的限制,可能会导致终端设备不能及时地检测到上行停止传输控制信息,影响其他业务的传输。因此,根据ID编号确定的专属搜索空间的优先级,使得搜索空间的优先级不能够适应业务需要动态调整。
因此,本申请实施例提供了一种用于检测、发送PDCCH的方法,能够动态调整搜索空间的优先级,能够充分利用终端设备的盲检测机会。
图3是本申请实施例提供的一种用于检测、发送PDCCH的方法,该方法包括步骤S310~S330。
S310、终端设备根据第一信息,确定搜索空间的优先级。
或者,S310包括:网络设备根据第一信息,确定搜索空间的优先级。
该第一信息为网络设备向终端设备发送的信息,例如,该第一信息为网络设备向终端设备动态配置的信息。
该第一信息例如可为调度信息,网络设备可以根据业务的传输需求向终端设备发送调度信息,在不同的时刻,网络设备可以向终端设备发送不同业务的调度信息。
该第一信息又例如可以为时隙格式指示信息,网络设备可以根据终端设备的上下行传输需求,向终端设备发送不同的时隙格式指示信息。如在终端设备对下行传输的需求比较大时,向终端设备指示较多的下行时隙,在终端设备对上行传输的需求比较大时,向终端设备指示较多的上行时隙。
S320、终端设备基于该搜索空间的优先级,对PDCCH进行检测。
终端设备在检测PDCCH时,优先检测优先级高的搜索空间中的PDCCH,然后再检测 优先级低的搜索空间中的PDCCH。
S330、网络设备基于该搜索空间的优先级,发送PDCCH。
网络设备在发送PDCCH时,可以优先发送优先级高的搜索空间对应的PDCCH,然后再发送优先级低的搜索空间对应的PDCCH。
本申请实施例中的搜索空间的优先级不是静态的、或半静态的,而是会根据网络设备发送的第一信息动态调整,使得搜索空间的优先级能够适应业务需要动态调整,以满足不同业务的传输需求。同时,通过动态调整搜索空间的优先级,也能够充分利用终端设备的盲检测机会,能够避免终端设备做一些无意义的盲检测。
第一信息例如可以为调度信息,该调度信息例如可以为上行调度信息,终端设备可以根据上行调度情况,确定搜索空间的优先级。上行调度信息用于调度终端设备进行上行传输,终端设备可以根据有没有上行传输,对搜索空间进行不同的排序。
根据上文的描述,第一信息例如可以为调度eMBB业务的调度信息,或者第一信息例如可以为调度URLLC业务的调度信息。
第一信息例如还可以为子帧的上下行方向指示信息。第二信息为调度信息。如果终端设备被限定在特定的子帧格式下才能调度,则终端设备可以先基于上下行方向指示信息确定该子帧是否适合用户调度,对于不适合用户调度的子帧,则终端设备不在该子帧检测第二信息。
本申请实施例中的搜索空间可以包括第一搜索空间,该第一搜索空间用于传输第二信息,第一搜索空间用于传输第二信息可以表示第一搜索空间被终端设备用于在物理下行控制信道上检测第二信息。
本申请实施例对第二信息不做具体限定。对于终端设备来说,该第二信息可以是基于第一信息接收的。也就是说,该第二信息是条件性接收的信息,终端设备并不是在每个第二信息对应的搜索空间上都去接收第二信息。
该第二信息例如可以为上行停止传输控制信息,第一信息可以为调度信息,该调度信息用于指示终端设备进行上行传输。终端设备只有在有上行传输的情况下,才去接收上行停止传输控制信息;终端设备在没有上行传输的情况下,不接收上行停止传输控制信息。
该第二信息例如也可以为功率调整信息,第一信息为调度信息,该调度信息用于指示终端设备进行上行传输或下行传输。终端设备可以在有上行传输或下行传输的情况下,接收功率调整信息,而在内有上行传输或下行传输的情况下,不接收功率调整信息。
该第二信息例如也可以为调度第一业务的调度信息,该第一业务可以包括eMBB业务。第一信息可以为调度URLLC业务的调度信息。终端设备可以在有URLLC业务传输的情况下,不接收网络设备对eMBB业务的调度;终端设备在没有URLLC业务调度的情况下,接收网络设备对eMBB业务的调度。
举例说明,搜索空间1用于传输URLLC调度信息,搜索空间2用于传输eMBB调度信息。当终端设备在时隙1在搜索空间1上接收到网络设备对URLLC业务的调度信息,该调度信息用于指示终端设备在时隙5上进行URLLC业务的传输,则终端设备不在时隙1至时隙5之间的搜索空间2中的PDCCH进行检测。
搜索空间的优先级可以包括第一时间范围内的搜索空间的优先级,和/或第一时间范围之外的搜索空间的优先级,其中,第一时间范围是根据第一信息确定的。
假设第一信息为调度信息,该第一时间范围可以是调度信息调度终端设备进行上行传 输的时隙,或者该第一时间范围可以是终端设备接收到该调度信息的时隙至该调度信息指示终端设备进行上行传输的时隙之间的部分或全部的时隙。
下面结合图4进行描述。
终端设备在时隙n接收到网络设备发送的上行授权,该上行授权指示终端设备在时隙(n+m)进行上行传输,n为整数,m为正整数,则第一时间范围可以为时隙(n+m)对应的时间范围,或者第一时隙可以为时隙n至时隙(n+m)中的部分或全部的时隙对应的时间范围。也就是说,本申请实施例确定的搜索空间的优先级可以适用于时隙n,也可以适用于时隙n至时隙(n+m)中的部分或全部的时隙。
具体地,终端设备可以根据该上行授权,确定时隙(n+m)对应的搜索空间的优先级,或者终端设备可以根据该上行授权,确定时隙n至时隙(n+m)之间的部分或全部的时隙对应的搜索空间的优先级。
本申请实施例中的搜索空间可以包括公共搜索空间,或者,本申请实施例中的搜索空间可以包括公共搜索空间和用户搜索空间。即,本申请实施例可以对公共搜索空间和用户专属搜索空间进行排序,也可以仅对用户专属搜索空间进行排序。
如果第一搜索空间为公共搜索空间,则在第一时间范围之内,第一搜索空间的优先级高于用户传输搜索空间的优先级;在第一时间范围之外,第一搜索空间的优先级低于部分或全部的用户专属搜索空间。或者,在第一时间范围之外,第一搜索空间失效,终端设备可以不检测第一搜索空间。
例如,假设第一时间范围为时隙n至时隙(n+m)之间的时隙,则在时隙n至时隙(n+m)之间的时间范围内,终端设备优先检测第一搜索空间,然后再检测用户专属搜索空间,这样能够保证终端设备及时地接收到第一搜索空间中传输的信息;在时隙n至时隙(n+m)之外的时间范围,终端设备可以优先检测用户传输搜索空间,然后再检测第一搜索空间,或者终端设备不检测第一搜索空间。
举例说明,终端设备可以在确定搜索空间的优先级之前,可以接收网络设备发送的搜索空间的配置信息,该搜索空间的配置信息可以包括搜索空间的时域配置信息以及搜索空间的编号。终端设备接收网络设备发送的上行停止传输控制信息的配置信息,该上行停止传输控制信息的配置信息用于指示上行停止传输控制信息所在的搜索空间。终端设备可以在上行停止传输控制信息所在的搜索空间上检测上行停止传输控制信息。假设终端设备接收到N个用户专属搜索空间配置,其编号依次为{0,1,2,…N-1},N为正整数,并获得上行停止传输控制信息所在的搜索空间的为公共搜索空间K。
终端设备基于上行传输情况,判定公共搜索空间K的优先级是否优于用户专属搜索空间。具体地,参考图4,终端设备在时隙n接收到网络设备发送的上行授权,该上行授权指示终端设备在时隙(n+m)进行上行传输,其对应的第一时间范围为时隙n~时隙(n+m)。
终端设备在时隙(n+x)上盲检测PDCCH时,x为正数,且x<m,终端设备优先检测搜索空间K,然后依次检测用户专属搜索空间;终端设备在时隙(n+y)上盲检测PDCCH时,y为正数,且y>m,则终端设备优先检测用户专属搜索空间部分或全部的搜索空间,然后再检测公共搜索空间K,或者终端设备不检测公共搜索空间K。
可以理解的是,终端设备在检测用户专属搜索空间时,仍可以按照传统的方式,根据ID编号的大小依次检测用户专属搜索空间。
类似地,网络设备确定搜索空间的优先级的方式可以与终端设备相同。例如,网络设 备可以根据是否向终端设备调度了上行传输,确定搜索空间的优先级。如果网络设备向终端设备调度了上行传输,则公共搜索空间K的优先级高于用户专属搜索空间,网络设备可以优先发送公共搜索空间K对应的PDCCH,然后再发送用户专属搜索空间对应的PDCCH;如果网络设备没有向终端设备调度上行传输,则公共搜索空间K的优先级低于用户专属搜索空间的优先级,终端设备可以优先发送用户专属搜索空间对应的PDCCH,然后再发送公共搜索空间K对应的PDCCH,或者公共搜索空间K失效,网络设备不发送公共搜索空间K对应的PDCCH,这样能够节省信令开销。
如果第一搜索空间为用户专属搜索空间,则在第一时间范围内,第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;在第一时间范围以外,第一搜索空间的优先级低于部分或全部其他用户专属搜索空间的优先级,其中,其他用户专属搜索空间的优先级为用户专属搜索空间中除第一搜索空间之外的其他搜索空间。
例如,假设第一时间范围为时隙n至时隙(n+m)之间的时隙,则在时隙n至时隙(n+m)之间的时间范围内,终端设备优先检测第一搜索空间,然后再检测其他用户专属搜索空间,这样能够保证终端设备及时地接收到第一搜索空间中传输的信息;在时隙n至时隙(n+m)之外的时间范围,终端设备可以优先检测部分或全部的其他用户传输搜索空间,然后再检测第一搜索空间,或者终端设备不检测第一搜索空间。
举例说明,终端设备可以在确定搜索空间的优先级之前,可以接收网络设备发送的搜索空间的配置信息,该搜索空间的配置信息可以包括搜索空间的时域配置信息以及搜索空间的编号。终端设备接收网络设备发送的上行停止传输控制信息的配置信息,该上行停止传输控制信息的配置信息用于指示上行停止传输控制信息所在的搜索空间。终端设备可以在上行停止传输控制信息所在的搜索空间上检测上行停止传输控制信息。假设终端设备接收到N个用户专属搜索空间配置,其编号依次为{0,1,2,…N-1},并获得上行停止传输控制信息所在的搜索空间的为用户专属搜索空间K,N为正整数,K为小于N的整数。
终端设备基于上行传输情况,判定用户专属搜索空间K的优先级是否优于其他用户专属搜索空间。具体地,参考图4,终端设备在时隙n接收到网络设备发送的上行授权,该上行授权指示终端设备在时隙(n+m)进行上行传输,其对应的第一时间范围为时隙n~时隙(n+m)。
终端设备在时隙(n+x)上盲检测PDCCH时,x为正数,如果x<m,终端设备优先检测用户专属搜索空间K,然后依次检测用户专属搜索空间,即用户专属是搜索空间的优先级顺序为{K,0,1,...K-1,K+1,…,N-1};如果x>m,则终端设备优先检测用户专属搜索空间部分或全部的搜索空间,然后再检测公共搜索空间K,即用户专属是搜索空间的优先级顺序为{0,1,...K-1,K+1,…,N-1,K},或者用户专属是搜索空间的优先级顺序为{0,1,...K-1,K,K+1,…,N-1}。终端设备在时隙(n+y)上盲检测PDCCH时,y为正数,且y>m,终端设备也不检测公共搜索空间K,在该情况下,用户专属搜索空间的优先级顺序为{0,1,...K-1,K+1,…,N-1}。
需要说明的是,本申请实施例中的第一信息可以包括多个调度信息,在该情况下,第一时间范围为根据该多个调度信息确定的时间范围。例如,终端设备当前有3个上行调度,分别为上行调度1、上行调度2、上行调度3,终端设备根据上行调度1确定的时间范围为时间范围1,根据上行调度2确定的时间范围为时间范围2,根据上行调度3确定的时间范围为时间范围3,则第一时间范围为时间范围1、时间范围2、时间范围3的集合,终端 设备可以确定该集合内的搜索空间的优先级、和/或该集合之外的搜索空间的优先级。
终端设备根据每个调度信息确定时间范围的方式可以参见上文图4的描述,为了简洁,此处不再赘述。
上文中详细描述了根据本申请实施例的用于检测、发送PDCCH的方法,下面将结合图5至图9,描述根据本申请实施例的装置,方法实施例所描述的技术特征适用于以下装置实施例。
图5是本申请实施例提供的一种终端设备的示意性框图,该终端设备可以是上文描述的任一种终端设备。图5的终端设备500包括处理单元510,其中:
处理单元510,用于执行以下操作:根据从网络设备接收到的第一信息,确定搜索空间的优先级;基于所述搜索空间的优先级,对物理下行控制信道进行检测。
可选地,所述搜索空间包括第一搜索空间,所述第一搜索空间被所述终端设备用于在所述物理下行控制信道上检测第二信息。
可选地,所述搜索空间的优先级包括所述第一时间范围内的搜索空间的优先级,和/或所述第一时间范围之外的搜索空间的优先级,所述第一时间范围是根据所述第一信息确定的。
可选地,所述第一搜索空间为公共搜索空间,在所述第一时间范围内,所述第一搜索空间的优先级高于用户专属搜索空间的优先级;在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部的所述用户专属搜索空间的优先级。
可选地,所述第一搜索空间为用户专属搜索空间,在所述第一时间范围内,所述第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部所述其他用户专属搜索空间,所述其他用户专属搜索空间为用户专属搜索空间中除所述第一搜索空间之外的搜索空间。
可选地,所述处理单元510用于:在所述第一时间范围以外,在所述第一搜索空间不检测所述物理下行控制信道。
可选地,所述第一信息为调度信息,所述第一时间范围为所述调度信息指示所述终端设备进行上行传输的时隙,或所述第一时间范围为所述终端设备接收到所述调度信息的时隙至所述调度信息指示所述终端设备进行上行传输的时隙之间的部分或全部时隙。
可选地,所述第二信息包括以下中的至少一种:上行停止传输控制信息、功率调整信息、调度第一业务的调度信息,所述第一业务包括eMBB业务。
可选地,所述第一信息包括调度信息。
图6是本申请实施例提供的一种网络设备的示意性框图,该网络设备可以是上文描述的任一种网络设备。图6的网络设备600包括处理单元610和通信单元620,其中:
处理单元610,用于根据向终端设备发送的第一信息,确定搜索空间的优先级。
通信单元620,用于基于所述搜索空间的优先级,发送所述物理下行控制信道。
可选地,所述搜索空间包括第一搜索空间,所述第一搜索空间被所述网络设备用于在所述物理下行控制信道上发送第二信息。
可选地,所述搜索空间的优先级包括所述第一时间范围内的搜索空间的优先级,和/或所述第一时间范围之外的搜索空间的优先级,所述第一时间范围是根据所述第一信息确定的。
可选地,所述第一搜索空间为公共搜索空间,在所述第一时间范围内,所述第一搜索 空间的优先级高于用户专属搜索空间的优先级;在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部的所述用户专属搜索空间的优先级。
可选地,所述第一搜索空间为用户专属搜索空间,在所述第一时间范围内,所述第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部所述其他用户专属搜索空间,所述其他用户专属搜索空间为用户专属搜索空间中除所述第一搜索空间之外的搜索空间。
可选地,所述处理单元610用于:在所述第一时间范围以外,在所述第一搜索空间中不发送所述物理下行控制信道。
可选地,所述第一信息为调度信息,所述第一时间范围为所述调度信息指示所述终端设备进行上行传输的时隙,或所述第一时间范围为所述终端设备接收到所述调度信息的时隙至所述调度信息指示所述终端设备进行上行传输的时隙之间的部分或全部时隙。
可选地,所述第二信息包括以下中的至少一种:上行停止传输控制信息、功率调整信息、调度第一业务的调度信息,所述第一业务包括eMBB业务。
可选地,所述第一信息包括调度信息。
可选地,在一些实施例中,上述通信模块可以是通信接口或收发器,或者是通信芯片或者片上系统的输入输出接口。上述确定模块可以是一个或多个处理器。
图7是本申请实施例提供的一种通信设备700示意性结构图。图7所示的通信设备700包括处理器710,处理器710可以从存储器中调用并运行计算机程序,以实现本申请实施例中的方法。
可选地,如图7所示,通信设备700还可以包括存储器720。其中,处理器710可以从存储器720中调用并运行计算机程序,以实现本申请实施例中的方法。
其中,存储器720可以是独立于处理器710的一个单独的器件,也可以集成在处理器710中。
可选地,如图7所示,通信设备700还可以包括收发器730,处理器710可以控制该收发器730与其他设备进行通信,具体地,可以向其他设备发送信息或数据,或接收其他设备发送的信息或数据。
其中,收发器730可以包括发射机和接收机。收发器730还可以进一步包括天线,天线的数量可以为一个或多个。
可选地,该通信设备700具体可为本申请实施例的网络设备,并且该通信设备700可以实现本申请实施例的各个方法中由网络设备实现的相应流程,为了简洁,在此不再赘述。
可选地,该通信设备700具体可为本申请实施例的移动终端/终端设备,并且该通信设备700可以实现本申请实施例的各个方法中由移动终端/终端设备实现的相应流程,为了简洁,在此不再赘述。
图8是本申请实施例的装置的示意性结构图。图8所示的装置800包括处理器810,处理器810可以从存储器中调用并运行计算机程序,以实现本申请实施例中的方法。
可选地,如图8所示,装置800还可以包括存储器820。其中,处理器810可以从存储器820中调用并运行计算机程序,以实现本申请实施例中的方法。
其中,存储器820可以是独立于处理器810的一个单独的器件,也可以集成在处理器810中。
可选地,该装置800还可以包括输入接口830。其中,处理器810可以控制该输入接 口830与其他设备或装置进行通信,具体地,可以获取其他设备或装置发送的信息或数据。
可选地,该装置800还可以包括输出接口840。其中,处理器810可以控制该输出接口840与其他设备或装置进行通信,具体地,可以向其他设备或装置输出信息或数据。
可选地,该装置可应用于本申请实施例中的网络设备,并且该装置可以实现本申请实施例的各个方法中由网络设备实现的相应流程,为了简洁,在此不再赘述。
可选地,该装置可应用于本申请实施例中的移动终端/终端设备,并且该装置可以实现本申请实施例的各个方法中由移动终端/终端设备实现的相应流程,为了简洁,在此不再赘述。
应理解,本申请实施例提到的装置可以为芯片,该芯片还可以称为系统级芯片,系统芯片,芯片系统或片上系统芯片等。
图9是本申请实施例提供的一种通信系统900的示意性框图。如图9所示,该通信系统900包括终端设备910和网络设备920。
其中,该终端设备910可以用于实现上述方法中由终端设备实现的相应的功能,以及该网络设备920可以用于实现上述方法中由网络设备实现的相应的功能为了简洁,在此不再赘述。
应理解,本申请实施例的处理器可能是一种集成电路芯片,具有信号的处理能力。在实现过程中,上述方法实施例的各步骤可以通过处理器中的硬件的集成逻辑电路或者软件形式的指令完成。上述的处理器可以是通用处理器、数字信号处理器(Digital Signal Processor,DSP)、专用集成电路(Application Specific Integrated Circuit,ASIC)、现成可编程门阵列(Field Programmable Gate Array,FPGA)或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件。可以实现或者执行本申请实施例中的公开的各方法、步骤及逻辑框图。通用处理器可以是微处理器或者该处理器也可以是任何常规的处理器等。结合本申请实施例所公开的方法的步骤可以直接体现为硬件译码处理器执行完成,或者用译码处理器中的硬件及软件模块组合执行完成。软件模块可以位于随机存储器,闪存、只读存储器,可编程只读存储器或者电可擦写可编程存储器、寄存器等本领域成熟的存储介质中。该存储介质位于存储器,处理器读取存储器中的信息,结合其硬件完成上述方法的步骤。
可以理解,本申请实施例中的存储器可以是易失性存储器或非易失性存储器,或可包括易失性和非易失性存储器两者。其中,非易失性存储器可以是只读存储器(Read-Only Memory,ROM)、可编程只读存储器(Programmable ROM,PROM)、可擦除可编程只读存储器(Erasable PROM,EPROM)、电可擦除可编程只读存储器(Electrically EPROM,EEPROM)或闪存。易失性存储器可以是随机存取存储器(Random Access Memory,RAM),其用作外部高速缓存。通过示例性但不是限制性说明,许多形式的RAM可用,例如静态随机存取存储器(Static RAM,SRAM)、动态随机存取存储器(Dynamic RAM,DRAM)、同步动态随机存取存储器(Synchronous DRAM,SDRAM)、双倍数据速率同步动态随机存取存储器(Double Data Rate SDRAM,DDR SDRAM)、增强型同步动态随机存取存储器(Enhanced SDRAM,ESDRAM)、同步连接动态随机存取存储器(Synchlink DRAM,SLDRAM)和直接内存总线随机存取存储器(Direct Rambus RAM,DR RAM)。应注意,本文描述的系统和方法的存储器旨在包括但不限于这些和任意其它适合类型的存储器。
应理解,上述存储器为示例性但不是限制性说明,例如,本申请实施例中的存储器还 可以是静态随机存取存储器(static RAM,SRAM)、动态随机存取存储器(dynamic RAM,DRAM)、同步动态随机存取存储器(synchronous DRAM,SDRAM)、双倍数据速率同步动态随机存取存储器(double data rate SDRAM,DDR SDRAM)、增强型同步动态随机存取存储器(enhanced SDRAM,ESDRAM)、同步连接动态随机存取存储器(synch link DRAM,SLDRAM)以及直接内存总线随机存取存储器(Direct Rambus RAM,DR RAM)等等。也就是说,本申请实施例中的存储器旨在包括但不限于这些和任意其它适合类型的存储器。
本申请实施例还提供了一种计算机可读存储介质,用于存储计算机程序。
可选的,该计算机可读存储介质可应用于本申请实施例中的网络设备,并且该计算机程序使得计算机执行本申请实施例的各个方法中由网络设备实现的相应流程,为了简洁,在此不再赘述。
可选地,该计算机可读存储介质可应用于本申请实施例中的移动终端/终端设备,并且该计算机程序使得计算机执行本申请实施例的各个方法中由移动终端/终端设备实现的相应流程,为了简洁,在此不再赘述。
本申请实施例还提供了一种计算机程序产品,包括计算机程序指令。
可选的,该计算机程序产品可应用于本申请实施例中的网络设备,并且该计算机程序指令使得计算机执行本申请实施例的各个方法中由网络设备实现的相应流程,为了简洁,在此不再赘述。
可选地,该计算机程序产品可应用于本申请实施例中的移动终端/终端设备,并且该计算机程序指令使得计算机执行本申请实施例的各个方法中由移动终端/终端设备实现的相应流程,为了简洁,在此不再赘述。
本申请实施例还提供了一种计算机程序。
可选的,该计算机程序可应用于本申请实施例中的网络设备,当该计算机程序在计算机上运行时,使得计算机执行本申请实施例的各个方法中由网络设备实现的相应流程,为了简洁,在此不再赘述。
可选地,该计算机程序可应用于本申请实施例中的移动终端/终端设备,当该计算机程序在计算机上运行时,使得计算机执行本申请实施例的各个方法中由移动终端/终端设备实现的相应流程,为了简洁,在此不再赘述。
本领域普通技术人员可以意识到,结合本文中所公开的实施例描述的各示例的单元及算法步骤,能够以电子硬件、或者计算机软件和电子硬件的结合来实现。这些功能究竟以硬件还是软件方式来执行,取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能,但是这种实现不应认为超出本申请的范围。
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描述的系统、装置和单元的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。
在本申请所提供的几个实施例中,应该理解到,所揭露的系统、装置和方法,可以通过其它的方式实现。例如,以上所描述的装置实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间 接耦合或通信连接,可以是电性,机械或其它的形式。
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。
另外,在本申请各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个单元中。
所述功能如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。针对这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本申请各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(Read-Only Memory,)ROM、随机存取存储器(Random Access Memory,RAM)、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述,仅为本申请的具体实施方式,但本申请的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本申请揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本申请的保护范围之内。因此,本申请的保护范围应所述以权利要求的保护范围为准。

Claims (48)

  1. 一种用于检测物理下行控制信道的方法,其特征在于,包括:
    终端设备根据从网络设备接收到的第一信息,确定搜索空间的优先级;
    所述终端设备基于所述搜索空间的优先级,对所述物理下行控制信道进行检测。
  2. 根据权利要求1所述的方法,其特征在于,所述搜索空间包括第一搜索空间,所述第一搜索空间被所述终端设备用于在所述物理下行控制信道上检测第二信息。
  3. 根据权利要求2所述的方法,其特征在于,所述搜索空间的优先级包括所述第一时间范围内的搜索空间的优先级,和/或所述第一时间范围之外的搜索空间的优先级,所述第一时间范围是根据所述第一信息确定的。
  4. 根据权利要求3所述的方法,其特征在于,所述第一搜索空间为公共搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部的所述用户专属搜索空间的优先级。
  5. 根据权利要求3所述的方法,其特征在于,所述第一搜索空间为用户专属搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部所述其他用户专属搜索空间,所述其他用户专属搜索空间为用户专属搜索空间中除所述第一搜索空间之外的搜索空间。
  6. 根据权利要求3所述的方法,其特征在于,所述方法还包括:
    在所述第一时间范围以外,所述终端设备在所述第一搜索空间不检测所述物理下行控制信道。
  7. 根据权利要求3-6中任一项所述的方法,其特征在于,所述第一信息为调度信息,所述第一时间范围为所述调度信息指示所述终端设备进行上行传输的时隙,或所述第一时间范围为所述终端设备接收到所述调度信息的时隙至所述调度信息指示所述终端设备进行上行传输的时隙之间的部分或全部时隙。
  8. 根据权利要求2-7中任一项所述的方法,其特征在于,所述第二信息包括以下中的至少一种:上行停止传输控制信息、功率调整信息、调度第一业务的调度信息,所述第一业务包括增强移动带宽eMBB业务。
  9. 根据权利要求1-8中任一项所述的方法,其特征在于,所述第一信息包括调度信息。
  10. 一种用于发送物理下行控制信道的方法,其特征在于,包括:
    网络设备根据向终端设备发送的第一信息,确定搜索空间的优先级;
    所述网络设备基于所述搜索空间的优先级,发送所述物理下行控制信道。
  11. 根据权利要求10所述的方法,其特征在于,所述搜索空间包括第一搜索空间,所述第一搜索空间被所述网络设备用于在所述物理下行控制信道上发送第二信息。
  12. 根据权利要求11所述的方法,其特征在于,所述搜索空间的优先级包括所述第一时间范围内的搜索空间的优先级,和/或所述第一时间范围之外的搜索空间的优先级,所述第一时间范围是根据所述第一信息确定的。
  13. 根据权利要求12所述的方法,其特征在于,所述第一搜索空间为公共搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部的所述用户专属搜索空间的优先级。
  14. 根据权利要求12所述的方法,其特征在于,所述第一搜索空间为用户专属搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部所述其他用户专属搜索空间,所述其他用户专属搜索空间为用户专属搜索空间中除所述第一搜索空间之外的搜索空间。
  15. 根据权利要求12所述的方法,其特征在于,所述方法还包括:
    在所述第一时间范围以外,所述网络设备在所述第一搜索空间中不发送所述物理下行控制信道。
  16. 根据权利要求12-15中任一项所述的方法,其特征在于,所述第一信息为调度信息,所述第一时间范围为所述调度信息指示所述终端设备进行上行传输的时隙,或所述第一时间范围为所述终端设备接收到所述调度信息的时隙至所述调度信息指示所述终端设备进行上行传输的时隙之间的部分或全部时隙。
  17. 根据权利要求11-16中任一项所述的方法,其特征在于,所述第二信息包括以下中的至少一种:上行停止传输控制信息、功率调整信息、调度第一业务的调度信息,所述第一业务包括增强移动带宽eMBB业务。
  18. 根据权利要求10-17中任一项所述的方法,其特征在于,所述第一信息包括调度信息。
  19. 一种终端设备,其特征在于,包括:
    处理单元,用于执行以下操作:
    根据从网络设备接收到的第一信息,确定搜索空间的优先级;
    基于所述搜索空间的优先级,对物理下行控制信道进行检测。
  20. 根据权利要求19所述的终端设备,其特征在于,所述搜索空间包括第一搜索空间,所述第一搜索空间被所述终端设备用于在所述物理下行控制信道上检测第二信息。
  21. 根据权利要求20所述的终端设备,其特征在于,所述搜索空间的优先级包括所述第一时间范围内的搜索空间的优先级,和/或所述第一时间范围之外的搜索空间的优先级,所述第一时间范围是根据所述第一信息确定的。
  22. 根据权利要求21所述的终端设备,其特征在于,所述第一搜索空间为公共搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部的所述用户专属搜索空间的优先级。
  23. 根据权利要求21所述的终端设备,其特征在于,所述第一搜索空间为用户专属搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部所述其他用户专属搜索空间,所述其他用户专属搜索空间为用户专属搜索空间中除所述第一搜索空间之外的搜索空间。
  24. 根据权利要求21所述的终端设备,其特征在于,所述处理单元用于:
    在所述第一时间范围以外,在所述第一搜索空间不检测所述物理下行控制信道。
  25. 根据权利要求21-24中任一项所述的终端设备,其特征在于,所述第一信息为调度信息,所述第一时间范围为所述调度信息指示所述终端设备进行上行传输的时隙,或所述第一时间范围为所述终端设备接收到所述调度信息的时隙至所述调度信息指示所述终端设备进行上行传输的时隙之间的部分或全部时隙。
  26. 根据权利要求20-25中任一项所述的终端设备,其特征在于,所述第二信息包括以下中的至少一种:上行停止传输控制信息、功率调整信息、调度第一业务的调度信息,所述第一业务包括增强移动带宽eMBB业务。
  27. 根据权利要求19-26中任一项所述的终端设备,其特征在于,所述第一信息包括调度信息。
  28. 一种网络设备,其特征在于,包括:
    处理单元,用于根据向终端设备发送的第一信息,确定搜索空间的优先级;
    通信单元,用于基于所述搜索空间的优先级,发送所述物理下行控制信道。
  29. 根据权利要求28所述的网络设备,其特征在于,所述搜索空间包括第一搜索空间,所述第一搜索空间被所述网络设备用于在所述物理下行控制信道上发送第二信息。
  30. 根据权利要求29所述的网络设备,其特征在于,所述搜索空间的优先级包括所述第一时间范围内的搜索空间的优先级,和/或所述第一时间范围之外的搜索空间的优先级,所述第一时间范围是根据所述第一信息确定的。
  31. 根据权利要求30所述的网络设备,其特征在于,所述第一搜索空间为公共搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部的所述用户专属搜索空间的优先级。
  32. 根据权利要求30所述的网络设备,其特征在于,所述第一搜索空间为用户专属搜索空间,
    在所述第一时间范围内,所述第一搜索空间的优先级高于部分或全部其他用户专属搜索空间的优先级;
    在所述第一时间范围以外,所述第一搜索空间的优先级低于部分或全部所述其他用户专属搜索空间,所述其他用户专属搜索空间为用户专属搜索空间中除所述第一搜索空间之外的搜索空间。
  33. 根据权利要求30所述的网络设备,其特征在于,所述处理单元用于:
    在所述第一时间范围以外,在所述第一搜索空间中不发送所述物理下行控制信道。
  34. 根据权利要求30-33中任一项所述的网络设备,其特征在于,所述第一信息为调度信息,所述第一时间范围为所述调度信息指示所述终端设备进行上行传输的时隙,或所述第一时间范围为所述终端设备接收到所述调度信息的时隙至所述调度信息指示所述终端设备进行上行传输的时隙之间的部分或全部时隙。
  35. 根据权利要求29-34中任一项所述的网络设备,其特征在于,所述第二信息包括以下中的至少一种:上行停止传输控制信息、功率调整信息、调度第一业务的调度信息,所述第一业务包括增强移动带宽eMBB业务。
  36. 根据权利要求28-35中任一项所述的网络设备,其特征在于,所述第一信息包括调度信息。
  37. 一种终端设备,其特征在于,所述终端设备包括处理器和存储器,所述存储器用于存储计算机程序,所述处理器用于调用并运行所述存储器中存储的计算机程序,以执行权利要求1至9中任一项所述的方法。
  38. 一种网络设备,其特征在于,所述网络设备包括处理器和存储器,所述存储器用于存储计算机程序,所述处理器用于调用并运行所述存储器中存储的计算机程序,以执行权利要求10至18中任一项所述的方法。
  39. 一种通信装置,其特征在于,所述通信装置包括处理器,所述处理器用于从存储器中调用并运行计算机程序,使得安装有所述通信装置的设备执行权利要求1至9中任一项所述的方法。
  40. 一种通信装置,其特征在于,所述通信装置包括处理器,所述处理器用于从存储器中调用并运行计算机程序,使得安装有所述通信装置的设备执行权利要求10至18中任一项所述的方法。
  41. 一种计算机可读存储介质,其特征在于,用于存储计算机程序,所述计算机程序使得计算机执行权利要求1至9中任一项所述的方法。
  42. 一种计算机可读存储介质,其特征在于,用于存储计算机程序,所述计算机程序使得计算机执行权利要求10至18中任一项所述的方法。
  43. 一种计算机程序产品,其特征在于,包括计算机程序指令,所述计算机程序指令使得计算机执行权利要求1至9中任一项所述的方法。
  44. 一种计算机程序产品,其特征在于,包括计算机程序指令,所述计算机程序指令使得计算机执行权利要求10至18中任一项所述的方法。
  45. 一种计算机程序,其特征在于,所述计算机程序使得计算机执行权利要求1至9中任一项所述的方法。
  46. 一种计算机程序,其特征在于,所述计算机程序使得计算机执行权利要求10至18中任一项所述的方法。
  47. 一种通信系统,其特征在于,包括如权利要求19至27中任一项所述的终端设备。
  48. 一种通信系统,其特征在于,包括如权利要求28至36中任一项所述的网络设备。
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