WO2022161210A1 - 资源配置方法、装置、设备以及存储介质 - Google Patents
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- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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Definitions
- the present disclosure relates to the field of mobile communication technologies, and in particular, to a resource configuration method, apparatus, device, and storage medium.
- the integrated communication of space and earth is a development direction of the future mobile communication system.
- future terminals may access different types of cells at the same time, such as simultaneous access to terrestrial cells and satellite cells or simultaneous access to different types of satellite cells. Therefore, there is an urgent need for a communication method on how to allocate resources in such a multi-connection scenario.
- the present disclosure provides a resource configuration method, apparatus, device, and storage medium for resource allocation in a multi-connection scenario.
- a resource configuration method is provided.
- the resource configuration method is applied to a terminal device and includes: determining a first mapping relationship between a first target identifier and a second target identifier, wherein the The first target identification includes at least one of the following: a QoS parameter identification, a logical channel identification, and a bearer identification; the second target identification includes at least one of the following: a cell type identification and a cell identification list; A mapping relationship is used for buffer status reporting BSR and/or uplink resource allocation.
- the cell type identification includes at least one of the following: terrestrial cells, satellite cells, low-orbit LEO satellite cells, medium-orbit MEO satellite cells, geosynchronous GEO satellite cells, high-orbit HEO satellite cells, and no Manned aircraft UAS platform cell.
- the determining the first mapping relationship between the first target identifier and the second target identifier includes: determining a first mapping relationship between the first target identifier and the second target identifier according to a preset protocol Mapping relations.
- the determining the first mapping relationship between the first target identifier and the second target identifier includes: receiving RRC signaling or MAC signaling sent by the network side, wherein the RRC signaling or all The MAC signaling includes the first target identifier and a second target identifier corresponding to the first target identifier.
- the determining of the first mapping relationship between the first target identifier and the second target identifier includes receiving physical layer signaling sent by the network side, wherein the physical layer signaling includes carrying a target identifier for the second target and the first target identifier corresponding to the resource allocation information.
- the resource configuration method further includes:
- Receive MAC signaling or physical layer signaling sent by the network side where the MAC signaling or physical layer signaling is used to indicate the second mapping between the first target identifier and the second target identifier used at the current moment relation.
- the resource configuration method further includes:
- a resource configuration apparatus is provided, and the resource configuration apparatus is applied to a terminal device, including:
- a determining module configured to determine a first mapping relationship between a first target identifier and a second target identifier, wherein the first target identifier includes at least one of the following: a QoS parameter identifier, a logical channel identifier, and a bearer identifier; the The second target identification includes at least one of the following: a cell type identification and a cell identification list; and
- a resource processing module configured to perform buffer status reporting BSR and/or uplink resource allocation according to the first mapping relationship.
- a terminal device including a memory, a transceiver and a processor, wherein
- transceiver for sending and receiving data under the control of the processor
- first target identifier includes at least one of the following: a QoS parameter identifier, a logical channel identifier, and a bearer identifier;
- second target identifier including at least one of the following: a cell type identification and a list of cell identifications;
- Buffer state reporting BSR and/or uplink resource allocation are performed according to the first mapping relationship.
- the cell type identification includes at least one of the following: terrestrial cells, satellite cells, low-orbit LEO satellite cells, medium-orbit MEO satellite cells, geosynchronous GEO satellite cells, high-orbit HEO satellite cells, and no Manned aircraft UAS platform cell.
- the determining the first mapping relationship between the first target identifier and the second target identifier includes determining the first mapping relationship between the first target identifier and the second target identifier according to a preset protocol a mapping relationship.
- the determining the first mapping relationship between the first target identifier and the second target identifier includes receiving RRC signaling or MAC signaling sent by the network side, wherein the RRC signaling or the MAC signaling Let include the first target identification and the second target identification corresponding to the first target identification.
- the determining the first mapping relationship between the first target identifier and the second target identifier includes receiving physical layer signaling sent by the network side, wherein the physical layer signaling includes: The resource allocation information of the second target identifier and the first target identifier corresponding to the resource allocation information.
- the processor is further configured to read a computer program in the memory and implement:
- Receive MAC signaling or physical layer signaling sent by the network side where the MAC signaling or physical layer signaling is used to indicate the second mapping between the first target identifier and the second target identifier used at the current moment relation.
- the processor is further configured to read a computer program in the memory and implement:
- a processor-readable storage medium where the processor-readable storage medium stores a computer program, and the computer program is used to cause the processor to execute the above-mentioned embodiment. Describes the resource allocation method.
- a computer program product includes computer program code, when the computer program code is run on a computer, to perform the resource configuration described in the above embodiments method.
- a computer program is provided, wherein the computer program includes computer program code, which, when executed on a computer, causes the computer to execute the resources described in the above embodiments configuration method.
- the resource configuration method, device, device, and storage medium proposed by the present disclosure have at least the following additional technical effects: determining a first mapping relationship between a first target identifier and a second target identifier, and performing buffer status according to the first mapping relationship Report BSR and/or uplink resource allocation. Therefore, this method can ensure that different services of the terminal can select appropriate cell types for transmission during air interface transmission, so as to better ensure the QoS of services and improve user experience. It should be understood that the content described in this section is not intended to identify Key or important features of the embodiments of the present disclosure are also not intended to limit the scope of the present disclosure. Other features of the present disclosure will become readily understood from the following description.
- FIG. 1 is a schematic diagram of a satellite communication scenario according to a first embodiment of the present disclosure
- FIG. 2 is a schematic flowchart of a resource configuration method according to a second embodiment of the present disclosure
- FIG. 3 is a schematic diagram of a resource configuration scenario according to a third embodiment of the present disclosure.
- FIG. 4 is a schematic diagram of a resource configuration scenario according to a fourth embodiment of the present disclosure.
- FIG. 5 is a schematic flowchart of a resource configuration method according to a fifth embodiment of the present disclosure.
- FIG. 6 is a schematic structural diagram of a resource configuration apparatus according to a sixth embodiment of the present disclosure.
- FIG. 7 is a schematic structural diagram of a resource configuration apparatus according to a seventh embodiment of the present disclosure.
- FIG. 8 is a schematic structural diagram of a resource configuration apparatus according to an eighth embodiment of the present disclosure.
- FIG. 9 is a block diagram of a terminal device used to implement the resource configuration method of the embodiment of the present disclosure.
- the term "and/or" describes the association relationship of associated objects, and indicates that there can be three kinds of relationships. For example, A and/or B can indicate that A exists alone, A and B exist at the same time, and B exists alone these three situations.
- the character “/” generally indicates that the associated objects are an "or" relationship.
- the term “plurality” refers to two or more than two, and other quantifiers are similar.
- the embodiments of the present disclosure provide a resource allocation method, apparatus, device, and storage medium, which are used to meet the requirements for resource allocation in a multi-connection scenario.
- the resource method in the embodiment of the present disclosure is applied to the terminal device side.
- the terminal device involved in the embodiment of the present disclosure may be a device that provides voice and/or data connectivity to a user, a handheld device with a wireless connection function, or a device connected to a wireless Other processing equipment for the modem, etc.
- the name of the terminal device may be different.
- the terminal device may be called user equipment (User Equipment, UE).
- Wireless terminal equipment can communicate with one or more core networks (Core Network, CN) via a radio access network (Radio Access Network, RAN).
- Core Network Core Network
- RAN Radio Access Network
- the wireless terminal device may also be referred to as a remote terminal device (remote terminal), an access terminal device (access terminal), or a user terminal device (user terminal), which is not limited in the embodiments of the present disclosure.
- connection scenarios in the embodiments of the present disclosure may include that the terminal simultaneously accesses different types of cells.
- satellite cells/high-altitude platforms it refers to a system that uses satellites or high-altitude platforms (such as drones) as intermediate nodes to forward communication signals.
- the satellite/high-altitude platform communication system can provide wireless access services for terminals.
- a schematic diagram of a typical satellite/high-altitude platform communication scenario is as follows.
- the involved links include: Service link, that is, the wireless link between the terminal and the satellite/high-altitude platform, Feeder link, that is, the satellite/high-altitude platform and gateway A wireless link between stations, an inter-satellite link (ISL), that is, a link between satellites/high-altitude platforms.
- Service link that is, the wireless link between the terminal and the satellite/high-altitude platform
- Feeder link that is, the satellite/high-altitude platform
- gateway A wireless link between stations
- ISL inter-satellite link
- satellites mentioned in the above embodiments mainly include several types shown in Table 1:
- FIG. 2 is a flowchart of a resource configuration method according to the first embodiment of the present disclosure. As shown in FIG. 2 , the resource configuration method includes step 201 and step 202 .
- Step 201 Determine a first mapping relationship between the first target identifier and the second target identifier.
- the first target identifier includes, but is not limited to, at least one of the following: a QoS (Quality of Service, quality of service) parameter identifier, a logical channel identifier, and a bearer identifier.
- QoS Quality of Service, quality of service
- the second target identifier includes, but is not limited to, at least one of the following: a cell type identifier and a list of cell identifiers.
- the cell type identifier includes but is not limited to at least one of the following: a terrestrial cell, a satellite cell, a Low Earth Orbit (LEO) satellite cell, a Medium Orbit Earth Satellite (MEO) ) satellite cell, Geostationary Earth Orbit (GEO) satellite cell, High Elliptical Orbit (HEO) satellite cell, Unmanned Aircraft Systems (UAS) platform cell.
- LEO Low Earth Orbit
- MEO Medium Orbit Earth Satellite
- GEO Geostationary Earth Orbit
- HEO High Elliptical Orbit
- UAS Unmanned Aircraft Systems
- the correspondence between the first target identifier and the second target identifier included in the first mapping relationship includes one or more of the following.
- the corresponding relationship between the first target identifier and the second target identifier is illustrated by taking the QoS parameter identifier as 5QI and the cell type as a terrestrial cell, a satellite cell, etc. as an example.
- the QoS parameter identifier as 5QI
- the cell type as a terrestrial cell, a satellite cell, etc. as an example.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- the first target identifier is the QoS parameter identifier 5QI
- the second target identifier is the cell type of the terrestrial cell and the cell type of the satellite cell.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the first target identifier is the QoS parameter identifier 5QI
- the second target identifier is the cell identifier list Cell list.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- the first target identifier is the logical channel identifier LCID
- the second target identifier is the cell type of the terrestrial cell and the satellite cell.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the first target identifier is the logical channel identifier LCID
- the second target identifier is the cell identifier list Cell list.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell type identifier.
- the first target identifier is the bearer identifier
- the second target identifier is the cell type of the terrestrial cell and the satellite cell.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- the first target identifier is the bearer identifier
- the second target identifier is the cell identifier list Cell list.
- Step 202 Perform buffer status reporting to BSR and/or uplink resource allocation according to the first mapping relationship.
- the first mapping relationship includes the first target identifier and the second target identifier required by the multi-connection scenario. Therefore, the buffer status reporting BSR (Buffer Status Reporting, buffer status reporting) and/or can be performed according to the first mapping relationship. or uplink resource allocation.
- BSR Buffer Status Reporting, buffer status reporting
- the following is an example to illustrate how to report the buffer status to the BSR and/or uplink resource allocation according to the first mapping relationship in combination with the specific scenarios in the collection, as follows:
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- the first target identifier is a logical channel identifier
- the second target identifier is a cell type identifier, wherein the cell type 1 is a terrestrial cell, and the cell type 2 is a satellite cell.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the first target identifier is a logical channel identifier
- the second target identifier is a cell identifier list, wherein each cell identifier list is a list of multiple cell identifiers, and each cell identifier list includes one or more cell identifiers.
- the logical channel identifies the cell identity that can be used.
- LCID 4 Cell list 1 ⁇ Cell 3,Cell 4 ⁇
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- the first target identifier is a QoS parameter identifier
- the second target identifier is a cell type identifier, wherein the cell type 1 is a terrestrial cell, and the cell type 2 is a satellite cell.
- the terminal needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the first target identifier is a QoS parameter identifier
- the second target identifier is a cell identifier list, wherein each cell identifier list is a list of multiple cell identifiers, and each cell identifier list includes one or more cell identifiers.
- the logical channel identifies the cell identity that can be used.
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- the QoS parameter identification of only allows the use of uplink resources allocated by cells in Cell list 2.
- the first mapping relationship includes a corresponding relationship between bearer identifiers and cell type identifiers.
- the first target identification is a bearer identification
- the second target identification is a cell type identification, wherein the cell type 1 is a terrestrial cell, and the cell type 2 is a satellite cell.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- the first target identifier is a bearer identifier
- the second target identifier includes a list of cell identifiers, wherein each cell identifier list is a list of multiple cell identifiers, and each cell identifier list includes one or more of the logic The cell ID that can be used for the channel ID.
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- the terminal device can determine the first mapping relationship between the first target identifier and the second target identifier, and report the buffer status to the BSR and/or uplink according to the first mapping relationship.
- Resource allocation The method can ensure that different services of the terminal can select appropriate cell types for transmission during air interface transmission, so as to better ensure the QoS of services and improve user experience.
- the manners of determining the first mapping relationship between the first target identifier and the second target identifier are different.
- the following description will be combined with different examples.
- the following embodiments involve network devices corresponding to the network side. , which may be a base station, and the base station may include a plurality of cells that serve the terminal equipment.
- the base station may also be called an access point, or may be a device in the access network that communicates with wireless terminal equipment through one or more sectors on the air interface, or other names.
- the network equipment can be used to exchange received air frames with Internet Protocol (IP) packets, and act as a router between the wireless terminal equipment and the rest of the access network, which can include the Internet. Protocol (IP) communication network.
- IP Internet Protocol
- the network devices may also coordinate attribute management for the air interface.
- the network device involved in the embodiments of the present disclosure may be a network device (Base Transceiver Station, BTS) in the Global System for Mobile Communications (GSM) or Code Division Multiple Access (Code Division Multiple Access, CDMA).
- BTS Base Transceiver Station
- GSM Global System for Mobile Communications
- CDMA Code Division Multiple Access
- a network device in Wide-band Code Division Multiple Access (WCDMA), or it can be an evolved network device in a long term evolution (LTE) system (evolutional Node B, eNB or e-NodeB), 5G base station (gNB) in 5G network architecture (next generation system), or Home evolved Node B (HeNB), relay node (relay node) , a home base station (femto), a pico base station (pico), etc., which are not limited in the embodiments of the present disclosure.
- LTE long term evolution
- gNB 5G base station
- HeNB Home evolved Node B
- relay node relay node
- a home base station femto
- pico pico base station
- a network device may include a centralized unit (CU) node and a distributed unit (DU) node, and the centralized unit and the distributed unit may also be geographically separated.
- the first mapping relationship between the first target identifier and the second target identifier is determined according to a preset protocol.
- a first mapping relationship between the first target identifier and the second target identifier is specified according to the protocol, and the first mapping relationship may refer to the foregoing embodiment.
- the RRC signaling or the MAC signaling sent by the network side is received, where the RRC signaling or the MAC signaling includes a first target identifier and a second target identifier corresponding to the first target identifier.
- the first mapping relationship between the first target identifier and the second target identifier may be determined.
- the RRC signaling or the MAC signaling may include: a logical channel identifier, a second target identifier corresponding to the logical channel identifier; a bearer identifier, a second target identifier corresponding to the bearer identifier; a QoS parameter identifier, and a QoS parameter identifier
- the parameter identifier corresponds to the second target identifier, and so on.
- the terminal device determines the first target identifier (eg, logical channel identifier, bearer identifier, etc.) and The first mapping relationship between the second target identifiers (cell types in the figure).
- the first target identifier eg, logical channel identifier, bearer identifier, etc.
- the network notifies the terminal of the first mapping relationship through RRC signaling or MAC signaling, wherein if the RRC signaling or MAC signaling includes: a logical channel identifier and a second target identifier corresponding to the logical channel identifier; Or the bearer identification and the second target identification corresponding to the bearer identification, it is assumed that RRC signaling is taken as an example, the second identification information may be carried in the LCH restriction corresponding to the logical channel identification or the bearer identification.
- the physical layer signaling sent by the network side is received, wherein the physical layer signaling includes: carrying resource allocation information for the second target identifier and a first target identifier corresponding to the resource allocation information.
- the resource allocation information for the second target identifier and a first target identifier corresponding to the resource allocation information.
- the logical channel identifier or bearer identifier corresponding to the resource allocation information etc.
- the first mapping relationship between the first target identifier and the second target identifier may be determined.
- the network side notifies the terminal device of the first mapping relationship between the first target identifier and the second target identifier in the form of physical layer signaling.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- the first mapping relationship between the QoS parameter identifier and the cell type identifier may be determined according to a preset protocol.
- RRC signaling or MAC signaling sent by the network side may also be received, wherein the RRC signaling or MAC signaling includes: a QoS parameter identifier and a cell type identifier corresponding to the QoS parameter identifier.
- physical layer signaling sent by the network side may also be received, where the physical layer signaling includes: resource allocation information carrying a cell type identifier and a QoS parameter identifier corresponding to the resource allocation information.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the first mapping relationship between the QoS parameter identifier and the cell identifier list may be determined according to a preset protocol.
- the RRC signaling or MAC signaling sent by the network side may also be received, wherein the RRC signaling or the MAC signaling includes: a QoS parameter identifier and a list of cell identifiers corresponding to the QoS parameter identifier.
- the physical layer signaling sent by the network side may also be received, wherein the physical layer signaling includes: resource allocation information carrying a list of cell identifiers and QoS parameter identifiers corresponding to the resource allocation information.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- the first mapping relationship between the logical channel identifier and the cell type identifier may be determined according to a preset protocol.
- RRC signaling or MAC signaling sent by the network side may also be received, where the RRC signaling or MAC signaling includes: a logical channel identifier and a cell type identifier corresponding to the logical channel identifier.
- the physical layer signaling sent by the network side may also be received, wherein the physical layer signaling includes: resource allocation information carrying a cell type identifier and a logical channel identifier corresponding to the resource allocation information.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the first mapping relationship between the logical channel identifier and the cell identifier list may be determined according to a preset protocol.
- RRC signaling or MAC signaling sent by the network side may also be received, wherein the RRC signaling or MAC signaling includes: a logical channel identifier and a list of cell identifiers corresponding to the logical channel identifier.
- the physical layer signaling sent by the network side may also be received, wherein the physical layer signaling includes: resource allocation information carrying a cell identity list and a logical channel identity corresponding to the resource allocation information.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell type identifier.
- the first mapping relationship between the bearer identifier and the cell type identifier may be determined according to a preset protocol.
- RRC signaling or MAC signaling sent by the network device may also be received, where the RRC signaling or MAC signaling includes: a bearer identification and a cell type identification corresponding to the bearer identification.
- the physical layer signaling sent by the network side may also be received, where the physical layer signaling includes: resource allocation information carrying a cell type identifier and a bearer identifier corresponding to the resource allocation information.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- the first mapping relationship between the bearer identifier and the cell identifier list may be determined according to a preset protocol.
- the RRC signaling or the MAC signaling sent by the network side may also be received, wherein the RRC signaling or the MAC signaling includes: a bearer identification and a list of cell identifications corresponding to the bearer identification.
- the physical layer signaling sent by the network side may also be received, where the physical layer signaling includes: resource allocation information carrying the cell identity list and bearer identity corresponding to the resource allocation information.
- the resource configuration method according to the embodiment of the present disclosure can flexibly select the determination method of the first mapping relationship according to the needs of the scenario, which ensures the practicability of the resource configuration method.
- the resource configuration method further includes step 501 and step 502 .
- Step 501 Receive signaling sent by the network side, where the signaling is used to indicate the second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the terminal device receives the MAC signaling or physical layer signaling sent by the network side, and the MAC signaling or The physical layer signaling is used to indicate the second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the terminal device receives the physical layer signaling sent by the network side, and the physical layer signaling is used to indicate The second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the network side further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through physical layer signaling.
- Step 502 Perform buffer status reporting to BSR and/or uplink resource allocation according to the second mapping relationship.
- the second mapping relationship includes the first target identifier and the second target identifier required by the multi-connection scenario. Therefore, buffer status reporting BSR (Buffer Status Reporting, buffer status reporting) and/or can be performed according to the second mapping relationship. or uplink resource allocation.
- buffer status reporting BSR Buffer Status Reporting, buffer status reporting
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- first target identifier second target identifier ... ... LCID 5 Terrestrial cell, satellite cell
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the network device further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through MAC signaling or physical layer signaling, and then the terminal device determines the second mapping relationship according to the second mapping relationship. Whether the LCID data is reported to the terrestrial cell or the satellite cell.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the network device further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through MAC signaling or physical layer signaling, and then the terminal device determines the mapping relationship according to the second mapping relationship. Whether the LCID data is reported to the cell corresponding to Cell list 1 or to the cell corresponding to Cell list 2.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- first target identifier second target identifier ... ... 5QI 5,7 Terrestrial cell, satellite cell
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the network device further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through MAC signaling or physical layer signaling, and then the terminal device determines the mapping relationship according to the second mapping relationship.
- 5QI 5,7 data is reported to the cell corresponding to Cell list 1 or to the cell corresponding to Cell list 2.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell type identifier.
- first target identifier second target identifier ... ... Bearer ID 5 ground area, ground area
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- each cell identifier list is a list of multiple cell identifiers, wherein each cell identifier list includes one or more cell identifiers that can be used by the bearer identifier.
- first target identifier second target identifier ... ... Bearer ID 5 Cell list 1 ⁇ Cell 3,Cell 4 ⁇ ;Cell list 2 ⁇ Cell 1,Cell 2 ⁇
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the resource configuration method may further indicate the first target identifier used at the current moment based on the relevant configuration information.
- the second mapping relationship between a target identifier and a second target identifier ensures flexibility and practicability of resource allocation in a connection scenario.
- FIG. 6 is a schematic structural diagram of a resource configuration apparatus according to an embodiment of the present disclosure.
- the resource configuration apparatus includes: a determination module 610 and a resource processing module 620 .
- the determining module 610 is configured to determine the first mapping relationship between the first target identifier and the second target identifier.
- the first target identifier includes at least one of the following: a QoS parameter identifier, a logical channel identifier, and a bearer identifier.
- the second target identifier includes at least one of the following: a cell type identifier and a cell identifier list.
- the resource processing module 620 is configured to perform buffer status reporting BSR and/or uplink resource allocation according to the first mapping relationship.
- the first target identifier includes at least one of the following: a QoS parameter identifier, a logical channel identifier, and a bearer identifier.
- the second target identifier includes at least one of the following: a cell type identifier and a cell identifier list.
- the cell type identifier includes at least one of the following: terrestrial cells, satellite cells, low-orbit LEO satellite cells, medium-orbit MEO satellite cells, geosynchronous GEO satellite cells, high-orbit HEO satellite cells, Unmanned aerial vehicle UAS platform cell.
- the determining module 610 is specifically configured to determine the first mapping relationship between the first target identifier and the second target identifier according to a preset protocol.
- the determining module 610 is specifically configured to receive RRC signaling or MAC signaling sent by the network side, where the RRC signaling or MAC signaling includes a first target identifier and a first target identifier corresponding to the first target identifier. Two target identification.
- the determining module 610 is specifically configured to receive physical layer signaling sent by the network side, where the physical layer signaling includes resource allocation information carrying the second target identifier and first resource allocation information corresponding to the resource allocation information. Target ID.
- the resource configuration apparatus includes: a determination module 710 and a resource processing module 720 and the first receiving module 730.
- the first receiving module 730 is configured to receive the MAC signaling or physical layer signaling sent by the network side, and the MAC signaling or physical layer signaling is used to indicate the second difference between the first target identifier and the second target identifier used at the current moment. Mapping relations.
- the determining module 710 is further configured to determine the second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the resource processing module 720 is further configured to perform buffer status reporting BSR and/or uplink resource allocation according to the second mapping relationship.
- the resource configuration apparatus includes: a determination module 810 and a resource processing module 820 , the second receiving module 830 .
- the second receiving module 830 is configured to receive the physical layer signaling sent by the network side, where the physical layer signaling is used to indicate the second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the determining module 810 is further configured to determine a second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the resource processing module 820 is further configured to perform buffer status reporting BSR and/or uplink resource allocation according to the second mapping relationship.
- each functional unit in each embodiment of the present disclosure may be integrated into one processing unit, or each unit may exist physically alone, or two or more units may be integrated into one unit.
- the above-mentioned integrated units may be implemented in the form of hardware, or may be implemented in the form of software functional units.
- the integrated unit is implemented in the form of a software functional unit and sold or used as an independent product, it may be stored in a processor-readable storage medium.
- the technical solutions of the present disclosure can be embodied in the form of software products in essence, or the part that contributes to the prior art, or all or part of the technical solutions, and the computer software product is stored in a storage medium , including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor to execute all or part of the steps of the resource configuration methods described in the various embodiments of the present disclosure.
- the aforementioned storage medium includes: 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 codes .
- the present disclosure also proposes a terminal device, as shown in FIG. 9 , the terminal device includes a memory 910 , a transceiver 920 and a processor 930 .
- the transceiver 920 is used to receive and transmit data under the control of the processor 930 .
- the bus architecture may include any number of interconnected buses and bridges, in particular one or more processors represented by processor 930 and various circuits of memory represented by memory 910 linked together.
- the bus architecture may also link together various other circuits, such as peripherals, voltage regulators, and power management circuits, which are well known in the art and, therefore, will not be described further herein.
- the bus interface provides the interface.
- Transceiver 920 may be multiple elements, ie, including a transmitter and a receiver, providing means for communicating with various other devices over transmission media including wireless channels, wired channels, fiber optic cables, and the like.
- the processor 930 is responsible for managing the bus architecture and general processing, and the memory 910 may store data used by the processor 930 in performing operations.
- the processor 930 may be a central processor (CPU), an application-specific integrated circuit (ASIC), a field-programmable gate array (FPGA), or a complex programmable logic device (Complex Programmable Logic Device). , CPLD), the processor can also use a multi-core architecture.
- CPU central processor
- ASIC application-specific integrated circuit
- FPGA field-programmable gate array
- CPLD complex programmable logic device
- the processor can also use a multi-core architecture.
- the processor By invoking the computer program stored in the memory, the processor is configured to execute any of the resource configuration methods provided by the embodiments of the present disclosure according to the obtained executable instructions.
- the processor and memory may also be physically separated.
- the processor is configured to read the computer program in the memory and perform the following operations: determine a first mapping relationship between a first target identifier and a second target identifier, wherein the first target identifier It includes at least one of the following: a QoS parameter identification, a logical channel identification and a bearer identification, and the second target identification includes at least one of the following: a cell type identification and a cell identification list; Buffer status reports BSR and/or uplink resource allocation.
- the correspondence between the first target identifier and the second target identifier included in the first mapping relationship in different application scenarios includes one or more of the following:
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- the first mapping relationship is shown in Table 2, wherein 5QI in Table 2 is a QoS parameter identifier, and a terrestrial cell and a satellite cell are cell types.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the first mapping relationship is shown in Table 3, where 5QI is the QoS parameter identifier, and Cell list is the cell identifier list.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- the first mapping relationship is shown in Table 4, where LCID is a logical channel identifier, and terrestrial cells and satellite cells are cell types.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the first mapping relationship is shown in Table 5, where LCID is a logical channel identifier, and Cell list is a cell identifier list.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell type identifier.
- the first mapping relationship is shown in Table 6, wherein the terrestrial cell and the satellite cell are cell types.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- the first mapping relationship is shown in Table 7, where Cell list is a cell identification list.
- the first mapping relationship includes the first target identifier and the second target identifier required by the multi-connection scenario. Therefore, the buffer status reporting BSR (Buffer Status Reporting, buffer status reporting) and/or can be performed according to the first mapping relationship. or uplink resource allocation.
- BSR Buffer Status Reporting, buffer status reporting
- the following is an example to illustrate how to report the buffer status to the BSR and/or uplink resource allocation according to the first mapping relationship in combination with the specific scenarios in the collection, as follows:
- buffer status reporting BSR and uplink resource allocation are performed according to the first mapping relationship.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- the first target identifier is a logical channel identifier
- the second target identifier is a cell type identifier, wherein the cell type 1 is a terrestrial cell, and the cell type 2 is a satellite cell.
- buffer status reporting BSR and uplink resource allocation are performed according to the first mapping relationship.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the first target identifier is a logical channel identifier
- the second target identifier is a cell identifier list, wherein each cell identifier list may be a list of multiple cell identifiers, and each cell identifier list includes one or more This logical channel identifies the cell identity that can be used.
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- buffer status reporting BSR and uplink resource allocation are performed according to the first mapping relationship.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- the first target identifier is a QoS parameter identifier
- the second target identifier is a cell type identifier, wherein the cell type 1 is a terrestrial cell, and the cell type 2 is a satellite cell.
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- buffer status reporting BSR and uplink resource allocation are performed according to the first mapping relationship.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the first target identifier is a QoS parameter identifier
- the second target identifier is a cell identifier list, wherein each cell identifier list is a list of multiple cell identifiers, and each cell identifier list includes one or more cell identifiers.
- the logical channel identifies the cell identity that can be used.
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- the QoS parameter identification of only allows the use of uplink resources allocated by cells in Cell list 2.
- the buffer status reporting BSR and uplink resource allocation are performed according to the first mapping relationship.
- the first mapping relationship includes a corresponding relationship between a bearer identifier and a cell type identifier.
- the first target identification is a bearer identification
- the second target identification is a cell type identification, wherein the cell type 1 is a terrestrial cell, and the cell type 2 is a satellite cell.
- buffer status reporting BSR and uplink resource allocation are performed according to the first mapping relationship.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- the first target identifier is a bearer identifier
- the second target identifier includes a list of cell identifiers, wherein each cell identifier list is a list of multiple cell identifiers, and each cell identifier list includes one or more of the logic The cell ID that can be used for the channel ID.
- the terminal device needs to consider the first mapping relationship between the first target identifier and the second target identifier when performing uplink resource allocation.
- the terminal device can determine the first mapping relationship between the first target identifier and the second target identifier, and report the buffer status to the BSR and/or uplink according to the first mapping relationship.
- Resource allocation The method can ensure that different services of the terminal can select appropriate cell types for transmission during air interface transmission, so as to better ensure the QoS of services and improve user experience.
- the manner in which the processor determines the first mapping relationship between the first target identifier and the second target identifier is different, and is described below in conjunction with different examples, and the examples are described as follows:
- the processor determines the first mapping relationship between the first target identifier and the second target identifier according to a preset protocol.
- the processor receives RRC signaling or MAC signaling sent by the network side, where the RRC signaling or MAC signaling includes: a first target identifier and a second target identifier corresponding to the first target identifier.
- the processor receives physical layer signaling sent by the network side, where the physical layer signaling includes: resource allocation information carrying the second target identifier and a first target identifier corresponding to the resource allocation information, for example, a resource The logical channel identifier or bearer identifier corresponding to the allocation information, etc.
- the processor needs to The scene further determines the correspondence between the first target identifier and the second identifier.
- the processor receives MAC signaling or physical layer signaling sent by the network side, and the MAC signaling or physical layer signaling is used to indicate the first used at the current moment.
- the processor receives the physical layer signaling sent by the network side, and the physical layer signaling is used to indicate The second mapping relationship between the first target identifier and the second target identifier used at the current moment.
- the second mapping relationship includes the first target identifier and the second target identifier required by the multi-connection scenario. Therefore, buffer status reporting BSR (Buffer Status Reporting, buffer status reporting) and/or can be performed according to the second mapping relationship. or uplink resource allocation.
- buffer status reporting BSR Buffer Status Reporting, buffer status reporting
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell type identifier.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the network device further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through MAC signaling or physical layer signaling, and then the terminal device determines the mapping relationship according to the second mapping relationship. Whether the LCID data is reported to the terrestrial cell or the satellite cell.
- the first mapping relationship includes the corresponding relationship between the logical channel identifier and the cell identifier list.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the network device further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through MAC signaling or physical layer signaling, and then the terminal device determines the mapping relationship according to the second mapping relationship. Whether the LCID data is reported to the cell corresponding to Cell list 1 or to the cell corresponding to Cell list 2.
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell type identifier.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the first mapping relationship includes the corresponding relationship between the QoS parameter identifier and the cell identifier list.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the network device further indicates the second mapping relationship between the first target identifier and the second target identifier used at the current moment through MAC signaling or physical layer signaling, and then the terminal device determines the mapping relationship according to the second mapping relationship.
- 5QI 5,7 data is reported to the cell corresponding to Cell list 1 or to the cell corresponding to Cell list 2.
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell type identifier.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the first mapping relationship includes the corresponding relationship between the bearer identifier and the cell identifier list.
- each cell identifier list is a list of multiple cell identifiers, wherein each cell identifier list includes one or more cell identifiers that can be used by the bearer identifier.
- the confirmation method of the corresponding second mapping relationship may adopt the following two methods:
- the processor of the embodiment of the present disclosure can ensure that different services of the terminal can select appropriate cell types for transmission during air interface transmission, so as to better ensure the QoS of services and improve user experience.
- the present disclosure further provides a processor-readable storage medium, where the processor-readable storage medium stores a computer program, and the computer program is used to cause the processor to execute the descriptions in the above-mentioned embodiments. resource allocation method.
- the processor-readable storage medium can be any available medium or data storage device that can be accessed by a processor, including, but not limited to, magnetic storage (eg, floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.), optical storage (eg, CD, DVD, BD, HVD, etc.) and semiconductor memory (eg ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid-state disk (SSD)), etc.
- magnetic storage eg, floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.
- optical storage eg, CD, DVD, BD, HVD, etc.
- semiconductor memory eg ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid-state disk (SSD)
- the present disclosure also proposes a computer program product, wherein the computer program product includes computer program codes, when the computer program codes are run on a computer, to perform the resource configuration described in the above embodiments method.
- the present disclosure also proposes a computer program, wherein the computer program includes computer program codes, when the computer program codes are run on a computer, so that the computer executes the resource configuration described in the above embodiments method.
- embodiments of the present disclosure may be provided as a method, system, or computer program product. Accordingly, the present disclosure may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present disclosure may take the form of a computer program product embodied on one or more computer-usable storage media having computer-usable program code embodied therein, including but not limited to disk storage, optical storage, and the like.
- processor-executable instructions may also be stored in a processor-readable memory capable of directing a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the processor-readable memory result in the manufacture of means comprising the instructions product, the instruction means implements the functions specified in the flow or flow of the flowchart and/or the block or blocks of the block diagram.
- processor-executable instructions can also be loaded onto a computer or other programmable data processing device to cause a series of operational steps to be performed on the computer or other programmable device to produce a computer-implemented process that The executed instructions provide steps for implementing the functions specified in the flow diagram flow or flow diagrams and/or the block diagram block or blocks.
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Abstract
Description
第一目标标识 | 第二目标标识 |
5QI=1,2,3 | 地面小区 |
5QI=4,6 | 卫星小区 |
5QI=5,7 | 卫星小区 |
第一目标标识 | 第二目标标识 |
5QI=1,2,3 | Cell list 1{Cell 1,Cell 2} |
5QI=4,6 | Cell list 2{Cell 3,Cell 4} |
5QI=5,7 | Cell list 1{Cell 1,Cell 2} |
第一目标标识 | 第二目标标识 |
LCID=1 | 地面小区 |
LCID=2 | 卫星小区 |
LCID=3 | 卫星小区 |
第一目标标识 | 第二目标标识 |
LCID=1 | Cell list 1{Cell 1,Cell 2} |
LCID=2 | Cell list 2{Cell 3,Cell 4} |
LCID=3 | Cell list 1{Cell 1,Cell 2} |
第一目标标识 | 第二目标标识 |
承载标识=1 | 地面小区 |
承载标识=2 | 卫星小区 |
承载标识=3 | 卫星小区 |
第一目标标识 | 第二目标标识 |
承载标识=1 | Cell list 1{Cell 1,Cell 2} |
承载标识=2 | Cell list 2{Cell 3,Cell 4} |
承载标识=3 | Cell list 1{Cell 1,Cell 2} |
第一目标标识 | 第二目标标识 |
LCID=1 | 地面小区 |
LCID=2 | 卫星小区 |
LCID=3 | 卫星小区 |
LCID=4 | 地面小区 |
第一目标标识 | 第二目标标识 |
LCID=1 | Cell list 1{Cell 1,Cell 2} |
LCID=2 | Cell list 2{Cell 3,Cell 4} |
LCID=3 | Cell list 2{Cell 1,Cell 2} |
LCID=4 | Cell list 1{Cell 3,Cell 4} |
第一目标标识 | 第二目标标识 |
5QI=1,2,3 | 地面小区 |
5QI=4,6 | 卫星小区 |
第一目标标识 | 第二目标标识 |
5QI=1,2,3 | Cell list 1{Cell 1,Cell 2} |
5QI=4 | Cell list 2{Cell 3,Cell 4} |
5QI=6 | Cell list 2{Cell 1,Cell 2} |
第一目标标识 | 第二目标标识 |
承载标识=1 | 地面小区 |
承载标识=2 | 卫星小区 |
承载标识=3 | 卫星小区 |
承载标识=4 | 地面小区 |
第一目标标识 | 第二目标标识 |
承载标识=1 | Cell list 1{Cell 1,Cell 2} |
承载标识=2 | Cell list 2{Cell 3,Cell 4} |
承载标识=3 | Cell list 2{Cell 1,Cell 2} |
承载标识=4 | Cell list 1{Cell 3,Cell 4} |
第一目标标识 | 第二目标标识 |
… | … |
LCID=5 | 地面小区、卫星小区 |
第一目标标识 | 第二目标标识 |
… | … |
LCID=5 | Cell list 1{Cell 3,Cell 4};Cell list 2{Cell 1,Cell 2} |
第一目标标识 | 第二目标标识 |
… | … |
5QI=5,7 | 地面小区、卫星小区 |
第一目标标识 | 第二目标标识 |
… | … |
5QI=5,7 | Cell list 1{Cell 3,Cell 4};Cell list 2{Cell 1,Cell 2} |
第一目标标识 | 第二目标标识 |
… | … |
承载标识=5 | 地面小区、地面小区 |
第一目标标识 | 第二目标标识 |
… | … |
承载标识=5 | Cell list 1{Cell 3,Cell 4};Cell list 2{Cell 1,Cell 2} |
Claims (18)
- 一种资源配置方法,应用于终端设备,其中所述资源配置方法包括:确定第一目标标识和第二目标标识之间的第一映射关系,其中,所述第一目标标识包括QoS参数标识、逻辑信道标识、承载标识中的至少一种;所述第二目标标识包括小区类型标识、小区标识列表的至少一种;根据所述第一映射关系进行缓冲区状态上报BSR和/或上行资源分配。
- 如权利要求1所述的资源配置方法,其中所述小区类型标识包括以下中的至少一种:地面小区、卫星小区、低轨道LEO卫星小区、中轨道MEO卫星小区、地球同步GEO卫星小区、高轨道HEO卫星小区、无人驾驶飞机UAS平台小区。
- 如权利要求1或2所述的资源配置方法,其中,所述确定第一目标标识和第二目标标识之间的第一映射关系,包括:根据预设协议确定所述第一目标标识和所述第二目标标识之间的所述第一映射关系。
- 如权利要求1或2所述的资源配置方法,其中,所述确定第一目标标识和第二目标标识之间的第一映射关系,包括:接收网络侧发送的RRC信令或MAC信令,其中,所述RRC信令或MAC信令包括第一目标标识和与所述第一目标标识对应的第二目标标识。
- 如权利要求1或2所述的资源配置方法,其中,所述确定第一目标标识和所述第二目标标识之间的第一映射关系,包括:接收网络侧发送的物理层信令,其中,所述物理层信令包括携带针对第二目标标识的资源分配信息和与所述资源分配信息对应的第一目标标识。
- 如权利要求4所述的资源配置方法,其中,基于所述网络侧使用所述RRC信令,且第一目标标识对应多个所述第二目标标识,所述资源配置方法还包括:接收网络侧发送的MAC信令或者物理层信令,所述MAC信令或者物理层信令用于指示当前时刻使用的所述第一目标标识和所述第二目标标识之间的第二映射关系。
- 如权利要求4所述的资源配置方法,其中基于所述网络侧使用所述MAC信令,且第一目标标识对应多个所述第二目标标识,所述资源配置方法还包括:接收网络侧发送的物理层信令,所述物理层信令用于指示当前时刻使用的所述第一目标标识和所述第二目标标识之间的第二映射关系。
- 一种资源配置装置,其中,所述资源配置装置应用于终端设备,包括:确定模块,用于确定第一目标标识和第二目标标识之间的第一映射关系,其中所述第一目标标识包括以下中的至少一种:QoS参数标识、逻辑信道标识和承载标识;所述第二目标标识包括以下中的至少一种:小区类型标识和小区标识列表;和资源处理模块,用于根据所述第一映射关系进行缓冲区状态上报BSR和/或上行资源分配。
- 一种终端设备,包括存储器、收发机和处理器,其中所述存储器用于存储计算机程序;所述收发机用于在所述处理器的控制下收发数据;所述处理器用于读取所述存储器中的计算机程序并执行以下操作:确定第一目标标识和第二目标标识之间的第一映射关系,其中所述第一目标标识包括以下中的至少一种:QoS参数标识、逻辑信道标识和承载标识;所述第二目标标识包括以下中的至少一种:小区类型标识和小区标识列表;和根据所述第一映射关系进行缓冲区状态上报BSR和/或上行资源分配。
- 如权利要求9所述的终端设备,其中所述小区类型标识包括以下中的至少一种:地面小区、卫星小区、低轨道LEO卫星小区、中轨道MEO卫星小区、地球同步GEO卫星小区、高轨道HEO卫星小区和无人驾驶飞机UAS平台小区。
- 如权利要求9或10所述的终端设备,其中,所述处理器还用于读取所述存储器中的计算机程序并执行以下操作:根据预设协议确定所述第一目标标识和所述第二目标标识之间的所述第一映射关系。
- 如权利要求9或10所述的终端设备,其中,所述处理器还用于读取所述存储器中的计算机程序并执行以下操作:接收网络侧发送的RRC信令或MAC信令,其中所述RRC信令或所述MAC信令包括所述第一目标标识和与所述第一目标标识对应的第二目标标识。
- 如权利要求9或10所述的终端设备,其中,所述处理器还用于读取所述存储器中的计算机程序并执行以下操作:接收网络侧发送的物理层信令,其中所述物理层信令包括携带针对所述第二目标标识的资源分配信息和与所述资源分配信息对应的第一目标标识。
- 如权利要求12所述的终端设备,其中基于所述网络侧使用RRC信令,且第一目标标识对应多个第二目标标识,所述处理器还用于读取所述存储器中的计算机程序并执行以下操作:接收网络侧发送的MAC信令或者物理层信令,所述MAC信令或者物理层信令用于指示当前时刻使用的所述第一目标标识和所述第二目标标识之间的第二映射关系。
- 如权利要求12所述的终端设备,其中基于所述网络侧使用MAC信令,且第一目标标识对应多个第二目标标识,所述处理器还用于读取所述存储器中的计算机程序并执行以下操作:接收网络侧发送的物理层信令,所述物理层信令用于指示当前时刻使用的所述第一目标标识和所述第二目标标识之间的第二映射关系。
- 一种处理器可读存储介质,其中所述处理器可读存储介质存储有计算机程序,所述计算机程序用于使所述处理器执行权利要求1至7中任一项所述的资源配置方法。
- 一种计算机程序产品,其中所述计算机程序产品包括计算机程序代码,当所述计算机程序代码在计算机上运行时,以执行如权利要求1至7中任一项所述的资源配置方法。
- 一种计算机程序,其中所述计算机程序包括计算机程序代码,当所述计算机程序代码在计算机上运行时,以使得计算机执行如权利要求1至7中任一项所述的资源配置方法。
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CN107295562A (zh) * | 2016-04-01 | 2017-10-24 | 中兴通讯股份有限公司 | 资源配置方法、装置及系统、ue和基站 |
US20180368133A1 (en) * | 2017-06-15 | 2018-12-20 | Samsung Electronics Co., Ltd. | Method and apparatus for an uplink transmission based on a characteristic of physical resources |
CN110972257A (zh) * | 2018-09-29 | 2020-04-07 | 华为技术有限公司 | 通信方法、相关设备及计算机存储介质 |
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