WO2023197188A1 - 信息传输方法、装置、通信设备和存储介质 - Google Patents

信息传输方法、装置、通信设备和存储介质 Download PDF

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Publication number
WO2023197188A1
WO2023197188A1 PCT/CN2022/086463 CN2022086463W WO2023197188A1 WO 2023197188 A1 WO2023197188 A1 WO 2023197188A1 CN 2022086463 W CN2022086463 W CN 2022086463W WO 2023197188 A1 WO2023197188 A1 WO 2023197188A1
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Prior art keywords
bandwidth
capability
threshold
type
less
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PCT/CN2022/086463
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English (en)
French (fr)
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牟勤
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北京小米移动软件有限公司
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Priority to CN202280001157.9A priority Critical patent/CN117242724A/zh
Priority to PCT/CN2022/086463 priority patent/WO2023197188A1/zh
Publication of WO2023197188A1 publication Critical patent/WO2023197188A1/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
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • H04L1/18Automatic repetition systems, e.g. Van Duuren systems
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation

Definitions

  • the present application relates to the field of wireless communication technology but is not limited to the field of wireless communication technology, and in particular, to information transmission methods, devices, communication equipment and storage media.
  • a reduced capability user equipment is designed in the New Radio (NR, New Radio) to cover the requirements of mid-range IoT equipment, referred to as NR-lite or Redcap UE.
  • NR-lite New Radio
  • Redcap UE mid-range IoT equipment
  • This type of equipment is similar to IoT equipment in Long Term Evolution (LTE).
  • 5G-based NR-lite usually needs to meet the following requirements:
  • Some terminals are (1 receiving antenna) 1RX, some are (2 receiving antennas) 2RX.
  • embodiments of the present disclosure provide an information transmission method, device, communication device, and storage medium.
  • an information transmission method is provided, which is executed by a base station, wherein the method includes:
  • Receive bandwidth capability information reported by the first type capability simplified user equipment UE wherein the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type capability simplified UE, wherein the first bandwidth The processing capability is less than or equal to a first bandwidth threshold, wherein the first bandwidth threshold is less than the second bandwidth threshold that the second type of simplified capability UE can support, wherein the first bandwidth processing capability is used to determine the first Class capabilities simplify the maximum bandwidth that a UE can allocate to a data channel.
  • the bandwidth capability information is also used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the bandwidth capability information is also used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the control channel;
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the reference signal;
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the method further includes:
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • an information transmission method is provided, which is performed by user equipment UE simplified by the first type of capability, and the method includes:
  • bandwidth capability information is at least used to indicate: the first type of capability simplifies the first bandwidth processing capability of the UE, where the first bandwidth processing capability is less than or equal to the first bandwidth Threshold, wherein the first bandwidth threshold is less than the second bandwidth threshold that the second type of simplified capability UE can support, wherein the first bandwidth processing capability is used to determine that the first type of simplified capability UE can be allocated to data The maximum bandwidth of the channel.
  • the bandwidth capability information is also used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the bandwidth capability information is also used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the control channel;
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the reference signal;
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the method further includes:
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • an information transmission device wherein the device includes:
  • the first transceiver module is configured to receive bandwidth capability information reported by the first type of simplified capability user equipment UE, where the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type of simplified capability UE, Wherein, the first bandwidth processing capability is less than or equal to a first bandwidth threshold, wherein the first bandwidth threshold is less than a second bandwidth threshold that the second type of capability simplified UE can support, wherein the first bandwidth processing capability, It is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the data channel.
  • the bandwidth capability information is also used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the bandwidth capability information is also used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the control channel;
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the reference signal;
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the device further includes:
  • a processing module configured to configure, based on the bandwidth capability information, the transmission resources of the simplified UE for the first type of capability
  • the first transceiver module is further configured to send resource configuration information indicating the transmission resources to the first type of simplified capability UE.
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • an information transmission device wherein the device includes:
  • the second transceiver module is configured to report bandwidth capability information to the base station, where the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type capability simplified user equipment UE, where the first bandwidth processing capability The capability is less than or equal to a first bandwidth threshold, wherein the first bandwidth threshold is less than the second bandwidth threshold that the simplified UE of the second type of capability can support, wherein the first bandwidth processing capability is used to determine the first type of capability. Capability simplifies the maximum bandwidth that a UE can allocate to a data channel.
  • the bandwidth capability information is also used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the bandwidth capability information is also used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the control channel;
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the reference signal;
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the second transceiver module is further configured to receive resource configuration information from the base station, where the resource configuration information is used to indicate transmission resources for the first type of simplified UE, where , the resource configuration information is determined by the base station based on the bandwidth capability information;
  • the second transceiver module is also configured to obtain the predefined resource configuration information.
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • a communication equipment device including a processor, a memory, and an executable program stored on the memory and capable of being run by the processor, wherein the processor runs the executable program.
  • the program When the program is executed, the steps of the information transmission method described in the first aspect or the second aspect are performed.
  • a storage medium on which an executable program is stored, wherein when the executable program is executed by a processor, the information transmission method as described in the first aspect or the second aspect is implemented. A step of.
  • Embodiments of the present disclosure provide information transmission methods, devices, communication equipment and storage media.
  • the base station receives the bandwidth capability information reported by the first type of simplified capability UE, where the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type of simplified capability UE, where the first bandwidth processing The capability is less than or equal to the first bandwidth threshold, wherein the first bandwidth threshold is less than the second bandwidth threshold that the simplified UE of the second type of capability can support, wherein the first bandwidth processing capability is used to determine the first type of capability.
  • Capability simplifies the maximum bandwidth that a UE can allocate to a data channel.
  • the simplified first-type capability UE indicates its first bandwidth processing capability to the base station through the bandwidth capability information, and the base station configures the data channel resources of the simplified first-type capability UE. Furthermore, the first type of capability simplified UE can perform data channels with relatively smaller bandwidth processing capabilities than other types of UEs, reducing workload and thereby saving power.
  • Figure 1 is a schematic structural diagram of a wireless communication system according to an exemplary embodiment
  • Figure 2 is a schematic flow chart of an information transmission method according to an exemplary embodiment
  • Figure 3 is a schematic flowchart of another information transmission method according to an exemplary embodiment
  • Figure 4 is a schematic diagram of a frequency domain resource configuration according to an exemplary embodiment
  • Figure 5 is a schematic diagram of another frequency domain resource configuration according to an exemplary embodiment
  • Figure 6 is a schematic diagram of yet another frequency domain resource configuration according to an exemplary embodiment
  • Figure 7 is a schematic flowchart of yet another information transmission method according to an exemplary embodiment
  • Figure 8 is a schematic flowchart of yet another information transmission method according to an exemplary embodiment
  • Figure 9 is a block diagram of an information transmission device according to an exemplary embodiment
  • Figure 10 is a block diagram of another information transmission device according to an exemplary embodiment
  • FIG. 11 is a block diagram of an apparatus for information transmission according to an exemplary embodiment.
  • first, second, third, etc. may be used to describe various information in the embodiments of the present disclosure, the information should not be limited to these terms. These terms are only used to distinguish the same type of information from each other.
  • first information may also be called second information, and similarly, the second information may also be called first information.
  • word “if” as used herein may be interpreted as "when” or “when” or “in response to determining.”
  • FIG. 1 shows a schematic structural diagram of a wireless communication system provided by an embodiment of the present disclosure.
  • the wireless communication system is a communication system based on cellular mobile communication technology.
  • the wireless communication system may include several terminals 11 and several base stations 12 .
  • the terminal 11 may be a device that provides voice and/or data connectivity to the user.
  • Terminal 11 can communicate with one or more core networks via a Radio Access Network (RAN).
  • RAN Radio Access Network
  • Terminal 11 can be an Internet of Things terminal, such as a sensor device, a mobile phone (or "cellular" phone) and a device with The computer of the Internet of Things terminal, for example, can be a fixed, portable, pocket-sized, handheld, computer-built-in or vehicle-mounted device.
  • station STA
  • subscriber unit subscriber unit
  • subscriber station subscriber station
  • mobile station mobile station
  • remote station remote station
  • access terminal remote terminal
  • user terminal user agent, user device, or user equipment (UE).
  • UE user equipment
  • the terminal 11 may be a device of an unmanned aerial vehicle.
  • the terminal 11 may also be a vehicle-mounted device, for example, it may be an on-board computer with a wireless communication function, or a wireless communication device connected to an external on-board computer.
  • the terminal 11 may also be a roadside device, for example, it may be a streetlight, a signal light or other roadside device with wireless communication function.
  • the base station 12 may be a network-side device in a wireless communication system.
  • the wireless communication system can be the 4th generation mobile communication technology (the 4th generation mobile communication, 4G) system, also known as the Long Term Evolution (LTE) system; or the wireless communication system can also be a 5G system, Also called new radio (NR) system or 5G NR system.
  • the wireless communication system may also be a next-generation system of the 5G system.
  • the access network in the 5G system can be called NG-RAN (New Generation-Radio Access Network).
  • MTC system New Generation-Radio Access Network
  • the base station 12 may be an evolved base station (eNB) used in the 4G system.
  • the base station 12 may also be a base station (gNB) that adopts a centralized distributed architecture in the 5G system.
  • eNB evolved base station
  • gNB base station
  • the base station 12 adopts a centralized distributed architecture it usually includes a centralized unit (central unit, CU) and at least two distributed units (distributed unit, DU).
  • the centralized unit is equipped with a protocol stack including the Packet Data Convergence Protocol (PDCP) layer, the Radio Link Control protocol (Radio Link Control, RLC) layer, and the Media Access Control (Media Access Control, MAC) layer; distributed
  • PDCP Packet Data Convergence Protocol
  • RLC Radio Link Control
  • MAC Media Access Control
  • the unit is provided with a physical (Physical, PHY) layer protocol stack, and the embodiment of the present disclosure does not limit the specific implementation of the base station 12.
  • a wireless connection can be established between the base station 12 and the terminal 11 through a wireless air interface.
  • the wireless air interface is a wireless air interface based on the fourth generation mobile communication network technology (4G) standard; or the wireless air interface is a wireless air interface based on the fifth generation mobile communication network technology (5G) standard, such as
  • the wireless air interface is a new air interface; alternatively, the wireless air interface may also be a wireless air interface based on the next generation mobile communication network technology standard of 5G.
  • an E2E (End to End) connection can also be established between terminals 11.
  • V2V vehicle to vehicle, vehicle to vehicle
  • V2I vehicle to infrastructure, vehicle to roadside equipment
  • V2P vehicle to pedestrian, vehicle to person
  • the above-mentioned wireless communication system may also include a network management device 13.
  • the network management device 13 may be a core network device in a wireless communication system.
  • the network management device 13 may be a mobility management entity (Mobility Management Entity) in an evolved packet core network (Evolved Packet Core, EPC). MME).
  • the network management device can also be other core network devices, such as serving gateway (Serving GateWay, SGW), public data network gateway (Public Data Network GateWay, PGW), policy and charging rules functional unit (Policy and Charging Rules) Function, PCRF) or Home Subscriber Server (Home Subscriber Server, HSS), etc.
  • serving gateway Serving GateWay, SGW
  • public data network gateway Public Data Network GateWay, PGW
  • Policy and Charging Rules Policy and Charging Rules
  • PCRF Policy and Charging Rules
  • HSS Home Subscriber Server
  • RedCap UE introduced in 3GPP Release 17 is mainly targeted at medium-speed applications.
  • the maximum bandwidth of RedCap UE under FR1 is 20MHz.
  • the applicable bandwidth of RedCap UE has been further reduced.
  • RedCAP UE that further reduces the bandwidth usage is called Enhanced RedCap UE
  • this exemplary embodiment provides an information transmission method, which can be performed by a base station of a cellular mobile communication system, including:
  • Step 201 Receive bandwidth capability information reported by the first type of simplified capability user equipment UE, where the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type of simplified capability UE, where the The first bandwidth processing capability is less than or equal to the first bandwidth threshold, wherein the first bandwidth threshold is less than the second bandwidth threshold that the simplified UE of the second type of capability can support, wherein the first bandwidth processing capability is used to determine the The first type of capability described above simplifies the maximum bandwidth that a UE can allocate to a data channel.
  • the first type of simplified capability UE can report the type of the first type of simplified capability UE through bandwidth capability information, so that the base station can learn the first bandwidth processing capability and the first type of simplified capability of the first type of capability UE. /or first bandwidth threshold.
  • the first type of capability-simplified UE may be enhanced (Enhanced) RedCap UE, and enhanced RedCap UE may be referred to as eRedCap UE.
  • the second type of capability simplified UE can be RedCap UE in 3GPP Release 17 (R17).
  • the second type of capability simplifies the bandwidth processing capability of the UE's radio frequency transceiver and baseband processing module in the FR1 (Sub-6GHz) frequency band to 20MHz.
  • the maximum bandwidth supported by the simplified second type capability UE is 20 MHz.
  • the first type of simplified capability UE may have a lower baseband processing bandwidth and/or radio frequency processing bandwidth than the second type of simplified capability UE. In this way, the first type of simplified capability UE can save resources and power when performing data communication compared to the second type of simplified capability UE.
  • the bandwidth processing capability (which may also be referred to as the maximum bandwidth) that the simplified second type capability UE can support is 5 MHz.
  • the first type of simplified capability UE may send bandwidth capability information to the base station during the process of accessing the base station and/or after accessing the base station.
  • the second type of simplified capability UE may send bandwidth capability information to the base station during and/or after accessing the base station.
  • the first type of capability simplifies the maximum bandwidth that the UE can allocate to the data channel, which may include but is not limited to: the first type of capability simplifies the maximum bandwidth that the baseband of the UE can allocate to the data channel.
  • the first type of capability simplifies the maximum bandwidth that a UE can allocate to a data channel, which may include but is not limited to: the first type of capability simplifies the maximum bandwidth that a UE can allocate to a data channel.
  • the data channel may include but is not limited to: a service data channel.
  • Data channels can be used to transmit communication service data.
  • the data channel may include, but is not limited to: Physical Downlink Shared CHannel (PDSCH), and/or Physical Uplink Shared CHannel (PDSCH).
  • the first type of capability simplifies the maximum bandwidth that the UE can allocate to the data channel, which may be equal to the first bandwidth processing capability, or may be smaller than the first bandwidth processing capability. Or, the maximum bandwidth that the first type capability simplified UE can allocate to the data channel is less than or equal to the first bandwidth threshold. Wherein, the first bandwidth processing capability may be less than or equal to the first bandwidth threshold.
  • the first bandwidth threshold is 5 MHz and the second bandwidth threshold is 20 MHz.
  • the bandwidth capability information may be used to indicate: the first type of capability simplifies the first bandwidth processing capability of the UE; wherein the first bandwidth processing capability is less than or equal to 5 MHz.
  • the bandwidth capability information can be either the bandwidth value itself, a parameter used to identify the bandwidth value, or a parameter that can determine the bandwidth value according to a preset method. In the embodiments of the present disclosure does not limit this. In the embodiments of the present disclosure, this will not be described one by one.
  • the first bandwidth processing capability may be specified by the communication protocol.
  • the communication protocol may stipulate that the first bandwidth processing capability of the simplified UE of the first type of capability is 5 MHz. That is, the maximum bandwidth that a simplified UE of the first type of capability can allocate to a data channel is less than or equal to 5MHz.
  • the first bandwidth processing capability may be specified by the communication protocol, may be reported by the UE to the base station, may be determined by the base station and then sent to the UE, or may be agreed upon by the base station and the UE.
  • the bandwidth capability information sent by the first type of simplified capability UE may include an identifier or indicator used to indicate the type of the first type of simplified capability UE, so that the network side device can determine that the UE sending the bandwidth capability information is the first type.
  • Class capabilities simplify UE.
  • the network side device determines that the UE is a first type simplified capability UE through the bandwidth capability information sent by the UE, it can correspondingly determine the first bandwidth processing capability of the first type simplified capability UE.
  • the maximum bandwidth that a simplified first-type capability UE can allocate to a data channel may include but is not limited to: the bandwidth through which the baseband signal transmission path can transmit data, and/or the bandwidth through which baseband signal processing components such as a baseband processor can process data.
  • the base station can simplify the bandwidth capability information reported by the UE based on the first type of capability, and configure resources for the first type of simplified UE.
  • the bandwidth of the data channel resources configured by the base station for the simplified UE of the first type of capability may be less than or equal to the first bandwidth processing capability.
  • the first type simplified capability UE indicates the first bandwidth processing capability of the first type simplified capability UE to the base station through the bandwidth capability information, and the base station configures the data channel resources of the first type simplified capability UE. Furthermore, the first type of capability simplified UE can perform data channels with relatively smaller bandwidth processing capabilities than other types of UEs, reducing workload and thereby saving power.
  • the bandwidth capability information may be used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the maximum reception bandwidth of the first type capability simplified UE may be the maximum bandwidth of the first type capability simplified UE receiving radio frequency signals.
  • the maximum transmission bandwidth of the first-type capability simplified UE may be the maximum bandwidth of the first-type capability simplified UE transmitting radio frequency signals.
  • the first type of capability simplifies the maximum bandwidth for the UE to receive and/or transmit, which may be less than or equal to the second bandwidth processing capability.
  • the second bandwidth processing capability may be: the sum of the maximum bandwidth used to transmit service data and the maximum bandwidth used to transmit control signaling.
  • the first type of capability simplifies the maximum bandwidth for UE reception and/or transmission, which may include: the maximum bandwidth for radio frequency processing units such as transceiver antennas and radio frequency processors to transmit and/or receive radio frequency signals.
  • radio frequency processing units such as transceiver antennas and radio frequency processors to transmit and/or receive radio frequency signals.
  • the first type of capability simplifies the maximum bandwidth that the UE can receive and/or send: the first type of capability simplifies the maximum bandwidth of the radio frequency signal that the UE can monitor, and/or the first type of capability simplifies the maximum bandwidth of the radio frequency signal that the UE can receive, and/ Or the first type of capability simplifies the maximum bandwidth of the radio frequency signal that the UE can send.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the bandwidth threshold of the simplified UE of the first type of capability may be further defined as a third bandwidth threshold smaller than the first bandwidth threshold (5 MHz) to further determine the bandwidth processing of the simplified UE of the first type of capability.
  • the capability is less than the first bandwidth threshold.
  • the bandwidth threshold of the first type of simplified capability UE may be determined to be a third bandwidth threshold that is greater than the first bandwidth threshold (5MHz) and less than or equal to the second bandwidth threshold (20MHz) to define
  • the bandwidth processing capability of the first type capability simplified UE may be greater than the first bandwidth threshold and less than or equal to the second bandwidth threshold. That is: in a possible implementation manner, it can be determined that the bandwidth capability of the first type of simplified UE is greater than 5 MHz and less than or equal to 20 MHz.
  • the maximum bandwidth for the first type of simplified capability UE to receive and/or transmit may be less than or equal to the second bandwidth threshold supported by the second type of simplified capability UE, and greater than or equal to the first bandwidth threshold.
  • the first type of capability simplifies the UE's reception and/or transmission bandwidth capabilities, and can meet the needs of the first type of capability to simplify the UE's transmission.
  • the first type of capability can be met to simplify the transmission requirements of UE data channels, and/or control channels, and/or reference signals, and/or synchronized broadcast blocks.
  • the bandwidth capability information may indicate that the first bandwidth processing capability is less than or equal to the first bandwidth threshold, and the second bandwidth processing capability is less than or equal to the third bandwidth threshold.
  • the bandwidth capability information may indicate that the first bandwidth processing capability is 3 MHz and the second bandwidth processing capability is 10 MHz.
  • the bandwidth capability information may indicate that the first bandwidth processing capability is 5 MHz and the second bandwidth processing capability is 20 MHz.
  • the bandwidth capability information may be used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE with the first type of capability can allocate to the control channel.
  • the third bandwidth processing capability may be exemplarily: the first type of capability simplifies the maximum bandwidth that can be allocated to the control channel.
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE with the first type of capability can allocate to the reference signal.
  • the third bandwidth processing capability may be exemplarily: the first type of capability simplifies the maximum bandwidth that the UE can allocate to the reference signal.
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth processing capability may be exemplarily: the first type capability simplifies the maximum bandwidth that the UE can allocate to the synchronized broadcast block.
  • the bandwidth capability information may be used to indicate at least one of the following: the first type of capability simplifies the first bandwidth processing capability of the UE, and the second type of capability simplifies the second bandwidth processing capability of the UE. , the third type capability simplifies the third bandwidth processing capability of the UE, the fourth type capability simplifies the fourth bandwidth processing capability of the UE, and the fifth type capability simplifies the fifth bandwidth processing capability of the UE.
  • the first type simplified capability UE can indicate the second bandwidth processing capability through bandwidth capability information, so that the network side device can know the maximum bandwidth used by the first type simplified capability UE to transmit service data. and the sum of the maximum bandwidth used to transmit control signaling.
  • the first type simplified capability UE may also indicate the second bandwidth processing capability through bandwidth capability information, so that the network side device can learn the maximum bandwidth used by the first type simplified capability UE to transmit service data. Then, the network side device can determine the maximum bandwidth used by the first type capability simplified UE to transmit control signaling based on the first bandwidth processing capability and the second bandwidth processing capability.
  • the first type of capability simplifies that the maximum bandwidth that the UE can allocate to the transmission control channel may be less than or equal to the third bandwidth processing capability.
  • the first bandwidth threshold is 5 MHz
  • the third bandwidth processing capability may be equal to 5 MHz
  • the maximum bandwidth that the UE can allocate to the control channel may be 5 MHz.
  • the first type of capability simplifies that the maximum bandwidth that the UE can allocate to transmit reference signals may be less than or equal to the fourth bandwidth processing capability.
  • the first bandwidth threshold is 5 MHz
  • the fourth bandwidth processing capability may be equal to 5 MHz
  • the maximum bandwidth that the UE can allocate to the reference signal may be 5 MHz.
  • the first type of capability simplifies that the maximum bandwidth that a UE can allocate to transmit synchronized broadcast blocks may be less than or equal to the fifth bandwidth processing capability.
  • the first bandwidth threshold is 5 MHz
  • the fifth bandwidth processing capability may be equal to 5 MHz
  • the maximum bandwidth that the UE can allocate to the synchronized broadcast block may be 5 MHz.
  • control channel can be used to transmit communication control signaling.
  • control channel may include, but is not limited to: Physical Downlink Control Channel (PDCCH), and/or Physical Uplink Control Channel (PUCCH), and/or Physical Random Access Channel ( PRACH, Physical Random Access Channel).
  • the maximum bandwidth that the first type of simplified capability UE can allocate to the control channel may be: the maximum bandwidth of the first type of simplified capability UE for control signals transmitted using control channel resources.
  • the reference signal may, but is not limited to, be used by the UE for channel measurement and/or synchronization.
  • exemplary reference signals may include, but are not limited to: channel state information reference signal (CSI-RS, Channel State Information-Reference Signal), and/or positioning reference signal (PRS, Positioning Reference Signal), and/or channel sounding reference signal. (SRS, Sounding Reference Signal).
  • CSI-RS channel state information reference signal
  • PRS Positioning Reference Signal
  • SRS Sounding Reference Signal
  • the maximum processing bandwidth of the UE baseband for different channels and/or signals may be specified by the communication protocol.
  • the communication protocol specifies that the maximum processing bandwidth range for different channels and/or signals may be the same.
  • the communication protocol may stipulate that the maximum bandwidth that the simplified UE of the first type of capability can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than or equal to the first bandwidth threshold.
  • the first bandwidth threshold is 5MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the simplified UE of the first type of capability can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than 5 MHz.
  • the maximum processing bandwidth range specified by the communication protocol for different channels and/or signals may be different. For example, different processing bandwidths can be set for different business scenarios.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to data channels, control channels and reference signals is less than or equal to the first bandwidth threshold, and the first type of simplified capability UE
  • the maximum processing bandwidth that can be allocated to the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the first bandwidth threshold is 5MHz and the third bandwidth threshold is 20MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the first type of simplified capability UE can allocate to the data channel and the control channel is less than 5 MHz, and the maximum processing bandwidth that the first type of simplified capability UE can allocate to the synchronized broadcast block is greater than 5 MHz, but less than or equal to 20MHz.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to the data channel is less than or equal to the first bandwidth threshold; the first type of simplified capability UE can be allocated to the control channel , the maximum processing bandwidth of the reference signal and/or the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the first bandwidth threshold is 5MHz and the third bandwidth threshold is 20MHz.
  • the bandwidth capability information may indicate that the maximum baseband processing bandwidth that the first type of simplified capability UE can allocate to the data channel is less than 5 MHz.
  • the maximum baseband processing bandwidth that the first type of simplified capability UE can allocate to the control channel and synchronization broadcast block is greater than 5 MHz, but less than or equal to 20MHz.
  • first-category capabilities to simplify the specific configuration that the UE can allocate to data channels, control channels, reference signals and synchronized broadcast blocks.
  • Configuration combinations that satisfy the maximum bandwidth range that the above-mentioned first-type capability simplified UE can allocate to data channels, control channels, reference signals, and synchronized broadcast blocks can be used as implementation methods for the first-type capability simplified UE configuration.
  • this exemplary embodiment provides an information transmission method, which can be performed by a base station of a cellular mobile communication system, including:
  • Step 301 Based on the bandwidth capability information, configure the transmission resources of the simplified UE for the first type of capability;
  • Step 302 Send resource configuration information indicating the transmission resources to the first type of simplified capability UE.
  • Step 301 and step 302 can be implemented separately or in combination with step 201.
  • the base station can simplify resource configuration for the first type of capable UE based on the bandwidth capability information.
  • the bandwidth of resources configured by the base station for the simplified UE of the first type of capability may be less than or equal to the bandwidth processing capability of the simplified UE of the first type of capability.
  • the bandwidth processing capability may include the above-mentioned first to fifth bandwidth processing capabilities.
  • Resource configuration information can also be predefined by the communication protocol. Resource configuration information may be stored in the UE's storage. For example, the transmission resources of the synchronized broadcast block may be predefined, and the first type of simplified capability UE may determine the transmission resources of the synchronized broadcast block based on the predefined resource configuration information.
  • the transmission resources are configured according to the processing bandwidth range indicated by the bandwidth capability information, which satisfies the first type of capability and simplifies the UE's bandwidth processing capability.
  • the first type of capability simplifies the use of relatively small bandwidth by the UE in transmission and saves transmission resources.
  • the simplified UE with the first type of capabilities can process business data with a smaller bandwidth, reduce the workload, and thereby save power.
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the resource configuration information can be used for, but is not limited to, scheduling spectrum resources, and can also be used for scheduling time domain resources, code domain resources, etc.
  • Different types of spectrum resources can be scheduled using different resource configuration information.
  • the resource configuration information of spectrum resources for scheduling data channels may be different from the resource configuration information of spectrum resources for scheduling control channels.
  • the resource configuration information can also be used to schedule spectrum resources of different channels and/or signals at the same time.
  • the resource configuration information can be used to schedule spectrum resources of the data channel and spectrum resources of the control channel at the same time.
  • the base station can simplify the bandwidth processing capabilities of the UE based on the first type of capabilities and configure spectrum resources of different channels and/or signals for the UE.
  • Reasonable combinations of the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal and the spectrum resource bandwidth of the synchronized broadcast block that meet the requirements of the first category of simplified UE bandwidth processing capabilities can be used as base stations for the first category.
  • the capability simplifies the implementation of UE configuration of spectrum resources.
  • the maximum bandwidth that can be allocated by the simplified UE of the first type of capability may be less than or equal to the first bandwidth threshold.
  • the spectrum resource bandwidth of the data channel may be configured for the first type of simplified capability UE to be less than or equal to the first bandwidth threshold. Simplify the maximum processing bandwidth of the UE to comply with the first category of capabilities.
  • the maximum bandwidth that the first type of simplified capability UE can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than or equal to the first bandwidth threshold.
  • the base station may configure that the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block are all less than or equal to less than or equal to the first bandwidth threshold.
  • the baseband of the simplified UE of the first type of capability can be enabled to process data channels, control channels, reference signals and synchronized broadcast blocks.
  • the first bandwidth threshold is 5MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the simplified UE of the first type of capability can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than 5 MHz.
  • the base station can configure the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block to be less than 5 MHz.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to data channels, control channels and reference signals is less than or equal to the first bandwidth threshold, and the first type of simplified capability UE
  • the maximum processing bandwidth that can be allocated to the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the base station can configure the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, and the spectrum resource bandwidth of the reference signal to be less than or equal to the first bandwidth threshold, and configure the spectrum resource bandwidth of the synchronized broadcast block to be greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the baseband of the simplified UE of the first type of capability can be enabled to process data channels, control channels, reference signals and synchronized broadcast blocks.
  • the first bandwidth threshold is 5MHz and the third bandwidth threshold is 20MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the first type of simplified capability UE can allocate to data channels, control channels and reference signals is less than 5 MHz, and the maximum processing bandwidth that the first type of simplified capability UE can allocate to synchronized broadcast blocks is greater than 5 MHz, but Less than or equal to 20MHz.
  • the base station can configure the spectrum resource bandwidth of the data channel, the control channel, and the reference signal to be less than 5 MHz, and configure the spectrum resource bandwidth of the synchronized broadcast block to be greater than 5 MHz, but less than or equal to 20 MHz.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to the data channel is less than or equal to the first bandwidth threshold; the first type of simplified capability UE can be allocated to the control channel , the maximum processing bandwidth of the reference signal and/or the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the base station can configure the spectrum resource bandwidth of the data channel to be less than or equal to the first bandwidth threshold, and configure the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block to be greater than the first bandwidth threshold, but Less than or equal to the third bandwidth threshold.
  • the baseband of the simplified UE of the first type of capability can be enabled to process data channels, control channels, reference signals and synchronized broadcast blocks.
  • the first bandwidth threshold is 5 MHz and the third bandwidth threshold is 20 MHz.
  • the bandwidth capability information may indicate that the maximum baseband processing bandwidth that the simplified first-class capability UE can allocate to the data channel is less than 5 MHz.
  • the maximum baseband processing bandwidth that the simplified first-class capability UE can allocate to the control channel, reference signal and synchronization broadcast block is greater than 5 MHz, but Less than or equal to 20MHz.
  • the base station can configure the spectrum resource bandwidth of the data channel to be less than or equal to 5MHz, and configure the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block to be greater than 5MHz, but less than or equal to 20MHz.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the second bandwidth processing capability of the simplified first-type capability UE is less than or equal to the third bandwidth threshold, that is, in the radio frequency domain resource bandwidth, the maximum bandwidth that the simplified first-type capability UE can process is less than or equal to the third bandwidth. threshold.
  • the base station configures the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the synchronized broadcast block for the simplified UE of the first type of capability, at the same time , the bandwidth span occupied by the configured spectrum resources in the frequency domain is less than or equal to the third bandwidth threshold.
  • the bandwidth span is the lowest frequency resource sum based on at least one of the spectrum resources of the data channel transmission, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block. At least one of the highest frequency resources is determined.
  • the difference between the lowest frequency and the highest frequency occupied by any number (such as two or more) signals and/or channels that the base station configures for the first type of simplified UE to monitor simultaneously is less than or equal to the third bandwidth threshold.
  • the signal may include a synchronous broadcast block and/or a reference signal, etc.
  • the channel may include a data channel, and/or a control channel, and/or a reference signal, etc.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • the first type of capability may be specified by a communication protocol or the like to simplify the radio frequency capability of the UE.
  • the radio frequency capability may be a second bandwidth processing capability.
  • the communication protocol may stipulate that the second bandwidth processing capability of the first type of simplified capability UE is less than or equal to the third bandwidth threshold, that is, the maximum radio frequency channel bandwidth (Channel Bandwith) of the first type of simplified capability UE is less than or equal to the said Third bandwidth threshold.
  • the third bandwidth threshold that is, the maximum radio frequency channel bandwidth (Channel Bandwith) of the first type of simplified capability UE is less than or equal to the said Third bandwidth threshold.
  • the base station When the base station configures the BWP for the simplified UE of the first type of capability, the base station may configure the BWP to be less than or equal to the third bandwidth threshold. In this way, the radio frequency capabilities of the UE can be simplified to satisfy the first type of capabilities.
  • this exemplary embodiment provides an information transmission method, which can be executed by a first-type capability simplified UE of a cellular mobile communication system, including:
  • Step 701 Report bandwidth capability information to the base station, where the bandwidth capability information is at least used to indicate: the first type of capability simplifies the first bandwidth processing capability of the UE, where the first bandwidth processing capability is less than or equal to A first bandwidth threshold, wherein the first bandwidth threshold is less than a second bandwidth threshold that the second type of simplified capability UE can support, wherein the first bandwidth processing capability is used to determine what the first type of simplified capability UE can support.
  • the method on the base station side and the method on the user terminal UE side may be the same, so no further details will be given.
  • the first type of simplified capability UE can report the type of the first type of simplified capability UE through bandwidth capability information, so that the base station can learn the first bandwidth processing capability and the first type of simplified capability of the first type of capability UE. /or first bandwidth threshold.
  • the first type of capability-simplified UE may be enhanced (Enhanced) RedCap UE, and enhanced RedCap UE may be referred to as eRedCap UE.
  • the second type of capability simplified UE can be RedCap UE in 3GPP Release 17 (R17).
  • the second type of capability simplifies the bandwidth processing capability of the UE's radio frequency transceiver and baseband processing module in the FR1 (Sub-6GHz) frequency band to 20MHz.
  • the maximum bandwidth supported by the simplified second type capability UE is 20 MHz.
  • the first type of simplified capability UE may have a lower baseband processing bandwidth and/or radio frequency processing bandwidth than the second type of simplified capability UE. In this way, the first type of simplified capability UE can save resources and power when performing data communication compared to the second type of simplified capability UE.
  • the bandwidth processing capability (which may also be referred to as the maximum bandwidth) that the simplified second type capability UE can support is 5 MHz.
  • the first type of simplified capability UE may send bandwidth capability information to the base station during the process of accessing the base station and/or after accessing the base station.
  • the second type of simplified capability UE may send bandwidth capability information to the base station during and/or after accessing the base station.
  • the first type of capability simplifies the maximum bandwidth that the UE can allocate to the data channel, which may include but is not limited to: the first type of capability simplifies the maximum bandwidth that the baseband of the UE can allocate to the data channel.
  • the first type of capability simplifies the maximum bandwidth that a UE can allocate to a data channel, which may include but is not limited to: the first type of capability simplifies the maximum bandwidth that a UE can allocate to a data channel.
  • the data channel may include but is not limited to: a service data channel.
  • Data channels can be used to transmit communication service data.
  • the data channel may include, but is not limited to: PDSCH and/or PUSCH.
  • the first type of capability simplifies the maximum bandwidth that the UE can allocate to the data channel, which may be equal to the first bandwidth processing capability, or may be smaller than the first bandwidth processing capability. Or, the maximum bandwidth that the first type capability simplified UE can allocate to data transmission is less than or equal to the first bandwidth threshold. Wherein, the first bandwidth processing capability may be less than or equal to the first bandwidth threshold.
  • the first bandwidth threshold is 5 MHz and the second bandwidth threshold is 20 MHz.
  • the bandwidth capability information may be used to indicate: the first type of capability simplifies the first bandwidth processing capability of the UE, where the first bandwidth processing capability is less than or equal to 5 MHz.
  • the bandwidth capability information can be either the bandwidth value itself, a parameter used to identify the bandwidth value, or a parameter that can determine the bandwidth value according to a preset method. In the embodiments of the present disclosure does not limit this. In the embodiments of the present disclosure, this will not be described one by one.
  • the first bandwidth processing capability may be specified by the communication protocol.
  • the communication protocol may stipulate that the first bandwidth processing capability of the simplified UE of the first type of capability is 5 MHz. That is, the maximum bandwidth that a simplified UE of the first type of capability can allocate to a data channel is less than or equal to 5MHz.
  • the first bandwidth processing capability may be specified by the communication protocol, may be reported by the UE to the base station, may be determined with the base station and then sent to the UE, or may be agreed upon by the base station and the UE.
  • the bandwidth capability information sent by the first type of simplified capability UE may include an identifier or indicator used to indicate the type of the first type of simplified capability UE, so that the network side device can determine that the UE sending the bandwidth capability information is the first type.
  • Class capabilities simplify UE.
  • the network side device determines that the UE is a first-type simplified capability UE through the bandwidth capability information sent by the UE, it can correspondingly determine the first bandwidth processing capability of the first-type simplified capability UE.
  • the maximum bandwidth that a simplified first-type capability UE can allocate to a data channel may include but is not limited to: the bandwidth through which the baseband signal transmission path can transmit data, and/or the bandwidth through which baseband signal processing components such as a baseband processor can process data.
  • the base station can simplify the bandwidth capability information reported by the UE based on the first type of capability, and configure resources for the first type of simplified UE.
  • the bandwidth of the data channel resources configured by the base station for the simplified UE of the first type of capability may be less than or equal to the first bandwidth processing capability.
  • the first type simplified capability UE indicates the first bandwidth processing capability of the first type simplified capability UE to the base station through the bandwidth capability information, and the base station configures the data channel resources of the first type simplified capability UE. Furthermore, the first type of capability simplified UE can perform data channels with relatively smaller bandwidth processing capabilities than other types of UEs, reducing workload and thus saving power.
  • the bandwidth capability information may be used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the maximum reception bandwidth of the first type capability simplified UE may be the maximum bandwidth of the first type capability simplified UE receiving radio frequency signals.
  • the maximum transmission bandwidth of the first-type capability simplified UE may be the maximum bandwidth of the first-type capability simplified UE transmitting radio frequency signals.
  • the first type of capability simplifies the maximum bandwidth for the UE to receive and/or transmit, which may be less than or equal to the second bandwidth processing capability.
  • the second bandwidth processing capability may be: the sum of the maximum bandwidth used to transmit service data and the maximum bandwidth used to transmit control signaling.
  • the first type of capability simplifies the maximum bandwidth for UE reception and/or transmission, which may include: the maximum bandwidth for radio frequency processing units such as transceiver antennas and radio frequency processors to transmit and/or receive radio frequency signals.
  • radio frequency processing units such as transceiver antennas and radio frequency processors to transmit and/or receive radio frequency signals.
  • the first type of capability simplifies the maximum bandwidth that the UE can receive and/or send: the first type of capability simplifies the maximum bandwidth of the radio frequency signal that the UE can monitor, and/or the first type of capability simplifies the maximum bandwidth of the radio frequency signal that the UE can receive, and/ Or the first type of capability simplifies the maximum bandwidth of the radio frequency signal that the UE can send.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the bandwidth threshold of the simplified UE of the first type of capability may be further defined as a third bandwidth threshold smaller than the first bandwidth threshold (5 MHz) to further determine the bandwidth processing of the simplified UE of the first type of capability.
  • the capability is less than the first bandwidth threshold.
  • the bandwidth threshold of the first type of simplified capability UE may be determined to be a third bandwidth threshold that is greater than the first bandwidth threshold (5MHz) and less than or equal to the second bandwidth threshold (20MHz) to define
  • the bandwidth processing capability of the first type capability simplified UE may be greater than the first bandwidth threshold and less than or equal to the second bandwidth threshold. That is: in a possible implementation manner, it can be determined that the bandwidth capability of the first type of simplified UE is greater than 5 MHz and less than or equal to 20 MHz.
  • the maximum bandwidth for the first type of simplified capability UE to receive and/or transmit may be less than or equal to the second bandwidth threshold supported by the second type of simplified capability UE, and greater than or equal to the first bandwidth threshold.
  • the first type of capability simplifies the UE's reception and/or transmission bandwidth capabilities, and can meet the needs of the first type of capability to simplify the UE's transmission.
  • the first type of capability can be met to simplify the transmission requirements of UE data channels, and/or control channels, and/or reference signals, and/or synchronized broadcast blocks.
  • the bandwidth capability information may indicate that the first bandwidth processing capability is less than or equal to the first bandwidth threshold, and the second bandwidth processing capability is less than or equal to the third bandwidth threshold.
  • the bandwidth capability information may indicate that the first bandwidth processing capability is 3 MHz and the second bandwidth processing capability is 10 MHz.
  • the bandwidth capability information may indicate that the first bandwidth processing capability is 5 MHz and the second bandwidth processing capability is 20 MHz.
  • the bandwidth capability information may be used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE with the first type of capability can allocate to the control channel.
  • the third bandwidth processing capability may be exemplarily: the first type of capability simplifies the maximum bandwidth that can be allocated to the control channel.
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE with the first type of capability can allocate to the reference signal.
  • the third bandwidth processing capability may be exemplarily: the first type of capability simplifies the maximum bandwidth that the UE can allocate to the reference signal.
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth processing capability may be exemplarily: the first type capability simplifies the maximum bandwidth that the UE can allocate to the synchronized broadcast block.
  • the bandwidth capability information may be used to indicate at least one of the following: the first type of capability simplifies the first bandwidth processing capability of the UE, and the second type of capability simplifies the second bandwidth processing capability of the UE. , the third type capability simplifies the third bandwidth processing capability of the UE, the fourth type capability simplifies the fourth bandwidth processing capability of the UE, and the fifth type capability simplifies the fifth bandwidth processing capability of the UE.
  • the first type simplified capability UE can indicate the second bandwidth processing capability through bandwidth capability information, so that the network side device can know the maximum bandwidth used by the first type simplified capability UE to transmit service data. and the sum of the maximum bandwidth used to transmit control signaling.
  • the first type of simplified capability UE may also indicate the second bandwidth processing capability through bandwidth capability information, so that the network side device can learn the maximum bandwidth used by the first type of simplified capability UE to transmit service data. Then, the network side device can determine the maximum bandwidth used by the first type capability simplified UE to transmit control signaling based on the first bandwidth processing capability and the second bandwidth processing capability.
  • the first type of capability simplifies that the maximum bandwidth that the UE can allocate to the transmission control channel may be less than or equal to the third bandwidth processing capability.
  • the first bandwidth threshold is 5 MHz
  • the third bandwidth processing capability may be equal to 5 MHz
  • the maximum bandwidth that the UE can allocate to the control channel may be 5 MHz.
  • the first type of capability simplifies that the maximum bandwidth that the UE can allocate to transmit reference signals may be less than or equal to the fourth bandwidth processing capability.
  • the first bandwidth threshold is 5 MHz
  • the fourth bandwidth processing capability may be equal to 5 MHz
  • the maximum bandwidth that the UE can allocate to the reference signal may be 5 MHz.
  • the first type of capability simplifies that the maximum bandwidth that a UE can allocate to transmit synchronized broadcast blocks may be less than or equal to the fifth bandwidth processing capability.
  • the first bandwidth threshold is 5 MHz
  • the fifth bandwidth processing capability may be equal to 5 MHz
  • the maximum bandwidth that the UE can allocate to the synchronized broadcast block may be 5 MHz.
  • control channel can be used to transmit communication control signaling.
  • control channel may include, but is not limited to: PDCCH, and/or PUCCH, and/or PRACH.
  • the maximum bandwidth that the first type of simplified capability UE can allocate to the control channel may be: the maximum bandwidth of the first type of simplified capability UE for control signals transmitted using control channel resources.
  • the reference signal can be used to transmit the reference signal.
  • the reference signal may, but is not limited to, be used by the UE for channel measurement and/or synchronization.
  • Exemplary reference signals may include, but are not limited to: CSI-RS, and/or PRS, and/or SRS.
  • the maximum processing bandwidth of the UE baseband for different channels and/or signals may be specified by the communication protocol.
  • the communication protocol specifies that the maximum processing bandwidth range for different channels and/or signals may be the same.
  • the communication protocol may stipulate that the first type of simplified capability UE can be allocated to at least one of the maximum bandwidth of the data channel, the control channel, the reference signal and the synchronization broadcast block, and the first type of simplified capability UE can be allocated to the data channel
  • the maximum bandwidths of the control channel, the reference signal and the synchronized broadcast block are all less than or equal to the first bandwidth threshold.
  • the first bandwidth threshold is 5MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the simplified UE of the first type of capability can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than 5 MHz.
  • the maximum processing bandwidth range specified by the communication protocol for different channels and/or signals may be different. For example, different processing bandwidths can be set for different business scenarios.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to data channels, control channels and reference signals is less than or equal to the first bandwidth threshold, and the first type of simplified capability UE
  • the maximum processing bandwidth that can be allocated to the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the first bandwidth threshold is 5MHz and the third bandwidth threshold is 20MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the first type of simplified capability UE can allocate to the data channel and the control channel is less than 5 MHz, and the maximum processing bandwidth that the first type of simplified capability UE can allocate to the synchronized broadcast block is greater than 5 MHz, but less than or equal to 20MHz.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to the data channel is less than or equal to the first bandwidth threshold; the first type of simplified capability UE can be allocated to the control channel
  • the maximum processing bandwidth of the reference signal and synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the first bandwidth threshold is 5MHz and the third bandwidth threshold is 20MHz.
  • the bandwidth capability information may indicate that the maximum baseband processing bandwidth that the first type of simplified capability UE can allocate to the data channel is less than 5 MHz.
  • the maximum baseband processing bandwidth that the first type of simplified capability UE can allocate to the control channel and synchronization broadcast block is greater than 5 MHz, but less than or equal to 20MHz.
  • first-category capabilities to simplify the specific configuration that the UE can allocate to data channels, control channels, reference signals and synchronized broadcast blocks.
  • Configuration combinations that satisfy the maximum bandwidth range that the above-mentioned first-type capability simplified UE can allocate to data channels, control channels, reference signals, and synchronized broadcast blocks can be used as implementation methods for the first-type capability simplified UE configuration.
  • this exemplary embodiment provides an information transmission method, which can be executed by a first-type capability simplified UE of a cellular mobile communication system, including:
  • Step 801a Receive resource configuration information from the base station, where the resource configuration information is used to indicate transmission resources for the first type of capability simplified UE, where the resource configuration information is the base station based on the Bandwidth capability information is determined;
  • Step 801b Obtain the predefined resource configuration information.
  • Steps 801a and 801b can be implemented individually or in combination with step 701.
  • the base station can simplify resource configuration for the first type of capable UE based on the bandwidth capability information.
  • the bandwidth of resources configured by the base station for the simplified UE of the first type of capability may be less than or equal to the bandwidth processing capability of the simplified UE of the first type of capability.
  • the bandwidth processing capability may include the above-mentioned first to fifth bandwidth processing capabilities.
  • Resource configuration information can also be predefined by the communication protocol. Resource configuration information may be stored in the UE's storage. For example, the transmission resources of the synchronized broadcast block may be predefined, and the first type of simplified capability UE may determine the transmission resources of the synchronized broadcast block based on the predefined resource configuration information.
  • the transmission resources are configured according to the processing bandwidth range indicated by the bandwidth capability information, which satisfies the first type of capability and simplifies the UE's bandwidth processing capability.
  • the first type of capability simplifies the use of relatively small bandwidth by the UE in transmission and saves transmission resources.
  • the simplified UE with the first type of capabilities can process business data with a smaller bandwidth, reduce the workload, and thereby save power.
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the resource configuration information can be used for, but is not limited to, scheduling spectrum resources, and can also be used for scheduling time domain resources, code domain resources, etc.
  • Different types of spectrum resources can be scheduled using different resource configuration information.
  • the resource configuration information of spectrum resources for scheduling data channels may be different from the resource configuration information of spectrum resources for scheduling control channels.
  • the resource configuration information can also be used to schedule spectrum resources of different channels and/or signals at the same time.
  • the resource configuration information can be used to schedule spectrum resources of the data channel and spectrum resources of the control channel at the same time.
  • the base station can simplify the bandwidth processing capabilities of the UE based on the first type of capabilities and configure spectrum resources of different channels and/or signals for the UE.
  • Reasonable combinations of the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal and the spectrum resource bandwidth of the synchronized broadcast block that meet the requirements of the first category of simplified UE bandwidth processing capabilities can be used as base stations for the first category.
  • the capability simplifies the implementation of UE configuration of spectrum resources.
  • the maximum bandwidth that can be allocated by the simplified UE of the first type of capability may be less than or equal to the first bandwidth threshold.
  • the spectrum resource bandwidth of the data channel may be configured for the first type of simplified capability UE to be less than or equal to the first bandwidth threshold. Simplify the maximum processing bandwidth of the UE to comply with the first category of capabilities.
  • the maximum bandwidth that the first type of simplified capability UE can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than or equal to the first bandwidth threshold.
  • the base station may configure that the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block are all less than or equal to less than or equal to the first bandwidth threshold.
  • the baseband of the simplified UE of the first type of capability can be enabled to process data channels, control channels, reference signals and synchronized broadcast blocks.
  • the first bandwidth threshold is 5MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the simplified UE of the first type of capability can allocate to data channels, control channels, reference signals and synchronized broadcast blocks is less than 5 MHz.
  • the base station can configure the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block to be less than 5 MHz.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to data channels, control channels and reference signals is less than or equal to the first bandwidth threshold, and the first type of simplified capability UE
  • the maximum processing bandwidth that can be allocated to the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the base station can configure the spectrum resource bandwidth of the data channel, the spectrum resource bandwidth of the control channel, and the spectrum resource bandwidth of the reference signal to be less than or equal to the first bandwidth threshold, and configure the spectrum resource bandwidth of the synchronized broadcast block to be greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the baseband of the simplified UE of the first type of capability can be enabled to process data channels, control channels, reference signals and synchronized broadcast blocks.
  • the first bandwidth threshold is 5MHz and the third bandwidth threshold is 20MHz.
  • the bandwidth capability information may indicate that the maximum processing bandwidth that the first type of simplified capability UE can allocate to data channels, control channels and reference signals is less than 5 MHz, and the maximum processing bandwidth that the first type of simplified capability UE can allocate to synchronized broadcast blocks is greater than 5 MHz, but Less than or equal to 20MHz.
  • the base station can configure the spectrum resource bandwidth of the data channel, the control channel, and the reference signal to be less than 5 MHz, and configure the spectrum resource bandwidth of the synchronized broadcast block to be greater than 5 MHz, but less than or equal to 20 MHz.
  • the maximum processing bandwidth that the first type of simplified capability UE indicated by the bandwidth capability information can be allocated to the data channel is less than or equal to the first bandwidth threshold; the first type of simplified capability UE can be allocated to the control channel , the maximum processing bandwidth of the reference signal and/or the synchronized broadcast block is greater than the first bandwidth threshold, but less than or equal to the third bandwidth threshold.
  • the base station can configure the spectrum resource bandwidth of the data channel to be less than or equal to the first bandwidth threshold, and configure the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block to be greater than the first bandwidth threshold, but Less than or equal to the third bandwidth threshold.
  • the baseband of the simplified UE of the first type of capability can be enabled to process data channels, control channels, reference signals and synchronized broadcast blocks.
  • the first bandwidth threshold is 5 MHz and the third bandwidth threshold is 20 MHz.
  • the bandwidth capability information may indicate that the maximum baseband processing bandwidth that the simplified first-class capability UE can allocate to the data channel is less than 5 MHz.
  • the maximum baseband processing bandwidth that the simplified first-class capability UE can allocate to the control channel, reference signal and synchronization broadcast block is greater than 5 MHz, but Less than or equal to 20MHz.
  • the base station can configure the spectrum resource bandwidth of the data channel to be less than or equal to 5MHz, and configure the spectrum resource bandwidth of the control channel, the spectrum resource bandwidth of the reference signal, and the spectrum resource bandwidth of the synchronized broadcast block to be greater than 5MHz, but less than or equal to 20MHz.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the second bandwidth processing capability of the simplified first-type capability UE is less than or equal to the third bandwidth threshold, that is, the maximum bandwidth that the simplified first-type capability UE can process in the radio frequency domain resource bandwidth is less than or equal to the third bandwidth threshold.
  • the base station configures the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the synchronized broadcast block for the simplified UE of the first type of capability, at the same time , the bandwidth span occupied by the configured spectrum resources in the frequency domain is less than or equal to the third bandwidth threshold.
  • the bandwidth span is the lowest frequency resource sum based on at least one of the spectrum resources of the data channel transmission, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block.
  • the highest frequency resource determined by at least one
  • the difference between the lowest frequency and the highest frequency occupied by any number (such as two or more) signals and/or channels that the base station configures for the first type of simplified UE to monitor simultaneously is less than or equal to the third bandwidth threshold.
  • the signal may include a synchronous broadcast block and/or a reference signal, etc.
  • the channel may include a data channel, and/or a control channel, and/or a reference signal, etc.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • the first type of capability may be specified by a communication protocol or the like to simplify the radio frequency capability of the UE.
  • the radio frequency capability may be a second bandwidth processing capability.
  • the communication protocol may stipulate that the second bandwidth processing capability of the first type of simplified capability UE is less than or equal to the third bandwidth threshold, that is, the maximum radio frequency channel bandwidth (Channel Bandwith) of the first type of simplified capability UE is less than or equal to the said Third bandwidth threshold.
  • the third bandwidth threshold that is, the maximum radio frequency channel bandwidth (Channel Bandwith) of the first type of simplified capability UE is less than or equal to the said Third bandwidth threshold.
  • the base station When the base station configures the BWP for the simplified UE of the first type of capability, the base station may configure the BWP to be less than or equal to the third bandwidth threshold. In this way, the radio frequency capabilities of the UE can be simplified to satisfy the first type of capabilities.
  • the baseband processing bandwidth of the terminal for data channels, control channels, synchronous broadcast blocks and reference signals is less than or equal to the first threshold.
  • the terminal's radio frequency (RF) processing bandwidth/maximum channel bandwidth (channel bandwidth) is less than or equal to the second threshold.
  • the spectrum resources occupied by the base station for each data channel, control channel, reference signal, or synchronized broadcast block are not greater than the first threshold.
  • the spectrum resource bandwidth occupied by the BWP configured by the base station for the terminal is not greater than the second threshold.
  • the base station is prohibited from configuring the terminal to simultaneously monitor any two or more signals/channels that do not meet the first condition.
  • the first condition is that the difference between the lowest frequency and the highest frequency occupied in the two or more signals is greater than the second threshold.
  • the second threshold is greater than the first threshold.
  • the first threshold is 5MHz and the second threshold is 20MHz.
  • Control channels include: PDCCH, PUCCH, and/or PRACH, and reference symbols include CSI-RS, PRS, and/or SRS, etc.
  • the baseband processing bandwidth of the terminal for the data channel, control channel and reference signal is less than or equal to the first threshold.
  • the terminal's processing bandwidth capability for synchronized broadcast blocks is greater than the first threshold, but less than or equal to the second threshold.
  • the terminal's radio frequency (RF) processing bandwidth/maximum channel bandwidth (channel bandwidth) is less than or equal to the second threshold.
  • the spectrum resource occupied by the base station for each data channel, control channel, or reference signal is not greater than the first threshold.
  • the resources that the base station can allocate to the synchronous broadcast block are greater than the first threshold, but less than or equal to the second threshold.
  • the spectrum resource bandwidth occupied by the BWP configured by the base station for the terminal is not greater than the second threshold.
  • the base station is prohibited from configuring the terminal to simultaneously monitor any two or more signals/channels that do not meet the first condition.
  • the first condition is that the difference between the lowest frequency and the highest frequency occupied in the two or more signals is greater than the second threshold.
  • the second threshold is greater than the first threshold.
  • the first threshold is 5MHz and the second threshold is 20MHz.
  • the control channel includes: PDCCH, PUCCH, and/or PRACH, and the reference symbols include CSI-RS, PRS, and/or SRS, etc.
  • the baseband processing bandwidth of the terminal for the data channel is less than or equal to the first threshold.
  • the processing bandwidth capability of the terminal for control channels, reference signals and/or synchronous broadcast blocks is greater than the first threshold, but less than or equal to the second threshold.
  • the terminal's radio frequency (RF) processing bandwidth/maximum channel bandwidth (channel bandwidth) is less than or equal to the second threshold.
  • the spectrum resource occupied by the base station for each data channel is not greater than the first threshold.
  • the base station may provide synchronous broadcast blocks, control channels, and/or reference symbols with resources greater than the first threshold, but less than or equal to the second threshold.
  • the spectrum resource bandwidth occupied by the BWP configured by the base station for the terminal is not greater than the second threshold.
  • the base station is prohibited from configuring the terminal to simultaneously monitor any two or more signals/channels that do not meet the first condition.
  • the first condition is that the difference between the lowest frequency and the highest frequency occupied in the two or more signals is greater than the second threshold.
  • the second threshold is greater than the first threshold.
  • the first threshold is 5MHz and the second threshold is 20MHz.
  • the control channel includes: PDCCH, PUCCH, and/or PRACH, and the reference symbols include CSI-RS, PRS, and/or SRS, etc.
  • An embodiment of the present invention also provides an information transmission device, as shown in Figure 9, applied in a base station of cellular mobile wireless communication, wherein the device 100 includes:
  • the first transceiver module 110 is configured to receive bandwidth capability information reported by the first type of simplified capability user equipment UE, where the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type of simplified capability UE. , wherein the first bandwidth processing capability is less than or equal to a first bandwidth threshold, wherein the first bandwidth threshold is less than a second bandwidth threshold that the second type of capability simplified UE can support, wherein the first bandwidth processing capability , used to determine the maximum bandwidth that the simplified UE with the first type of capability can allocate to the data channel.
  • the bandwidth capability information is also used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the bandwidth capability information is also used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the control channel;
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the reference signal;
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the device further includes:
  • the processing module 120 is configured to configure, based on the bandwidth capability information, the transmission resources of the simplified UE for the first type of capability;
  • the first transceiver module 110 is further configured to send resource configuration information indicating the transmission resources to the first type of simplified capability UE.
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • An embodiment of the present invention also provides an information transmission device, as shown in Figure 10, applied to the first type of simplified capability user equipment UE of cellular mobile wireless communications, wherein the device 200 includes:
  • the second transceiver module 210 is configured to report bandwidth capability information to the base station, where the bandwidth capability information is at least used to indicate: the first bandwidth processing capability of the first type capability simplified user equipment UE, where the first bandwidth The processing capability is less than or equal to a first bandwidth threshold, wherein the first bandwidth threshold is less than the second bandwidth threshold that the second type of simplified capability UE can support, wherein the first bandwidth processing capability is used to determine the first Class capabilities simplify the maximum bandwidth that a UE can allocate to a data channel.
  • the bandwidth capability information is also used to indicate:
  • the first type of capability simplifies the second bandwidth processing capability of the UE, wherein the second bandwidth processing capability is less than or equal to a third bandwidth threshold; the second bandwidth processing capability is used to determine the first type of capability to simplify The maximum bandwidth that the UE can receive and/or transmit.
  • the bandwidth capability information is also used to indicate at least one of the following:
  • the first type of capability simplifies the third bandwidth processing capability of the UE, wherein the third bandwidth processing capability is less than or equal to the first bandwidth threshold; or the third bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the third bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the control channel;
  • the first type of capability simplifies the fourth bandwidth processing capability of the UE, wherein the fourth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fourth bandwidth processing capability is greater than the first bandwidth threshold And less than or equal to the third bandwidth threshold; the fourth bandwidth processing capability is used to determine the maximum bandwidth that the first type of capability simplified UE can allocate to the reference signal;
  • the first type of capability simplifies the fifth bandwidth processing capability of the UE, wherein the fifth bandwidth processing capability is less than or equal to the first bandwidth threshold; or the fifth bandwidth processing capability is greater than the first bandwidth threshold and is less than or equal to the third bandwidth threshold; the fifth bandwidth processing capability is used to determine the maximum bandwidth that the simplified UE of the first type of capability can allocate to the synchronized broadcast block.
  • the third bandwidth threshold is greater than or equal to the first bandwidth threshold.
  • the third bandwidth threshold is equal to or less than the second bandwidth threshold.
  • the second transceiver module 210 is further configured to receive resource configuration information from the base station, where the resource configuration information is used to indicate transmission resources for the first type of simplified UE, Wherein, the resource configuration information is determined by the base station based on the bandwidth capability information;
  • the second transceiver module 210 is also configured to obtain the predefined resource configuration information.
  • the resource configuration information is used to indicate at least one of the following:
  • Spectrum resources of the control channel wherein the maximum bandwidth of the spectrum resources of the control channel is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the control channel is greater than the first bandwidth threshold, and less than or equal to the third bandwidth threshold;
  • the spectrum resources of the synchronous broadcast block wherein the maximum bandwidth of the spectrum resources of the synchronous broadcast block is less than or equal to the first bandwidth threshold, or the maximum bandwidth of the spectrum resources of the synchronous broadcast block is greater than the first bandwidth threshold and less than or equal to The third bandwidth threshold.
  • the spectrum resources of the data channel, and/or the spectrum resources of the control channel, and/or the spectrum resources of the reference signal, and/or the spectrum resources of the synchronized broadcast block indicated by the resource configuration information are in the same
  • the bandwidth span occupied in the frequency domain at any time is less than or equal to the third bandwidth threshold.
  • the resource configuration information is also used to indicate the partial bandwidth BWP configured for the UE, wherein the bandwidth of the BWP is less than or equal to the third bandwidth threshold.
  • the first transceiver module 110, the processing module 120, the second transceiver module 210, etc. may be processed by one or more central processing units (CPU, Central Processing Unit), graphics processors (GPU, Graphics Processing Unit). , Baseband Processor (BP, Baseband Processor), Application Specific Integrated Circuit (ASIC, Application Specific Integrated Circuit), DSP, Programmable Logic Device (PLD, Programmable Logic Device), Complex Programmable Logic Device (CPLD, Complex Programmable Logic Device) ), field-programmable gate array (FPGA, Field-Programmable Gate Array), general-purpose processor, controller, microcontroller (MCU, Micro Controller Unit), microprocessor (Microprocessor), or other electronic components for implementation Execute the above method.
  • CPU Central Processing Unit
  • GPU Graphics Processing Unit
  • BP Baseband Processor
  • ASIC Application Specific Integrated Circuit
  • DSP Programmable Logic Device
  • PLD Programmable Logic Device
  • CPLD Complex Programmable Logic Device
  • FPGA Field-Programmable Gate Array
  • FIG. 11 is a block diagram of a device 3000 for information transmission according to an exemplary embodiment.
  • the device 3000 may be a mobile phone, a computer, a digital broadcast terminal, a messaging device, a game console, a tablet device, a medical device, a fitness device, a personal digital assistant, or the like.
  • device 3000 may include one or more of the following components: processing component 3002, memory 3004, power supply component 3006, multimedia component 3008, audio component 3010, input/output (I/O) interface 3012, sensor component 3014, and Communication Component 3016.
  • Processing component 3002 generally controls the overall operations of device 3000, such as operations associated with display, phone calls, data communications, camera operations, and recording operations.
  • the processing component 3002 may include one or more processors 3020 to execute instructions to complete all or part of the steps of the above method.
  • processing component 3002 may include one or more modules that facilitate interaction between processing component 3002 and other components.
  • processing component 3002 may include a multimedia module to facilitate interaction between multimedia component 3008 and processing component 3002.
  • Memory 3004 is configured to store various types of data to support operations at device 3000. Examples of such data include instructions for any application or method operating on device 3000, contact data, phonebook data, messages, pictures, videos, etc.
  • Memory 3004 may be implemented by any type of volatile or non-volatile storage device, or a combination thereof, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EEPROM), Programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disk.
  • SRAM static random access memory
  • EEPROM electrically erasable programmable read-only memory
  • EEPROM erasable programmable read-only memory
  • EPROM Programmable read-only memory
  • PROM programmable read-only memory
  • ROM read-only memory
  • magnetic memory flash memory, magnetic or optical disk.
  • Power supply component 3006 provides power to the various components of device 3000.
  • Power supply components 3006 may include a power management system, one or more power supplies, and other components associated with generating, managing, and distributing power to device 3000 .
  • Multimedia component 3008 includes a screen that provides an output interface between device 3000 and the user.
  • the screen may include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes a touch panel, the screen may be implemented as a touch screen to receive input signals from the user.
  • the touch panel includes one or more touch sensors to sense touches, swipes, and gestures on the touch panel. A touch sensor can not only sense the boundaries of a touch or swipe action, but also detect the duration and pressure associated with the touch or swipe action.
  • multimedia component 3008 includes a front-facing camera and/or a rear-facing camera.
  • the front camera and/or the rear camera may receive external multimedia data.
  • Each front-facing camera and rear-facing camera can be a fixed optical lens system or have a focal length and optical zoom capabilities.
  • Audio component 3010 is configured to output and/or input audio signals.
  • audio component 3010 includes a microphone (MIC) configured to receive external audio signals when device 3000 is in operating modes, such as call mode, recording mode, and speech recognition mode. The received audio signals may be further stored in memory 3004 or sent via communications component 3016 .
  • audio component 3010 also includes a speaker for outputting audio signals.
  • the I/O interface 3012 provides an interface between the processing component 3002 and a peripheral interface module.
  • the peripheral interface module may be a keyboard, a click wheel, a button, etc. These buttons may include, but are not limited to: Home button, Volume buttons, Start button, and Lock button.
  • Sensor component 3014 includes one or more sensors for providing various aspects of status assessment for device 3000 .
  • the sensor component 3014 can detect the open/closed state of the device 3000, the relative positioning of components, such as the display and keypad of the device 3000, the sensor component 3014 can also detect the position change of the device 3000 or a component of the device 3000, the user The presence or absence of contact with device 3000, device 3000 orientation or acceleration/deceleration, and temperature changes of device 3000.
  • Sensor assembly 3014 may include a proximity sensor configured to detect the presence of nearby objects without any physical contact.
  • Sensor assembly 3014 may also include a light sensor, such as a CMOS or CCD image sensor, for use in imaging applications.
  • the sensor component 3014 may also include an acceleration sensor, a gyroscope sensor, a magnetic sensor, a pressure sensor, or a temperature sensor.
  • the communication component 3016 is configured to facilitate wired or wireless communication between the apparatus 3000 and other devices.
  • Device 3000 may access a wireless network based on a communication standard, such as Wi-Fi, 2G or 3G, or a combination thereof.
  • the communication component 3016 receives broadcast signals or broadcast related information from an external broadcast management system via a broadcast channel.
  • communications component 3016 also includes a near field communications (NFC) module to facilitate short-range communications.
  • NFC near field communications
  • the NFC module can be implemented based on radio frequency identification (RFID) technology, infrared data association (IrDA) technology, ultra-wideband (UWB) technology, Bluetooth (BT) technology and other technologies.
  • RFID radio frequency identification
  • IrDA infrared data association
  • UWB ultra-wideband
  • Bluetooth Bluetooth
  • apparatus 3000 may be configured by one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable Gate array (FPGA), controller, microcontroller, microprocessor or other electronic components are implemented for executing the above method.
  • ASICs application specific integrated circuits
  • DSPs digital signal processors
  • DSPDs digital signal processing devices
  • PLDs programmable logic devices
  • FPGA field programmable Gate array
  • controller microcontroller, microprocessor or other electronic components are implemented for executing the above method.
  • non-transitory computer-readable storage medium including instructions, such as a memory 3004 including instructions, which can be executed by the processor 3020 of the device 3000 to complete the above method is also provided.
  • non-transitory computer-readable storage media may be ROM, random access memory (RAM), CD-ROM, magnetic tape, floppy disk, optical data storage device, etc.

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Abstract

一种信息传输方法、装置、通信设备和存储介质。该方法包括:基站接收第一类能力简化用户设备UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。

Description

信息传输方法、装置、通信设备和存储介质 技术领域
本申请涉及无线通信技术领域但不限于无线通信技术领域,尤其涉及信息传输方法、装置、通信设备和存储介质。
背景技术
新空口(NR,New Radio)中设计了一种能力消减用户设备(Reduced capability User Equipment)用来覆盖中端物联网设备要求,,简称为NR-lite或者Redcap UE。该类型设备同长期演进技术(LTE)中的物联网设备类似,基于5G的NR-lite通常需要满足如下要求:
-低造价,低复杂度
-一定程度的覆盖增强
-功率节省
-有些终端是(1个接收天线)1RX,有些是(两个接收天线)2RX。
发明内容
有鉴于此,本公开实施例提供了一种信息传输方法、装置、通信设备和存储介质。
根据本公开实施例的第一方面,提供一种信息传输方法,被基站执行,其中,所述方法包括:
接收第一类能力简化用户设备UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第 一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在一个实施例中,所述方法还包括:
基于所述带宽能力信息,配置针对所述第一类能力简化UE的传输资源;
向所述第一类能力简化UE发送指示所述传输资源的资源配置信息。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
根据本公开实施例的第二方面,提供一种信息传输方法,其中,被第一类能力简化用户设备UE执行,所述方法包括:
向基站上报带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在一个实施例中,所述方法还包括:
接收来自所述基站的资源配置信息,其中,所述资源配置信息用于指示针对所述第一类能力简化UE的传输资源,其中,所述资源配置信息是所述基站基于所述带宽能力信息确定的;
和/或,
获取预定义的所述资源配置信息。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
根据本公开实施例的第三方面,提供一种信息传输装置,其中,所述装置包括:
第一收发模块,配置为接收第一类能力简化用户设备UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化 UE能分配给数据信道的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在一个实施例中,所述装置还包括:
处理模块,配置为基于所述带宽能力信息,配置针对所述第一类能力简化UE的传输资源;
所述第一收发模块,还配置向所述第一类能力简化UE发送指示所述传输资源的资源配置信息。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
根据本公开实施例的第四方面,提供一种信息传输装置,其中,所述装置包括:
第二收发模块,配置为向基站上报带宽能力信息,其中,所述带宽能力信息,至少用于指示:第一类能力简化用户设备UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最 大带宽。
在一个实施例中,所述带宽能力信息还用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在一个实施例中,所述第二收发模块,还配置为接收来自所述基站的资源配置信息,其中,所述资源配置信息用于指示针对所述第一类能力简化UE的传输资源,其中,所述资源配置信息是所述基站基于所述带宽能力信息确定的;
和/或,
所述第二收发模块,还配置为获取预定义的所述资源配置信息。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
根据本公开实施例的第五方面,提供一种通信设备装置,包括处理器、存储器及存储在存储器上并能够由所述处理器运行的可执行程序,其中,所述处理器运行所述可执行程序时执行如第一方面或第二方面所述信息传输方法的步骤。
根据本公开实施例的第六方面,提供一种存储介质,其上存储由可执行程序,其中,所述可执行程序被处理器执行时实现如第一方面或第二方 面所述信息传输方法的步骤。
本公开实施例提供的信息传输方法、装置、通信设备和存储介质。基站接收第一类能力简化UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。如此,第一类能力简化UE通过带宽能力信息向基站指示自身的第一带宽处理能力,由基站进行第一类能力简化UE数据信道资源的配置。进而第一类能力简化UE能以相对其他类型UE相对较小的带宽处理能力进行数据信道,减少工作负载,进而节省电量。
应当理解的是,以上的一般描述和后文的细节描述仅是示例性和解释性的,并不能限制本公开实施例。
附图说明
此处的附图被并入说明书中并构成本说明书的一部分,示出了符合本发明实施例,并与说明书一起用于解释本发明实施例的原理。
图1是根据一示例性实施例示出的一种无线通信系统的结构示意图;
图2是根据一示例性实施例示出的一种信息传输方法的流程示意图;
图3是根据一示例性实施例示出的另一种信息传输方法的流程示意图;
图4是根据一示例性实施例示出的一种频域资源配置的示意图;
图5是根据一示例性实施例示出的另一种频域资源配置的示意图;
图6是根据一示例性实施例示出的又一种频域资源配置的示意图;
图7是根据一示例性实施例示出的又一种信息传输方法的流程示意图;
图8是根据一示例性实施例示出的再一种信息传输方法的流程示意图;
图9是根据一示例性实施例示出的一种信息传输装置的框图;
图10是根据一示例性实施例示出的另一种信息传输装置的框图;
图11是根据一示例性实施例示出的一种用于信息传输的装置的框图。
具体实施方式
这里将详细地对示例性实施例进行说明,其示例表示在附图中。下面的描述涉及附图时,除非另有表示,不同附图中的相同数字表示相同或相似的要素。以下示例性实施例中所描述的实施方式并不代表与本发明实施例相一致的所有实施方式。相反,它们仅是与如所附权利要求书中所详述的、本发明实施例的一些方面相一致的装置和方法的例子。
在本公开实施例使用的术语是仅仅出于描述特定实施例的目的,而非旨在限制本公开实施例。在本公开实施例和所附权利要求书中所使用的单数形式的“一种”、“所述”和“该”也旨在包括多数形式,除非上下文清楚地表示其他含义。还应当理解,本文中使用的术语“和/或”是指并包含一个或多个相关联的列出项目的任何或所有可能组合。
应当理解,尽管在本公开实施例可能采用术语第一、第二、第三等来描述各种信息,但这些信息不应限于这些术语。这些术语仅用于将同一类型的信息彼此区分开。例如,在不脱离本公开实施例范围的情况下,第一信息也可以被称为第二信息,类似地,第二信息也可以被称为第一信息。取决于语境,如在此所使用的词语“如果”可以被解释成为“在……时”或“当……时”或“响应于确定”。
请参考图1,其示出了本公开实施例提供的一种无线通信系统的结构示意图。如图1所示,无线通信系统是基于蜂窝移动通信技术的通信系统,该无线通信系统可以包括:若干个终端11以及若干个基站12。
其中,终端11可以是指向用户提供语音和/或数据连通性的设备。终端11可以经无线接入网(Radio Access Network,RAN)与一个或多个核心网进行通信,终端11可以是物联网终端,如传感器设备、移动电话(或称为 “蜂窝”电话)和具有物联网终端的计算机,例如,可以是固定式、便携式、袖珍式、手持式、计算机内置的或者车载的装置。例如,站(Station,STA)、订户单元(subscriber unit)、订户站(subscriber station)、移动站(mobile station)、移动台(mobile)、远程站(remote station)、接入点、远程终端(remote terminal)、接入终端(access terminal)、用户装置(user terminal)、用户代理(user agent)、用户设备(user device)、或用户终端(user equipment,UE)。或者,终端11也可以是无人飞行器的设备。或者,终端11也可以是车载设备,比如,可以是具有无线通信功能的行车电脑,或者是外接行车电脑的无线通信设备。或者,终端11也可以是路边设备,比如,可以是具有无线通信功能的路灯、信号灯或者其它路边设备等。
基站12可以是无线通信系统中的网络侧设备。其中,该无线通信系统可以是第四代移动通信技术(the 4th generation mobile communication,4G)系统,又称长期演进(Long Term Evolution,LTE)系统;或者,该无线通信系统也可以是5G系统,又称新空口(new radio,NR)系统或5G NR系统。或者,该无线通信系统也可以是5G系统的再下一代系统。其中,5G系统中的接入网可以称为NG-RAN(New Generation-Radio Access Network,新一代无线接入网)。或者,MTC系统。
其中,基站12可以是4G系统中采用的演进型基站(eNB)。或者,基站12也可以是5G系统中采用集中分布式架构的基站(gNB)。当基站12采用集中分布式架构时,通常包括集中单元(central unit,CU)和至少两个分布单元(distributed unit,DU)。集中单元中设置有分组数据汇聚协议(Packet Data Convergence Protocol,PDCP)层、无线链路层控制协议(Radio Link Control,RLC)层、媒体访问控制(Media Access Control,MAC)层的协议栈;分布单元中设置有物理(Physical,PHY)层协议栈,本公开实施例对基站12的具体实现方式不加以限定。
基站12和终端11之间可以通过无线空口建立无线连接。在不同的实施方式中,该无线空口是基于第四代移动通信网络技术(4G)标准的无线空口;或者,该无线空口是基于第五代移动通信网络技术(5G)标准的无线空口,比如该无线空口是新空口;或者,该无线空口也可以是基于5G的更下一代移动通信网络技术标准的无线空口。
在一些实施例中,终端11之间还可以建立E2E(End to End,端到端)连接。比如车联网通信(vehicle to everything,V2X)中的V2V(vehicle to vehicle,车对车)通信、V2I(vehicle to Infrastructure,车对路边设备)通信和V2P(vehicle to pedestrian,车对人)通信等场景。
在一些实施例中,上述无线通信系统还可以包含网络管理设备13。
若干个基站12分别与网络管理设备13相连接。其中,网络管理设备13可以是无线通信系统中的核心网设备,比如,该网络管理设备13可以是演进的数据分组核心网(Evolved Packet Core,EPC)中的移动性管理实体(Mobility Management Entity,MME)。或者,该网络管理设备也可以是其它的核心网设备,比如服务网关(Serving GateWay,SGW)、公用数据网网关(Public Data Network GateWay,PGW)、策略与计费规则功能单元(Policy and Charging Rules Function,PCRF)或者归属签约用户服务器(Home Subscriber Server,HSS)等。对于网络管理设备13的实现形态,本公开实施例不做限定。
在3GPP Release 17(R17)中引入的RedCap UE主要针对的中速应用,RedCap UE在FR1下的带宽最大为20MHz。相关技术中,针对RedCap UE的适用带宽进行了进一步的缩减。进一步缩减使用带宽的RedCAP UE称为增强(Enhanced)RedCap UE
因此,如何为采用较窄带宽的增强Redcap UE配置资源,实现与网络侧设备的数据通信,,是亟待解决的问题。
如图2所示,本示例性实施例提供一种信息传输方法,所述方法可以被蜂窝移动通信系统的基站执行,包括:
步骤201:接收第一类能力简化用户设备UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
在本公开的所有实施例中,第一类能力简化UE可以通过带宽能力信息上报第一类能力简化UE的类型,从而使得基站侧能够得知第一类能力简化UE的第一带宽处理能力和/或第一带宽阈值。
第一类能力简化UE可以是增强(Enhanced)RedCap UE,增强RedCap UE,可以简称为eRedCap UE。
第二类能力简化UE可以是3GPP Release 17(R17)中的RedCap UE。第二类能力简化UE在FR1(Sub-6GHz)频段下射频收发信机和基带处理模块的带宽处理能力为20MHz。在一种可能的实现方式中,所述第二类能力简化UE能够支持的最大带宽为20MHz。
第一类能力简化UE相对第二类能力简化UE可以具有较低的基带处理宽带和/或射频处理宽带。如此,第一类能力简化UE在进行数据通信时相对第二类能力简化UE可以节省资源和电量。在一种可能的实现方式中,所述第二类能力简化UE能够支持的带宽处理能力(也可以称为最大带宽)为5MHz。
第一类能力简化UE可以在接入基站的过程中和/或在接入基站后,向基站发送带宽能力信息。当然,第二类能力简化UE可以在接入基站的过程中和/或在接入基站后,向基站发送带宽能力信息。
第一类能力简化UE能分配给数据信道的最大带宽,可以包括但不限于:第一类能力简化UE的基带能分配给数据信道的最大带宽。
第一类能力简化UE能分配给数据信道的最大带宽,可以包括但不限于:第一类能力简化UE能分配给数据信道的最大带宽。这里,数据信道可以包括但不限于:业务数据信道。数据信道可以用于传输通信业务数据。示例性的,数据信道可以但不限于包括:物理下行共享信道(PDSCH,Physical Downlink Shared CHannel)、和/或物理上行共享信道(PDSCH,Physical Uplink Shared CHannel)。
第一类能力简化UE能分配给数据信道的最大带宽,可以等于第一带宽处理能力,也可以小于第一带宽处理能力。或,第一类能力简化UE能分配给数据信道的最大带宽小于或等于第一带宽阈值。其中,第一带宽处理能力可以小于或等于第一带宽阈值。
在一个实施例中,第一带宽阈值为5MHz,第二带宽阈值为20MHz。例如,带宽能力信息可以用于指示:第一类能力简化UE的第一带宽处理能力;其中,该第一带宽处理能力小于或等于5MHz。
在本公开的所有实施例中,带宽能力信息既可以是带宽数值本身,也可以是用于标识出带宽数值的参数,还可以是能够根据预设方式确定出带宽数值的参数,本公开实施例中并不对此作出限定。本公开实施例中,对此不再一一进行说明。
示例性的,可以由通信协议规定第一带宽处理能力。例如,通信协议可以规定第一类能力简化UE的第一带宽处理能力为5MHz。即第一类能力简化UE能分配给数据信道的最大带宽小于或等于5MHz。
第一带宽处理能力可以是由通信协议规定的、也可以是由UE上报给基站,或是由基站确定后发送给UE,或是由基站和UE商定的。例如:第一类能力简化UE发送的带宽能力信息可以包括用于指示该第一类能力简化 UE的类型的标识或指示符,以使网络侧设备能够确定发送该带宽能力信息的UE是第一类能力简化UE。在一种可能的实现方式中,当网络侧设备通过UE发送的带宽能力信息确定该UE是第一类能力简化UE,则能够对应的确定第一类能力简化UE的第一带宽处理能力。
第一类能力简化UE能分配给数据信道的最大带宽可以包括但不限于:基带的信号传输路径能够传输数据的带宽、和/或基带处理器等基带信号处理部件能够处理数据的带宽。
基站可以基于第一类能力简化UE上报的带宽能力信息,为第一类能力简化UE配置资源。基站为第一类能力简化UE配置的数据信道资源的带宽,可以小于或等于第一带宽处理能力。
如此,第一类能力简化UE通过带宽能力信息向基站指示该第一类能力简化UE自身的第一带宽处理能力,由基站进行第一类能力简化UE数据信道资源的配置。进而第一类能力简化UE能以相对其他类型UE相对较小的带宽处理能力进行数据信道,减少工作负载,进而节省电量。
在一个实施例中,所述带宽能力信息可以用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
第一类能力简化UE的接收最大带宽可以是第一类能力简化UE接收射频信号的最大带宽。第一类能力简化UE的发送最大带宽可以是第一类能力简化UE发送射频信号的最大带宽。
第一类能力简化UE接收和/或发送的最大带宽可以小于或等于第二带宽处理能力。在本公开的一些可能的实现方式中,第二带宽处理能力可以为:用于传输业务数据的最大带宽和用于传输控制信令的最大带宽的总和。
第一类能力简化UE接收和/或发送的最大带宽可以包括:收发天线、 射频处理器等射频处理单元能够发送和/或接收射频信号的最大带宽。
第一类能力简化UE接收和/或发送的最大带宽:第一类能力简化UE能够监听的射频信号的最大带宽、和/或第一类能力简化UE能够接收的射频信号的最大带宽、和/或第一类能力简化UE能够发送的射频信号的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在本公开的所有实施例中,可以进一步的限定第一类能力简化UE的带宽阈值为小于第一带宽阈值(5MHz)的第三带宽阈值,以进一步的确定第一类能力简化UE的带宽处理能力为小于第一带宽阈值。该场景示例性的可以用于进一步限缩该第一类能力简化UE的带宽能力。
或,在本公开的所有实施例中,可以确定第一类能力简化UE的带宽阈值为大于第一带宽阈值(5MHz)且小于或等于第二带宽阈值(20MHz)的第三带宽阈值,以限定第一类能力简化UE的带宽处理能力可以大于第一带宽阈值且小于或等于第二带宽阈值。即:在一种可能的实现方式中,可以确定第一类能力简化UE的带宽能力大于5MHz并小于或等于20MHz。
第一类能力简化UE接收和/或发送的最大带宽,可以小于或等于第二类能力简化UE支持的第二带宽阈值,并且大于或等于第一带宽阈值。如此,第一类能力简化UE的接收和/或发送的带宽能力,能够满足第一类能力简化UE传输的需求。如满足第一类能力简化UE数据信道、和/或控制信道、和/或参考信号、和/或同步广播块的传输需求。带宽能力信息可以指示第一带宽处理能力小于或等于所述第一带宽阈值,并且第二带宽处理能力小于或等于第三带宽阈值。例如,带宽能力信息可以指示第一带宽处理能力为3MHz,第二带宽处理能力为10MHz。或者带宽能力信息可以指示第一带宽处理能力为5MHz,第二带宽处理能力为20MHz。
在一个实施例中,所述带宽能力信息可以用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽。在本公开的所有实施例中,第三带宽处理能力可以示例性的为:第一类能力简化能分配给控制信道的最大带宽。
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽。在本公开的所有实施例中,第三带宽处理能力可以示例性的为:第一类能力简化UE能分配给参考信号的最大带宽。
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。在本公开的所有实施例中,第三带宽处理能力可以示例性的为:第一类能力简化UE能分配给同步广播块的最大带宽。
在本公开的所有实施例中,该所述带宽能力信息可以用于指示以下的至少一种:第一类能力简化UE的第一带宽处理能力,第二类能力简化UE的第二带宽处理能力,第三类能力简化UE的第三带宽处理能力,第四类能力简化UE的第四带宽处理能力,以及第五类能力简化UE的第五带宽处理能力。
示例性的,在一种场景中,第一类能力简化UE可以通过带宽能力信息 指示第二带宽处理能力,从而使得网络侧设备能够得知第一类能力简化UE用于传输业务数据的最大带宽和用于传输控制信令的最大带宽的总和。且所述第一类能力简化UE还可以通过带宽能力信息指示第二带宽处理能力,以使使得网络侧设备能够得知第一类能力简化UE用于传输业务数据的最大带宽。则网络侧设备能够根据第一带宽处理能力和第二带宽处理能力,确定出第一类能力简化UE用于传输控制信令的最大带宽。
第一类能力简化UE能分配给传输控制信道的最大带宽可以小于或等于第三带宽处理能力。例如,第一带宽阈值为5MHz,第三带宽处理能力可以等于5MHz,UE能分配给控制信道的最大带宽可以为5MHz。
第一类能力简化UE能分配给传输参考信号的最大带宽可以小于或等于第四带宽处理能力。例如,第一带宽阈值为5MHz,第四带宽处理能力可以等于5MHz,UE能分配给参考信号的最大带宽可以为5MHz。
第一类能力简化UE能分配给传输同步广播块的最大带宽可以小于或等于第五带宽处理能力。例如,第一带宽阈值为5MHz,第五带宽处理能力可以等于5MHz,UE能分配给同步广播块的最大带宽可以为5MHz。
其中,控制信道可以用于传输通信控制信令。示例性的,控制信道可以但不限于包括:物理下行控制信道(PDCCH,Physical Downlink Control Channel)、和/或物理上行控制信道(PUCCH,Physical Uplink Control Channel)、和/或物理随机接入信道(PRACH,Physical Random Access Channel)。第一类能力简化UE能分配给控制信道的最大带宽可以是:第一类能力简化UE针对采用控制信道资源传输的控制信号的最大带宽。
其中,参考信号可以但不限于供UE进行信道测量和/或同步。示例性的参考信号可以但不限于包括:信道状态信息参考信号(CSI-RS,Channel State Information-Reference Signal)、和/或定位参考信号(PRS,Positioning Reference Signal)、和/或信道探测参考信号(SRS,Sounding Reference  Signal)。示例性的,可以由通信协议规定UE基带针对不同信道和/或信号的最大处理带宽。
通信协议规定针对不同信道和/或信号的最大处理带宽范围可以是相同的。
示例性的,通信协议可以规定第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大带宽均小于或等于第一带宽阈值。例如,第一带宽阈值为5MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大处理带宽均小于5MHz。
通信协议规定的针对不同信道和/或信号的最大处理带宽范围可以是不同的。例如,可以针对不同业务场景设置不同的处理带宽。
示例性的,在一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道、控制信道以及参考信号的最大处理带宽小于或等于第一带宽阈值,第一类能力简化UE能分配给同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。例如,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道和控制信道的最大处理带宽均小于5MHz,第一类能力简化UE能分配给同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。
示例性的,在另一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道的最大处理带宽小于或等于第一带宽阈值;第一类能力简化UE能分配给控制信道、参考信号和/或同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。例如,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道最大基带处理带宽均小于5MHz,第一类能力简化 UE能分配给控制信道和同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。
以上仅示例性地例举了几种第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的具体配置。满足上述第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大带宽范围的配置组合均可以作为第一类能力简化UE配置的实施方式。
如图3所示,本示例性实施例提供一种信息传输方法,所述方法可以被蜂窝移动通信系统的基站执行,包括:
步骤301:基于所述带宽能力信息,配置针对所述第一类能力简化UE的传输资源;
步骤302:向所述第一类能力简化UE发送指示所述传输资源的资源配置信息。
步骤301和步骤302可以单独实施,也可以和步骤201结合实施。
基站可以基于带宽能力信息为第一类能力简化UE配置资源。基站为第一类能力简化UE配置的资源的带宽,可以小于或等于第一类能力简化UE的带宽处理能力。这里,带宽处理能力可以包括上述第一带宽处理能力至第五带宽处理能力。
资源配置信息还可以是由通信协议预定义的。资源配置信息可以存储在UE的存储其中。例如,同步广播块的传输资源可以是预先定义的,第一类能力简化UE可以基于预先定义的资源配置信息确定同步广播块的传输资源。
如此,根据带宽能力信息指示的处理带宽范围内配置传输资源,满足第一类能力简化UE带宽处理能力。一方面,第一类能力简化UE在传输中采用相对较小的带宽,节省传输资源。另一方面,使得第一类能力简化UE能以较小的带宽进行业务数据处理,减少工作负载,进而节省电量。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
资源配置信息可以但不限于用于调度频谱资源,还可以用于调度时域资源、码域资源等。
不同类型的频谱资源可以采用不同的资源配置信息进行调度。例如:调度数据信道的频谱资源的资源配置信息,可以不同于调度控制信道的频谱资源的资源配置信息。资源配置信息也可以同时用于调度不同信道和/或信号的频谱资源。例如,资源配置信息可以同时用于调度数据信道的频谱资源和控制信道的频谱资源。
基站可以基于第一类能力简化UE的带宽处理能力,为UE配置不同信道和/或信号的频谱资源。满足第一类能力简化UE带宽处理能力的数据信道的频谱资源带宽、控制信道的频谱资源带宽、参考信号的频谱资源带宽和同步广播块的频谱资源带宽的合理组合均可以作为基站为第一类能力简化UE配置频谱资源的实施方式。
示例性的,针对数据信道,第一类能力简化UE能分配的最大带宽可以 小于或等于第一带宽阈值。当基站确定第一类能力简化UE能分配的最大带宽后,可以为第一类能力简化UE配置数据信道的频谱资源带宽小于或等于第一带宽阈值。以符合第一类能力简化UE的最大处理带宽。
示例性的,在一种配置下,第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大带宽均小于或等于第一带宽阈值。
针对该配置基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽、参考信号的频谱资源带宽和同步广播块的频谱资源带宽均小于或等于小于或等于第一带宽阈值。如此,可以使得第一类能力简化UE的基带能够处理数据信道、控制信道、参考信号和同步广播块。
例如,如图4所示,例如,第一带宽阈值为5MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大处理带宽均小于5MHz。基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽、参考信号的频谱资源带宽和同步广播块的频谱资源带宽均小于5MHz。
示例性的,在一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道、控制信道以及参考信号的最大处理带宽小于或等于第一带宽阈值,第一类能力简化UE能分配给同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。
针对该配置基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽和参考信号的频谱资源带宽均小于或等于第一带宽阈值,并配置同步广播块的频谱资源带宽大于第一带宽阈值,但小于或等于第三带宽阈值。如此,可以使得第一类能力简化UE的基带能够处理数据信道、控制信道、参考信号和同步广播块。
例如,如图5所示,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道、控制信道 和参考信号的最大处理带宽均小于5MHz,第一类能力简化UE能分配给同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽和参考信号的频谱资源带宽均小于5MHz,并配置同步广播块的频谱资源带宽大于5MHz,但小于或等于20MHz。
示例性的,在另一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道的最大处理带宽小于或等于第一带宽阈值;第一类能力简化UE能分配给控制信道、参考信号和/或同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。
针对该配置基站可以配置数据信道的频谱资源带宽小于或等于第一带宽阈值,并配置控制信道的频谱资源带宽、参考信号的频谱资源带宽、同步广播块的频谱资源带宽大于第一带宽阈值,但小于或等于第三带宽阈值。如此,可以使得第一类能力简化UE的基带能够处理数据信道、控制信道、参考信号和同步广播块。
例如,如图6所示,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道最大基带处理带宽均小于5MHz,第一类能力简化UE能分配给控制信道、参考信号和同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。基站可以配置数据信道的频谱资源带宽小于或等于5MHz,并配置控制信道的频谱资源带宽、参考信号的频谱资源带宽、同步广播块的频谱资源带宽大于5MHz,但小于或等于20MHz。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
由于第一类能力简化UE的第二带宽处理能力小于或等于所述第三带宽阈值,即在射频频域资源带宽,第一类能力简化UE最多能处理的带宽小于或等于所述第三带宽阈值。
因此,基站在为第一类能力简化UE配置数据信道的频谱资源、和/或控制信道的频谱资源、和/或控制信道的频谱资源、和/或同步广播块的频谱资源时,在同一时刻,配置的频谱资源在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
所述带宽跨度是基于所述数据信道传输的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源中至少一个的最低频率资源和至少一个的最高频率资源确定的。
例如,基站给第一类能力简化UE配置同时监测的任何数量个(如两个或两个以上)信号和/或信道所占用的最低频率和最高频率的差小于或等于所述第三带宽阈值。这里,信号可以包括同步广播块和/或参考信号等,信道可以包括:数据信道、和/或控制信道、和/或参考信号等。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
可以由通信协议等规定第一类能力简化UE的射频能力。射频能力可以是第二带宽处理能力。
示例性的,通信协议可以规定第一类能力简化UE的第二带宽处理能力小于或等于所述第三带宽阈值,即第一类能力简化UE射频最大信道带宽(Channel Bandwith)小于或等于所述第三带宽阈值。
基站为第一类能力简化UE配置BWP时,可以配置BWP小于或等于所述第三带宽阈值。如此,可以满足第一类能力简化UE的射频能力。
如图7所示,本示例性实施例提供一种信息传输方法,所述方法可以被蜂窝移动通信系统的第一类能力简化UE执行,包括:
步骤701:向基站上报带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
需要说明的是,对于相同参数的定义,基站侧的方法中与用户终端UE侧的方法中可以是相同的,因此不再赘述。
在本公开的所有实施例中,第一类能力简化UE可以通过带宽能力信息上报第一类能力简化UE的类型,从而使得基站侧能够得知第一类能力简化UE的第一带宽处理能力和/或第一带宽阈值。
第一类能力简化UE可以是增强(Enhanced)RedCap UE,增强RedCap UE,可以简称为eRedCap UE。
第二类能力简化UE可以是3GPP Release 17(R17)中的RedCap UE。第二类能力简化UE在FR1(Sub-6GHz)频段下射频收发信机和基带处理模块的带宽处理能力为20MHz。在一种可能的实现方式中,所述第二类能力简化UE能够支持的最大带宽为20MHz。
第一类能力简化UE相对第二类能力简化UE可以具有较低的基带处理宽带和/或射频处理宽带。如此,第一类能力简化UE在进行数据通信时相对第二类能力简化UE可以节省资源和电量。在一种可能的实现方式中,所述第二类能力简化UE能够支持的带宽处理能力(也可以称为最大带宽)为5MHz。
第一类能力简化UE可以在接入基站的过程中和/或在接入基站后,向基站发送带宽能力信息。当然,第二类能力简化UE可以在接入基站的过程中和/或在接入基站后,向基站发送带宽能力信息。
第一类能力简化UE能分配给数据信道的最大带宽,可以包括但不限 于:第一类能力简化UE的基带能分配给数据信道的最大带宽。
第一类能力简化UE能分配给数据信道的最大带宽,可以包括但不限于:第一类能力简化UE能分配给数据信道的最大带宽。这里,数据信道可以包括但不限于:业务数据信道。数据信道可以用于传输通信业务数据。示例性的,数据信道可以但不限于包括:PDSCH、和/或PUSCH。
第一类能力简化UE能分配给数据信道的最大带宽,可以等于第一带宽处理能力,也可以小于第一带宽处理能力。或,第一类能力简化UE能分配给数据传输的最大带宽小于或等于第一带宽阈值。其中,第一带宽处理能力可以小于或等于第一带宽阈值。
在一个实施例中,第一带宽阈值为5MHz,第二带宽阈值为20MHz。例如,带宽能力信息可以用于指示:第一类能力简化UE的第一带宽处理能力,其中,该第一带宽处理能力小于或等于5MHz。
在本公开的所有实施例中,带宽能力信息既可以是带宽数值本身,也可以是用于标识出带宽数值的参数,还可以是能够根据预设方式确定出带宽数值的参数,本公开实施例中并不对此作出限定。本公开实施例中,对此不再一一进行说明。
示例性的,可以由通信协议规定第一带宽处理能力。例如,通信协议可以规定第一类能力简化UE的第一带宽处理能力为5MHz。即第一类能力简化UE能分配给数据信道的最大带宽小于或等于5MHz。
第一带宽处理能力可以是由通信协议规定的、也可以是由UE上报给基站,或是和基站确定后发送给UE,或是有基站和UE商定的。例如:第一类能力简化UE发送的带宽能力信息可以包括用于指示该第一类能力简化UE的类型的标识或指示符,以使网络侧设备能够确定发送该带宽能力信息的UE是第一类能力简化UE。在一种可能的实现方式中,当网络侧设备通过UE发送的带宽能力信息确定该UE是第一类能力简化UE,则能够对应 的确定第一类能力简化UE的第一带宽处理能力。
第一类能力简化UE能分配给数据信道的最大带宽可以包括但不限于:基带的信号传输路径能够传输数据的带宽、和/或基带处理器等基带信号处理部件能够处理数据的带宽。
基站可以基于第一类能力简化UE上报的带宽能力信息,为第一类能力简化UE配置资源。基站为第一类能力简化UE配置的数据信道资源的带宽,可以小于或等于第一带宽处理能力。
如此,第一类能力简化UE通过带宽能力信息向基站指示该第一类能力简化UE的第一带宽处理能力,由基站进行第一类能力简化UE数据信道资源的配置。进而第一类能力简化UE能以相对其他类型UE相对较小的带宽处理能力进行数据信道,减少工作负载,进而节省电量。
在一个实施例中,所述带宽能力信息可以用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
第一类能力简化UE的接收最大带宽可以是第一类能力简化UE接收射频信号的最大带宽。第一类能力简化UE的发送最大带宽可以是第一类能力简化UE发送射频信号的最大带宽。
第一类能力简化UE接收和/或发送的最大带宽可以小于或等于第二带宽处理能力。在本公开的一些可能的实现方式中,第二带宽处理能力可以为:用于传输业务数据的最大带宽和用于传输控制信令的最大带宽的总和。
第一类能力简化UE接收和/或发送的最大带宽可以包括:收发天线、射频处理器等射频处理单元能够发送和/或接收射频信号的最大带宽。
第一类能力简化UE接收和/或发送的最大带宽:第一类能力简化UE能够监听的射频信号的最大带宽、和/或第一类能力简化UE能够接收的射频 信号的最大带宽、和/或第一类能力简化UE能够发送的射频信号的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在本公开的所有实施例中,可以进一步的限定第一类能力简化UE的带宽阈值为小于第一带宽阈值(5MHz)的第三带宽阈值,以进一步的确定第一类能力简化UE的带宽处理能力为小于第一带宽阈值。该场景示例性的可以用于进一步限缩该第一类能力简化UE的带宽能力。
或,在本公开的所有实施例中,可以确定第一类能力简化UE的带宽阈值为大于第一带宽阈值(5MHz)且小于或等于第二带宽阈值(20MHz)的第三带宽阈值,以限定第一类能力简化UE的带宽处理能力可以大于第一带宽阈值且小于或等于第二带宽阈值。即:在一种可能的实现方式中,可以确定第一类能力简化UE的带宽能力大于5MHz并小于或等于20MHz。
第一类能力简化UE接收和/或发送的最大带宽,可以小于或等于第二类能力简化UE支持的第二带宽阈值,并且大于或等于第一带宽阈值。如此,第一类能力简化UE的接收和/或发送的带宽能力,能够满足第一类能力简化UE传输的需求。如满足第一类能力简化UE数据信道、和/或控制信道、和/或参考信号、和/或同步广播块的传输需求。
带宽能力信息可以指示第一带宽处理能力小于或等于所述第一带宽阈值,并且第二带宽处理能力小于或等于第三带宽阈值。例如,带宽能力信息可以指示第一带宽处理能力为3MHz,第二带宽处理能力为10MHz。或者带宽能力信息可以指示第一带宽处理能力为5MHz,第二带宽处理能力为20MHz。
在一个实施例中,所述带宽能力信息可以用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处 理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽。在本公开的所有实施例中,第三带宽处理能力可以示例性的为:第一类能力简化能分配给控制信道的最大带宽。
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽。在本公开的所有实施例中,第三带宽处理能力可以示例性的为:第一类能力简化UE能分配给参考信号的最大带宽。
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。在本公开的所有实施例中,第三带宽处理能力可以示例性的为:第一类能力简化UE能分配给同步广播块的最大带宽。
在本公开的所有实施例中,该所述带宽能力信息可以用于指示以下的至少一种:第一类能力简化UE的第一带宽处理能力,第二类能力简化UE的第二带宽处理能力,第三类能力简化UE的第三带宽处理能力,第四类能力简化UE的第四带宽处理能力,以及第五类能力简化UE的第五带宽处理能力。
示例性的,在一种场景中,第一类能力简化UE可以通过带宽能力信息指示第二带宽处理能力,从而使得网络侧设备能够得知第一类能力简化UE用于传输业务数据的最大带宽和用于传输控制信令的最大带宽的总和。且 所述第一类能力简化UE还可以通过带宽能力信息指示第二带宽处理能力,以使使得网络侧设备能够得知第一类能力简化UE用于传输业务数据的最大带宽。则网络侧设备能够根据第一带宽处理能力和第二带宽处理能力,确定出第一类能力简化UE用于传输控制信令的最大带宽。
第一类能力简化UE能分配给传输控制信道的最大带宽可以小于或等于第三带宽处理能力。例如,第一带宽阈值为5MHz,第三带宽处理能力可以等于5MHz,UE能分配给控制信道的最大带宽可以为5MHz。
第一类能力简化UE能分配给传输参考信号的最大带宽可以小于或等于第四带宽处理能力。例如,第一带宽阈值为5MHz,第四带宽处理能力可以等于5MHz,UE能分配给参考信号的最大带宽可以为5MHz。
第一类能力简化UE能分配给传输同步广播块的最大带宽可以小于或等于第五带宽处理能力。例如,第一带宽阈值为5MHz,第五带宽处理能力可以等于5MHz,UE能分配给同步广播块的最大带宽可以为5MHz。
其中,控制信道可以用于传输通信控制信令。示例性的,控制信道可以但不限于包括:PDCCH、和/或PUCCH、和/或PRACH。第一类能力简化UE能分配给控制信道的最大带宽可以是:第一类能力简化UE针对采用控制信道资源传输的控制信号的最大带宽。
其中,参考信号可以用于传输参考信号。参考信号可以但不限于供UE进行信道测量和/或同步。示例性的参考信号可以但不限于包括:CSI-RS、和/或PRS、和/或SRS。示例性的,可以由通信协议规定UE基带针对不同信道和/或信号的最大处理带宽。
通信协议规定针对不同信道和/或信号的最大处理带宽范围可以是相同的。
示例性的,通信协议可以规定第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大带宽之中的至少一个,且第一类 能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大带宽均小于或等于第一带宽阈值。例如,第一带宽阈值为5MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大处理带宽均小于5MHz。
通信协议规定的针对不同信道和/或信号的最大处理带宽范围可以是不同的。例如,可以针对不同业务场景设置不同的处理带宽。
示例性的,在一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道、控制信道以及参考信号的最大处理带宽小于或等于第一带宽阈值,第一类能力简化UE能分配给同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。例如,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道和控制信道的最大处理带宽均小于5MHz,第一类能力简化UE能分配给同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。
示例性的,在另一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道的最大处理带宽小于或等于第一带宽阈值;第一类能力简化UE能分配给控制信道、参考信号、同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。例如,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道最大基带处理带宽均小于5MHz,第一类能力简化UE能分配给控制信道和同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。
以上仅示例性地例举了几种第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的具体配置。满足上述第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大带宽范围的 配置组合均可以作为第一类能力简化UE配置的实施方式。
如图8所示,本示例性实施例提供一种信息传输方法,所述方法可以被蜂窝移动通信系统的第一类能力简化UE执行,包括:
步骤801a:接收来自所述基站的资源配置信息,其中,所述资源配置信息用于指示针对所述第一类能力简化UE的传输资源,其中,所述资源配置信息是所述基站基于所述带宽能力信息确定的;
和/或,
步骤801b:获取预定义的所述资源配置信息。
步骤801a和801b可以单独实施,也可以和步骤701结合实施。
基站可以基于带宽能力信息为第一类能力简化UE配置资源。基站为第一类能力简化UE配置的资源的带宽,可以小于或等于第一类能力简化UE的带宽处理能力。这里,带宽处理能力可以包括上述第一带宽处理能力至第五带宽处理能力。
资源配置信息还可以是由通信协议预定义的。资源配置信息可以存储在UE的存储其中。例如,同步广播块的传输资源可以是预先定义的,第一类能力简化UE可以基于预先定义的资源配置信息确定同步广播块的传输资源。
如此,根据带宽能力信息指示的处理带宽范围内配置传输资源,满足第一类能力简化UE带宽处理能力。一方面,第一类能力简化UE在传输中采用相对较小的带宽,节省传输资源。另一方面,使得第一类能力简化UE能以较小的带宽进行业务数据处理,减少工作负载,进而节省电量。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小 于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
资源配置信息可以但不限于用于调度频谱资源,还可以用于调度时域资源、码域资源等。
不同类型的频谱资源可以采用不同的资源配置信息进行调度。例如:调度数据信道的频谱资源的资源配置信息,可以不同于调度控制信道的频谱资源的资源配置信息。资源配置信息也可以同时用于调度不同信道和/或信号的频谱资源。例如,资源配置信息可以同时用于调度数据信道的频谱资源和控制信道的频谱资源。
基站可以基于第一类能力简化UE的带宽处理能力,为UE配置不同信道和/或信号的频谱资源。满足第一类能力简化UE带宽处理能力的数据信道的频谱资源带宽、控制信道的频谱资源带宽、参考信号的频谱资源带宽和同步广播块的频谱资源带宽的合理组合均可以作为基站为第一类能力简化UE配置频谱资源的实施方式。
示例性的,针对数据信道,第一类能力简化UE能分配的最大带宽可以小于或等于第一带宽阈值。当基站确定第一类能力简化UE能分配的最大带宽后,可以为第一类能力简化UE配置数据信道的频谱资源带宽小于或等于第一带宽阈值。以符合第一类能力简化UE的最大处理带宽。
示例性的,在一种配置下,第一类能力简化UE能分配给数据信道、控 制信道、参考信号和同步广播块的最大带宽均小于或等于第一带宽阈值。
针对该配置基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽、参考信号的频谱资源带宽和同步广播块的频谱资源带宽均小于或等于小于或等于第一带宽阈值。如此,可以使得第一类能力简化UE的基带能够处理数据信道、控制信道、参考信号和同步广播块。
例如,如图4所示,例如,第一带宽阈值为5MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道、控制信道、参考信号和同步广播块的最大处理带宽均小于5MHz。基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽、参考信号的频谱资源带宽和同步广播块的频谱资源带宽均小于5MHz。
示例性的,在一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道、控制信道以及参考信号的最大处理带宽小于或等于第一带宽阈值,第一类能力简化UE能分配给同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。
针对该配置基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽和参考信号的频谱资源带宽均小于或等于第一带宽阈值,并配置同步广播块的频谱资源带宽大于第一带宽阈值,但小于或等于第三带宽阈值。如此,可以使得第一类能力简化UE的基带能够处理数据信道、控制信道、参考信号和同步广播块。
例如,如图5所示,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道、控制信道和参考信号的最大处理带宽均小于5MHz,第一类能力简化UE能分配给同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。基站可以配置数据信道的频谱资源带宽、控制信道的频谱资源带宽和参考信号的频谱资源带宽均小于5MHz,并配置同步广播块的频谱资源带宽大于5MHz, 但小于或等于20MHz。
示例性的,在另一种配置下,带宽能力信息指示的第一类能力简化UE能分配给数据信道的最大处理带宽小于或等于第一带宽阈值;第一类能力简化UE能分配给控制信道、参考信号和/或同步广播块的最大处理带宽大于第一带宽阈值,但小于或等于第三带宽阈值。
针对该配置基站可以配置数据信道的频谱资源带宽小于或等于第一带宽阈值,并配置控制信道的频谱资源带宽、参考信号的频谱资源带宽、同步广播块的频谱资源带宽大于第一带宽阈值,但小于或等于第三带宽阈值。如此,可以使得第一类能力简化UE的基带能够处理数据信道、控制信道、参考信号和同步广播块。
例如,如图6所示,第一带宽阈值为5MHz,第三带宽阈值为20MHz。带宽能力信息可以指示第一类能力简化UE能分配给数据信道最大基带处理带宽均小于5MHz,第一类能力简化UE能分配给控制信道、参考信号和同步广播块的最大处理带宽大于5MHz,但小于或等于20MHz。基站可以配置数据信道的频谱资源带宽小于或等于5MHz,并配置控制信道的频谱资源带宽、参考信号的频谱资源带宽、同步广播块的频谱资源带宽大于5MHz,但小于或等于20MHz。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
由于第一类能力简化UE的第二带宽处理能力小于或等于所述第三带宽阈值,即在射频频域资源带宽第一类能力简化UE最多能处理的带宽小于或等于所述第三带宽阈值。
因此,基站在为第一类能力简化UE配置数据信道的频谱资源、和/或 控制信道的频谱资源、和/或控制信道的频谱资源、和/或同步广播块的频谱资源时,在同一时刻,配置的频谱资源在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
所述带宽跨度是基于所述数据信道传输的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源中至少一个的最低频率资源和至少一个的最高频率资源确定的
例如,基站给第一类能力简化UE配置同时监测的任何数量个(如两个或两个以上)信号和/或信道所占用的最低频率和最高频率的差小于或等于所述第三带宽阈值。这里,信号可以包括同步广播块和/或参考信号等,信道可以包括:数据信道、和/或控制信道、和/或参考信号等。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
可以由通信协议等规定第一类能力简化UE的射频能力。射频能力可以是第二带宽处理能力。
示例性的,通信协议可以规定第一类能力简化UE的第二带宽处理能力小于或等于所述第三带宽阈值,即第一类能力简化UE射频最大信道带宽(Channel Bandwith)小于或等于所述第三带宽阈值。
基站为第一类能力简化UE配置BWP时,可以配置BWP小于或等于所述第三带宽阈值。如此,可以满足第一类能力简化UE的射频能力。
以下结合上述任意实施例提供一个具体示例:
相关技术中看,要求在FR1 RedCap UE基础上,进一步缩减UE带宽(bandwidth)得到eRedCap UE。但是同时缩减射频处理带宽(RF bandwidth)和基带处理带宽,会对协议带来巨大的改动,同时也会影响产品的实现。因此需要定义对协议和产品实现更加友好的终端。采用的方法如下:
方法一:
终端针对数据信道、控制信道、同步广播块以及参考信号在基带的处理带宽小于或等于第一门限。
终端在射频(RF)的处理带宽/最大信道带宽(channel bandwidth)小于或等于第二门限。
基站给每个数据信道、或控制信道、或参考信号、或同步广播块所占用的频谱资源不大于第一门限。
基站给终端配置的BWP所占用的频谱资源带宽不大于第二门限。
禁止基站给终端配置同时监测不满足第一条件的任何两个或多个信号/信道。所述第一条件为上述两个或多个信号中所占用的最低频率和最高频率的差大于第二门限。
第二门限大于第一门限。例如,第一门限为5MHz,第二门限为20MHz。
控制信道包括:PDCCH、PUCCH、和/或PRACH,参考符号包括CSI-RS、PRS和/或SRS等
方法二:
终端针对数据信道、控制信道以及参考信号在基带的处理带宽小于或等于第一门限。
终端针对同步广播块的处理带宽能力大于第一门限,但小于或等于第二门限。
终端在射频(RF)的处理带宽/最大信道带宽(channel bandwidth)小于或等于第二门限。
基站给每个数据信道、或控制信道、或参考信号所占用的频谱资源不大于第一门限。
基站可以给同步广播块分配的资源大于第一门限,但小于或等于第二门限。
基站给终端配置的BWP所占用的频谱资源带宽不大于第二门限。
禁止基站给终端配置同时监测不满足第一条件的任何两个或多个信号/信道。所述第一条件为上述两个或多个信号中所占用的最低频率和最高频率的差大于第二门限。
第二门限大于第一门限。例如,第一门限为5MHz,第二门限为20MHz。
控制信道包括:PDCCH、PUCCH、和/或PRACH,参考符号包括CSI-RS、PRS和/或SRS等。
方法三:
终端针对数据信道在基带的处理带宽小于或等于第一门限。
终端针对控制信道、参考信号和/或同步广播块的处理带宽能力大于第一门限,但小于或等于第二门限。
终端在射频(RF)的处理带宽/最大信道带宽(channel bandwidth)小于或等于第二门限。
基站给每个数据信道所占用的频谱资源不大于第一门限。
基站可以给同步广播块、控制信道、和/或参考符号的资源大于第一门限,但小于或等于第二门限。
基站给终端配置的BWP所占用的频谱资源带宽不大于第二门限。
禁止基站给终端配置同时监测不满足第一条件的任何两个或多个信号/信道。所述第一条件为上述两个或多个信号中所占用的最低频率和最高频率的差大于第二门限。
第二门限大于第一门限。例如,第一门限为5MHz,第二门限为20MHz。
控制信道包括:PDCCH、PUCCH、和/或PRACH,参考符号包括CSI-RS、PRS和/或SRS等。
本发明实施例还提供了一种信息传输装置,如图9所示,应用于蜂窝移动无线通信的基站中,其中,所述装置100包括:
第一收发模块110,配置为接收第一类能力简化用户设备UE上报的带 宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在一个实施例中,所述装置还包括:
处理模块120,配置为基于所述带宽能力信息,配置针对所述第一类能力简化UE的传输资源;
所述第一收发模块110,还配置向所述第一类能力简化UE发送指示所述传输资源的资源配置信息。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
本发明实施例还提供了一种信息传输装置,如图10所示,应用于蜂窝移动无线通信的第一类能力简化用户设备UE中,其中,所述装置200包括:
第二收发模块210,配置为向基站上报带宽能力信息,其中,所述带宽 能力信息,至少用于指示:第一类能力简化用户设备UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示:
所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
在一个实施例中,所述带宽能力信息还用于指示以下至少之一:
所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
在一个实施例中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
在一个实施例中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
在一个实施例中,所述第二收发模块210,还配置为接收来自所述基站 的资源配置信息,其中,所述资源配置信息用于指示针对所述第一类能力简化UE的传输资源,其中,所述资源配置信息是所述基站基于所述带宽能力信息确定的;
和/或,
所述第二收发模块210,还配置为获取预定义的所述资源配置信息。
在一个实施例中,所述资源配置信息,用于指示以下至少之一:
所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
在一个实施例中,所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
在示例性实施例中,第一收发模块110、处理模块120和第二收发模块210等可以被一个或多个中央处理器(CPU,Central Processing Unit)、图形 处理器(GPU,Graphics Processing Unit)、基带处理器(BP,Baseband Processor)、应用专用集成电路(ASIC,Application Specific Integrated Circuit)、DSP、可编程逻辑器件(PLD,Programmable Logic Device)、复杂可编程逻辑器件(CPLD,Complex Programmable Logic Device)、现场可编程门阵列(FPGA,Field-Programmable Gate Array)、通用处理器、控制器、微控制器(MCU,Micro Controller Unit)、微处理器(Microprocessor)、或其他电子元件实现,用于执行前述方法。
图11是根据一示例性实施例示出的一种用于信息传输的装置3000的框图。例如,装置3000可以是移动电话、计算机、数字广播终端、消息收发设备、游戏控制台、平板设备、医疗设备、健身设备、个人数字助理等。
参照图11,装置3000可以包括以下一个或多个组件:处理组件3002、存储器3004、电源组件3006、多媒体组件3008、音频组件3010、输入/输出(I/O)接口3012、传感器组件3014、以及通信组件3016。
处理组件3002通常控制装置3000的整体操作,诸如与显示、电话呼叫、数据通信、相机操作和记录操作相关联的操作。处理组件3002可以包括一个或多个处理器3020来执行指令,以完成上述的方法的全部或部分步骤。此外,处理组件3002可以包括一个或多个模块,便于处理组件3002和其他组件之间的交互。例如,处理组件3002可以包括多媒体模块,以方便多媒体组件3008和处理组件3002之间的交互。
存储器3004被配置为存储各种类型的数据以支持在装置3000的操作。这些数据的示例包括用于在装置3000上操作的任何应用程序或方法的指令、联系人数据、电话簿数据、消息、图片、视频等。存储器3004可以由任何类型的易失性或非易失性存储设备或者它们的组合实现,如静态随机存取存储器(SRAM)、电可擦除可编程只读存储器(EEPROM)、可擦除可编程只读存储器(EPROM)、可编程只读存储器(PROM)、只读存储器 (ROM)、磁存储器、快闪存储器、磁盘或光盘。
电源组件3006为装置3000的各种组件提供电力。电源组件3006可以包括电源管理系统、一个或多个电源、及其他与为装置3000生成、管理和分配电力相关联的组件。
多媒体组件3008包括在装置3000和用户之间的提供一个输出接口的屏幕。在一些实施例中,屏幕可以包括液晶显示器(LCD)和触摸面板(TP)。如果屏幕包括触摸面板,屏幕可以被实现为触摸屏,以接收来自用户的输入信号。触摸面板包括一个或多个触摸传感器以感测触摸、滑动和触摸面板上的手势。触摸传感器可以不仅感测触摸或滑动动作的边界,而且还检测与触摸或滑动操作相关的持续时间和压力。在一些实施例中,多媒体组件3008包括一个前置摄像头和/或后置摄像头。当装置3000处于操作模式,如拍摄模式或视频模式时,前置摄像头和/或后置摄像头可以接收外部的多媒体数据。每个前置摄像头和后置摄像头可以是一个固定的光学透镜系统或具有焦距和光学变焦能力。
音频组件3010被配置为输出和/或输入音频信号。例如,音频组件3010包括一个麦克风(MIC),当装置3000处于操作模式,如呼叫模式、记录模式和语音识别模式时,麦克风被配置为接收外部音频信号。所接收的音频信号可以被进一步存储在存储器3004或经由通信组件3016发送。在一些实施例中,音频组件3010还包括一个扬声器,用于输出音频信号。
I/O接口3012为处理组件3002和外围接口模块之间提供接口,上述外围接口模块可以是键盘、点击轮、按钮等。这些按钮可包括但不限于:主页按钮、音量按钮、启动按钮和锁定按钮。
传感器组件3014包括一个或多个传感器,用于为装置3000提供各个方面的状态评估。例如,传感器组件3014可以检测到装置3000的打开/关闭状态、组件的相对定位,例如组件为装置3000的显示器和小键盘,传感 器组件3014还可以检测装置3000或装置3000一个组件的位置改变、用户与装置3000接触的存在或不存在、装置3000方位或加速/减速和装置3000的温度变化。传感器组件3014可以包括接近传感器,被配置用来在没有任何的物理接触时检测附近物体的存在。传感器组件3014还可以包括光传感器,如CMOS或CCD图像传感器,用于在成像应用中使用。在一些实施例中,该传感器组件3014还可以包括加速度传感器、陀螺仪传感器、磁传感器、压力传感器或温度传感器。
通信组件3016被配置为便于装置3000和其他设备之间有线或无线方式的通信。装置3000可以接入基于通信标准的无线网络,如Wi-Fi、2G或3G,或它们的组合。在一个示例性实施例中,通信组件3016经由广播信道接收来自外部广播管理系统的广播信号或广播相关信息。在一个示例性实施例中,通信组件3016还包括近场通信(NFC)模块,以促进短程通信。例如,在NFC模块可基于射频识别(RFID)技术、红外数据协会(IrDA)技术、超宽带(UWB)技术、蓝牙(BT)技术和其他技术来实现。
在示例性实施例中,装置3000可以被一个或多个应用专用集成电路(ASIC)、数字信号处理器(DSP)、数字信号处理设备(DSPD)、可编程逻辑器件(PLD)、现场可编程门阵列(FPGA)、控制器、微控制器、微处理器或其他电子元件实现,用于执行上述方法。
在示例性实施例中,还提供了一种包括指令的非临时性计算机可读存储介质,例如包括指令的存储器3004,上述指令可由装置3000的处理器3020执行以完成上述方法。例如,非临时性计算机可读存储介质可以是ROM、随机存取存储器(RAM)、CD-ROM、磁带、软盘和光数据存储设备等。
本领域技术人员在考虑说明书及实践这里公开的发明后,将容易想到本发明实施例的其它实施方案。本申请旨在涵盖本发明实施例的任何变型、 用途或者适应性变化,这些变型、用途或者适应性变化遵循本发明实施例的一般性原理并包括本公开实施例未公开的本技术领域中的公知常识或惯用技术手段。说明书和实施例仅被视为示例性的,本发明实施例的真正范围和精神由下面的权利要求指出。
应当理解的是,本发明实施例并不局限于上面已经描述并在附图中示出的精确结构,并且可以在不脱离其范围进行各种修改和改变。本发明实施例的范围仅由所附的权利要求来限制。

Claims (22)

  1. 一种信息传输方法,被基站执行,其中,所述方法包括:
    接收第一类能力简化用户设备UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
  2. 根据权利要求1所述的方法,其中,所述带宽能力信息还用于指示:
    所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
  3. 根据权利要求2所述的方法,其中,所述带宽能力信息还用于指示以下至少之一:
    所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
    所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
    所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理 能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
  4. 根据权利要求2或3所述的方法,其中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
  5. 根据权利要求2或3任一项所述的方法,其中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
  6. 根据权利要求1至3任一项所述的方法,其中,所述方法还包括:
    基于所述带宽能力信息,配置针对所述第一类能力简化UE的传输资源;
    向所述第一类能力简化UE发送指示所述传输资源的资源配置信息。
  7. 根据权利要求6任一项所述的方法,其中,所述资源配置信息,用于指示以下至少之一:
    所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
    控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
    参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
    同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
  8. 根据权利要求7所述的方法,其中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等 于所述第三带宽阈值。
  9. 根据权利要求6所述的方法,其中,
    所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
  10. 一种信息传输方法,其中,被第一类能力简化用户设备UE执行,所述方法包括:
    向基站上报带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
  11. 根据权利要求10所述的方法,其中,所述带宽能力信息还用于指示:
    所述第一类能力简化UE的第二带宽处理能力,其中,所述第二带宽处理能力小于或等于第三带宽阈值;所述第二带宽处理能力,用于确定所述第一类能力简化UE接收和/或发送的最大带宽。
  12. 根据权利要求11所述的方法,其中,所述带宽能力信息还用于指示以下至少之一:
    所述第一类能力简化UE的第三带宽处理能力,其中,所述第三带宽处理能力小于或等于所述第一带宽阈值;或者,所述第三带宽处理能力大于所述第一带宽阈值并且小于或等于第三带宽阈值;所述第三带宽处理能力,用于确定所述第一类能力简化UE能分配给控制信道的最大带宽;
    所述第一类能力简化UE的第四带宽处理能力,其中,所述第四带宽处理能力小于或等于所述第一带宽阈值;或者,所述第四带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第四带宽处理能力,用于确定所述第一类能力简化UE能分配给参考信号的最大带宽;
    所述第一类能力简化UE的第五带宽处理能力,其中,所述第五带宽处理能力小于或等于所述第一带宽阈值;或者,所述第五带宽处理能力大于所述第一带宽阈值并且小于或等于所述第三带宽阈值;所述第五带宽处理能力,用于确定所述第一类能力简化UE能分配给同步广播块的最大带宽。
  13. 根据权利要求11或12所述的方法,其中,所述第三带宽阈值大于或者等于所述第一带宽阈值。
  14. 根据权利要求11或12任一项所述的方法,其中,所述第三带宽阈值等于或者小于所述第二带宽阈值。
  15. 根据权利要求10至12任一项所述的方法,其中,所述方法还包括:
    接收来自所述基站的资源配置信息,其中,所述资源配置信息用于指示针对所述第一类能力简化UE的传输资源,其中,所述资源配置信息是所述基站基于所述带宽能力信息确定的;
    和/或,
    获取预定义的所述资源配置信息。
  16. 根据权利要求15任一项所述的方法,其中,所述资源配置信息,用于指示以下至少之一:
    所述数据信道的频谱资源,其中,所述数据信道的频谱资源的最大带宽小于或等于第一带宽阈值;
    控制信道的频谱资源,其中,所述控制信道的频谱资源的最大带宽小于或等于所述第一带宽阈值,或者所述控制信道的频谱资源的最大带宽大于所述第一带宽阈值,并且小于或等于第三带宽阈值;
    参考信号的频谱资源,其中,所述参考信号的频谱资源的最大带宽小于或等于第一带宽阈值,或者所述参考信号的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值;
    同步广播块的频谱资源,其中,所述同步广播块的频谱资源的最大带 宽小于或等于第一带宽阈值,或者所述同步广播块的频谱资源的最大带宽大于第一带宽阈值,并且小于或等于所述第三带宽阈值。
  17. 根据权利要求16所述的方法,其中,所述资源配置信息指示的所述数据信道的频谱资源、和/或控制信道的频谱资源、和/或参考信号的频谱资源、和/或同步广播块的频谱资源在同一时刻在频域上占用的带宽跨度小于或等于所述第三带宽阈值。
  18. 根据权利要求15所述的方法,其中,
    所述资源配置信息,还用于指示配置给所述UE的部分带宽BWP,其中,所述BWP的带宽小于或等于第三带宽阈值。
  19. 一种信息传输装置,其中,所述装置包括:
    第一收发模块,配置为接收第一类能力简化用户设备UE上报的带宽能力信息,其中,所述带宽能力信息,至少用于指示:所述第一类能力简化UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
  20. 一种信息传输装置,其中,所述装置包括:
    第二收发模块,配置为向基站上报带宽能力信息,其中,所述带宽能力信息,至少用于指示:第一类能力简化用户设备UE的第一带宽处理能力,其中,所述第一带宽处理能力小于或等于第一带宽阈值,其中,所述第一带宽阈值小于第二类能力简化UE能够支持的第二带宽阈值,其中,所述第一带宽处理能力,用于确定所述第一类能力简化UE能分配给数据信道的最大带宽。
  21. 一种通信设备装置,包括处理器、存储器及存储在存储器上并能够由所述处理器运行的可执行程序,其中,所述处理器运行所述可执行程序 时执行如权利要求1至9、或10至18任一项所述信息传输方法的步骤。
  22. 一种存储介质,其上存储由可执行程序,其中,所述可执行程序被处理器执行时实现如权利要求1至9、或10至18任一项所述信息传输方法的步骤。
PCT/CN2022/086463 2022-04-12 2022-04-12 信息传输方法、装置、通信设备和存储介质 WO2023197188A1 (zh)

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