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WO2024125390A1 - 传输方法、装置、网络侧设备及终端 - Google Patents

传输方法、装置、网络侧设备及终端 Download PDF

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Publication number
WO2024125390A1
WO2024125390A1 PCT/CN2023/137309 CN2023137309W WO2024125390A1 WO 2024125390 A1 WO2024125390 A1 WO 2024125390A1 CN 2023137309 W CN2023137309 W CN 2023137309W WO 2024125390 A1 WO2024125390 A1 WO 2024125390A1
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WO
WIPO (PCT)
Prior art keywords
signal
format
information
terminal
feedback information
Prior art date
Application number
PCT/CN2023/137309
Other languages
English (en)
French (fr)
Inventor
李东儒
吴凯
Original Assignee
维沃移动通信有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 维沃移动通信有限公司 filed Critical 维沃移动通信有限公司
Publication of WO2024125390A1 publication Critical patent/WO2024125390A1/zh

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W80/00Wireless network protocols or protocol adaptations to wireless operation
    • H04W80/06Transport layer protocols, e.g. TCP [Transport Control Protocol] over wireless
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/08Testing, supervising or monitoring using real traffic
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0261Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
    • H04W52/0274Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof

Definitions

  • the present application belongs to the field of communication technology, and specifically relates to a transmission method, device, network-side equipment and terminal.
  • the RF (Radio Frequency, RF) and baseband (MODEM) modules are truly turned off, thereby greatly reducing the power consumption of communication reception.
  • This near "zero" power receiver does not require complex RF module signal detection (such as amplification, filtering, quantization, etc.) and MODEM signal processing, and only relies on passive matching filtering and signal processing with low power consumption.
  • the near "zero" power receiver can be activated to obtain the activation notification, thereby triggering a series of processes inside the terminal, such as turning on the RF transceiver and baseband processing modules.
  • the embodiments of the present application provide a transmission method, an apparatus, a network-side device, and a terminal, which can flexibly select the transmission format of a signal.
  • a transmission method comprising:
  • the network side device sends a first signal in a first format
  • the network side device sends a first signal in a second format when the first condition is met;
  • the first condition includes at least one of the following:
  • the first information is reception feedback information of a first signal in the first format
  • the second information is relevant information of the terminal awakened by the first signal in the first format
  • a measurement value of the first signal in the first format satisfies a first threshold
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • the first signal includes at least one of the following: a wake-up signal, a control command related to backscatter communication.
  • a transmission device comprising:
  • a first sending module configured to send a first signal in a first format
  • a second sending module configured to send a first signal in a second format when the first condition is met
  • the first condition includes at least one of the following:
  • the first information is reception feedback information of a first signal in the first format
  • the second information is relevant information of the terminal awakened by the first signal in the first format
  • a measurement value of the first signal in the first format satisfies a first threshold
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • the first signal includes at least one of the following: a wake-up signal, a control command related to backscatter communication.
  • a third aspect provides a transmission method, including:
  • the terminal receives a first signal in a first format, where the first signal includes at least one of the following: a wake-up signal, and a control command related to backscatter communication.
  • a transmission device comprising:
  • the first receiving module is used to receive a first signal in a first format, where the first signal includes at least one of the following: a wake-up signal and a control command related to backscatter communication.
  • a terminal comprising a processor and a memory, wherein the memory stores a program or instruction that can be run on the processor, and when the program or instruction is executed by the processor, the steps of the method described in the third aspect are implemented.
  • a terminal comprising a processor and a communication interface, wherein the communication interface is used to receive a first signal in a first format, wherein the first signal comprises at least one of the following: a wake-up signal, a control command related to backscatter communication
  • a network side device comprising a processor and a memory, the memory
  • a program or instruction that can be run on the processor is stored, and when the program or instruction is executed by the processor, the steps of the method described in the first aspect are implemented.
  • a network side device including a processor and a communication interface, wherein the communication interface is used to:
  • the first condition includes at least one of the following:
  • the first information is reception feedback information of a first signal in the first format
  • the second information is relevant information of the terminal awakened by the first signal in the first format
  • a measurement value of the first signal in the first format satisfies a first threshold
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • the first signal includes at least one of the following: a wake-up signal, a control command related to backscatter communication.
  • a transmission system comprising: a terminal and a network side device, wherein the terminal can be used to execute the steps of the transmission method as described in the third aspect, and the network side device can be used to execute the steps of the transmission method as described in the first aspect.
  • a readable storage medium on which a program or instruction is stored.
  • the program or instruction is executed by a processor, the steps of the method described in the first aspect are implemented, or the steps of the method described in the third aspect are implemented.
  • a chip comprising a processor and a communication interface, wherein the communication interface is coupled to the processor, and the processor is used to run a program or instruction to implement the method described in the first aspect, or to implement the method described in the third aspect.
  • a computer program/program product is provided, wherein the computer program/program product is stored in a storage medium, and the computer program/program product is executed by at least one processor to implement the method as described in the first aspect, or to implement the steps of the method as described in the third aspect.
  • the network side device after sending the first signal in the first format, can further send the first signal in the second format again based on the first condition when the first condition is met, thereby achieving the purpose of flexibly selecting the format of the first signal according to the condition, and being able to select the appropriate format of the first signal, so that the first signal can be used in resource development. A better compromise between pin and coverage performance.
  • FIG1 is a block diagram of a wireless communication system
  • Figure 2 is a schematic diagram of a low power receiver
  • FIG3 is a schematic diagram of a flow chart of a transmission method according to an embodiment of the present application.
  • FIG4 is a second flow chart of the transmission method according to an embodiment of the present application.
  • FIG5 is a schematic diagram of a structure of a transmission device according to an embodiment of the present application.
  • FIG6 is a second schematic diagram of the structure of the transmission device according to an embodiment of the present application.
  • FIG7 is a schematic diagram of the structure of a communication device according to an embodiment of the present application.
  • FIG8 is a schematic diagram of the structure of a terminal according to an embodiment of the present application.
  • FIG. 9 is a schematic diagram of the structure of a network side device according to an embodiment of the present application.
  • first, second, etc. in the specification and claims of the present application are used to distinguish similar objects, and are not used to describe a specific order or sequence. It should be understood that the terms used in this way are interchangeable under appropriate circumstances, so that the embodiments of the present application can be implemented in an order other than those illustrated or described here, and the objects distinguished by “first” and “second” are generally of the same type, and the number of objects is not limited.
  • the first object can be one or more.
  • “and/or” in the specification and claims represents at least one of the connected objects, and the character “/" generally represents that the objects associated with each other are in an "or” relationship.
  • LTE Long Term Evolution
  • LTE-A Long Term Evolution
  • CDMA Code Division Multiple Access
  • TDMA Time Division Multiple Access
  • FDMA Frequency Division Multiple Access
  • OFDMA Orthogonal Frequency Division Multiple Access
  • SC-FDMA Single-carrier Frequency Division Multiple Access
  • NR new radio
  • FIG1 shows a block diagram of a wireless communication system applicable to the embodiment of the present application.
  • the wireless communication system includes a terminal 11 and a network side device 12.
  • the terminal 11 can be a mobile phone, a tablet computer (Tablet Personal Computer), a laptop computer, or a network side device.
  • PDA Personal Digital Assistant
  • PDA Personal Digital Assistant
  • UMPC Ultra-Mobile Personal Computer
  • MID Mobile Internet Device
  • AR Augmented Reality
  • VR Virtual Reality
  • PUE Pedestrian Terminal
  • smart home home equipment with wireless communication function, such as refrigerator, TV, washing machine or furniture, etc.
  • PC personal computer
  • ATM ATM or self-service machine and other terminal side equipment
  • wearable devices include: smart watch, smart bracelet, smart headset, smart glasses, smart jewelry (smart bracelet, smart bracelet, smart ring, smart necklace, smart anklet, smart anklet, etc.), smart wristband, smart clothing, etc.
  • the network side device 12 may include an access network device or a core network device, wherein the access network device may also be referred to as a radio access network device, a radio access network (RAN), a radio access network function or a radio access network unit.
  • the access network device may include a base station, a wireless local area network (WLAN) access point or a WiFi node, etc.
  • WLAN wireless local area network
  • the base station may be referred to as a node B, an evolved node B (eNB), an access point, a base transceiver station (BTS), a radio base station, a radio transceiver, a basic service set (BSS), an extended service set (ESS), a home B node, a home evolved B node, a transmitting and receiving point (TRP) or other appropriate terms in the field, as long as the same technical effect is achieved, the base station is not limited to a specific technical vocabulary, it should be noted that in the embodiment of the present application, only the base station in the NR system is used as an example for introduction, and the specific type of the base station is not limited.
  • Low-power receiver namely Low-Power Wake-up Receiver (LP-WUR) or Almost-Zero-Power Wake-Up Receiver (AZP-WUR).
  • the receiving end includes a first module and a second module, as shown in FIG2.
  • the first module is a main communication module for receiving and sending mobile communication data
  • the second module is a low-power receiving module (also called a low-power wake-up receiving module) for receiving a wake-up signal, also called a low-power wake-up signal (LP-WUS).
  • the terminal turns on the low-power receiving module in the energy-saving state to monitor LP-WUS and turns off the main communication module.
  • the network-side device sends a wake-up signal to the terminal.
  • the terminal After the terminal monitors the wake-up signal through the low-power receiving module, it triggers the main communication module from off to on after a series of judgments. At this time, the low-power receiving module enters the off state (also called the sleep state) from the working state.
  • the low-power wake-up receiving module can be turned on continuously or intermittently, and can receive the low-power wake-up signal when it is turned on.
  • the RF and baseband (MODEM) modules are truly turned off, thereby greatly reducing the power consumption of communication reception.
  • This near "zero" power receiver does not require complex RF module signal detection (such as amplification, filtering, quantization, etc.) and MODEM signal processing, and only relies on passive matching. Filtering and signal processing with low power consumption.
  • the near-zero power receiver can be activated to receive the activation notification, thereby triggering a series of processes inside the terminal, such as turning on the RF transceiver and baseband processing modules.
  • This wake-up signal is usually some simple on-off keying signal, so that the receiver can be informed of the wake-up notification through simple energy detection and subsequent possible sequence detection and recognition.
  • the main receiver module can maintain a low power consumption level, thereby achieving power saving by receiving the wake-up signal.
  • BSC Backscatter Communication
  • Backscatter communication refers to the backscatter communication device using the radio frequency signals from other devices or the environment to modulate the signal to transmit its own information.
  • Backscatter communication equipment which can be:
  • the backscatter communication device in traditional radio frequency identification is generally a tag, which belongs to passive IoT devices (Passive-IoT);
  • This type of terminal can send information to the base station (gNB) or reader without relying on the reflection of the incident signal.
  • a simple implementation method is that when the tag needs to send "1", the tag reflects the incident carrier signal, and when the tag needs to send "0", it does not reflect.
  • Backscatter communication equipment controls the reflection coefficient ⁇ of the circuit by adjusting its internal impedance, thereby changing the amplitude, frequency, phase, etc. of the incident signal to achieve signal modulation.
  • the reflection coefficient of the signal can be characterized as:
  • Z0 is the antenna characteristic impedance and Z1 is the load impedance.
  • the output signal is Therefore, corresponding amplitude modulation, frequency modulation or phase modulation can be achieved by properly controlling the reflection coefficient.
  • the tag device described in the embodiment of the present application is the above-mentioned backscatter communication device.
  • the first transmission may be a related transmission in backscatter communication.
  • backscatter communication includes transmission of the following contents:
  • Excitation carrier wave (CW) transmission that is, the transmission of a carrier signal; in one embodiment, the excitation carrier wave can be sent from a network-side device to a tag, or can be sent from a terminal to a tag.
  • CW Excitation carrier wave
  • control command can be sent from a network-side device to a tag, or from a terminal to a tag.
  • control command may include at least one of the following: a selection type command, a query type command, and an access command; wherein the selection type command includes at least one of the following: a selection command (a specific selection command), an inventory command, and a sorting command; the query type command includes at least one of the following: a query command (a specific query command), an adjustment query command, and a repeat query command; the access command includes at least one of the following: a random request command, a read command, a write command, a destroy command, a lock command, an access command, a security-related access command, and a file management-related access command.
  • the selection type command includes at least one of the following: a selection command (a specific selection command), an inventory command, and a sorting command
  • the query type command includes at least one of the following: a query command (a specific query command), an adjustment query command, and a repeat query command
  • the access command includes at least one of the following: a random request command, a read command, a write command,
  • the Select command is essential. Since tags have multiple attributes, based on the standards and policies set by the user, the Select command can be used to change certain attributes and flags to artificially select or circle a specific group of tags. Only inventory recognition or access operations can be performed on them. This helps reduce conflicts and repeated recognition and speed up recognition.
  • the commands in the inventory phase are used to start an inventory.
  • the query command is used to start a round of inventory and determine which tags participate in the round;
  • the adjustment query command is used to adjust the number of the tag's original receiving time (Slot);
  • the repeat query command is used to reduce the number of the tag's Slot.
  • the random request (Req_RN) command requires the tag to generate a random number; the read command is used to read data from a certain location in the tag's storage; the write command is used to write data to the tag's storage; the destroy command can leak privacy and the tag can no longer be used; the lock command is used to prevent the tag from being written to and prevent the data from being arbitrarily tampered with; the access command is used to change the tag from an open state to a secure state when the tag has a password; security-related access commands are used to ensure tag security; file management-related access commands can be used to manage files in the tag.
  • Feedback information transmission in backscatter communication, can also be understood as the transmission of backscatter information, including, for example: tag identification information (such as a 16-bit random number temporarily representing the tag identity during the query process), electronic product code information, tag status information, etc.).
  • tag identification information such as a 16-bit random number temporarily representing the tag identity during the query process
  • electronic product code information such as a 16-bit random number temporarily representing the tag identity during the query process
  • tag status information such as a 16-bit random number temporarily representing the tag identity during the query process
  • the backscatter channel or signal can be sent by the tag to the terminal through backscattering, or it can be sent by the tag to the network side device through backscattering.
  • the control transmission includes at least one of the following operations, and each operation includes one or more related control commands:
  • the process by which a reader identifies a tag The reader starts the inventory cycle by sending a query command in one of four sessions.
  • One or more tags may reply.
  • the reader detects a single tag reply and requests a Protocol Control (PC), optionally an Extended Protocol Control (XPC) word, an Electronic Product Code (EPC), and a Cyclic Redundancy Check 16 (CRC-16).
  • PC Protocol Control
  • XPC Extended Protocol Control
  • EPC Electronic Product Code
  • CRC-16 Cyclic Redundancy Check 16
  • control command may include instructions as shown in Table 2 (Control Command and Function Introduction Comparison Table).
  • the status of the Tag tag is shown in Table 3.
  • the reader in inventory mode, the reader is required to send a query command (Query) and the tag (Tag) responds (Reply), that is, generates a 16-bit random number to the reader. Then the reader sends the sequence to the tag through the ACK command, and the tag sends the relevant data to the reader.
  • the reader or reader mentioned above may be the device in this embodiment.
  • a transmission method includes:
  • Step 301 A network-side device sends a first signal in a first format.
  • the network side device sends a wake-up signal in a first format and/or a control signal related to backscatter communication to the terminal.
  • the control command related to backscatter communication can be used to trigger backscatter communication, configure backscatter communication, etc.
  • Step 302 the network side device sends a first signal in a second format when a first condition is met;
  • the first condition includes at least one of the following:
  • the first information is reception feedback information of a first signal in the first format
  • the second information is relevant information of the terminal awakened by the first signal in the first format
  • a measurement value of the first signal in the first format satisfies a first threshold
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • the first signal includes at least one of the following: a wake-up signal, a control command related to backscatter communication.
  • the network side device After sending the first signal in the first format in step 301, the network side device will also send the first signal in the second format again based on the above-mentioned first condition when the first condition is met.
  • the network side device can, after sending the first signal in the first format, further send the first signal in the second format again based on the first condition as described above, when the first condition is met, thereby achieving the purpose of flexibly selecting the first signal format according to the condition and making a better compromise between resource overhead and coverage performance.
  • the network side device sends a first signal in a first format, including:
  • the network side device sends a first signal in a first format at least once.
  • the network side device sends the first signal in the first format M times, where M is a positive integer greater than or equal to 1.
  • the measurement value of the first signal in the first format is a measurement value corresponding to one or more measurement quantities.
  • Specific measurement quantities include but are not limited to Reference Signal Receiving Power (RSRP), Reference Signal Received Quality (RSRQ), and Signal to Interference plus Noise Ratio (SINR).
  • the measured value satisfies the first threshold, which means that the measured value is lower than the first threshold or higher than the first threshold. That is, the coverage performance of the first format and the second format is not limited, that is, the coverage performance of the first format is not necessarily worse than the coverage performance of the second format.
  • the coverage of the first signal in the second format sent by the network side device is greater than that of the first format sent.
  • the coverage performance of the first signal of the formula is better.
  • first threshold, the first number, the first duration, the second number, and the second duration may be predefined or configured by a network-side device.
  • the wake-up signal is a low-power wake-up signal.
  • the first information includes at least one of the following:
  • first feedback information where the first feedback information is used to indicate that the terminal has not received or has erroneously received the first signal in the first format
  • the second feedback information is used to indicate that a measurement value of the first signal in the first format satisfies a first threshold
  • third feedback information where the third feedback information is used to instruct the network side device to change the format of the wake-up signal
  • fourth feedback information where the fourth feedback information is used to indicate that the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • fifth feedback information where the fifth feedback information is used to indicate that the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • sixth feedback information where the sixth feedback information is used to indicate that the number of times that the terminal has not received or erroneously received the first signal in the first format is greater than or equal to a second number;
  • the seventh feedback information is used to indicate that the duration that the terminal fails to receive or erroneously receives the wake-up signal in the first format is greater than or equal to a second duration.
  • the terminal provides feedback on the reception of the first signal in the first format
  • the first feedback information includes at least one of the first feedback information, the second feedback information, the third feedback information, the fourth feedback information, the fifth feedback information, the sixth feedback information, and the seventh feedback information mentioned above, so that when the network side device receives the first information, it sends the first signal in the second format.
  • the first information is carried via a physical uplink channel.
  • the physical uplink channel includes a physical uplink control channel (Physical Uplink Control CHannel, PUCCH) and/or a physical uplink shared channel (Physical Uplink Shared CHannel, PUSCH).
  • PUCCH Physical Uplink Control CHannel
  • PUSCH Physical Uplink Shared CHannel
  • the first information is carried by uplink control information (Uplink Control Information, UCI).
  • UCI Uplink Control Information
  • the network side device can determine whether the first condition is met based on the first information after receiving the first information.
  • the network side device can also directly measure the first signal in the first format and determine whether the first condition is met based on the measurement result, which will not be repeated here
  • the terminal receives the first signal in the first format, and since the first signal wakes up the terminal to execute the related
  • the terminal can send the second information to the network side device by operating the first signal in the first format.
  • the first condition includes not receiving the second information.
  • the first signal in the second format is sent when the second information is not received.
  • the second information includes at least one of the following:
  • Uplink control information UCI Uplink control information UCI.
  • the terminal needs to initiate random access or monitor downlink information according to the reception of the first signal in the first format.
  • the random access related uplink information is information sent by the terminal to the network side device according to the first signal in the first format during the random access initiation process, such as a preamble.
  • the terminal may be a paged terminal or a terminal awakened by an awakening signal.
  • the HARQ feedback information may be feedback information related to the physical downlink control channel (Physical Downlink Control CHannel, PDCCH), that is, the HARQ feedback of PDCCH; it may be feedback information related to the physical downlink shared channel (Physical Downlink Shared CHannel, PDSCH), that is, the HARQ feedback of PDSCH.
  • PDCCH Physical Downlink Control CHannel
  • PDSCH Physical Downlink Shared CHannel
  • the failure to receive the second information includes: failure to receive the second information within a first time interval;
  • the starting time reference point of the first time interval is at least one of the following:
  • the end time of the detection time window of the first signal in the first format is the end time of the detection time window of the first signal in the first format.
  • the network side device determines whether the first condition is met based on whether the second information is not received within the first time interval.
  • the starting time reference point of the first time interval may be determined based on a time unit for sending the first signal in the first format, or may be determined based on an end time of a detection time window of the first signal in the first format.
  • the first time interval may also be predefined or configured by the network side device.
  • the end time of the detection time window of the first signal in the first format includes: the end time of the time unit in which the end time of the detection time window of the first signal in the first format is located.
  • the length of the first time interval is greater than or equal to the length of the detection time window of the first signal.
  • the detection time window of the first signal is predefined or configured by a network-side device, and the terminal detects the first signal within the detection time window of the first signal.
  • the detection time window of the first signal is to overcome the first signal detection error caused by the time domain offset.
  • the first signal detection time window can be understood as the first signal monitoring opportunity.
  • the detection time window of the first signal in the first format and the detection time window of the first signal in the second format may be the same or different. If the detection time window of the first signal in the first format and the detection time window of the first signal in the second format are different, the length of the first time interval is greater than or equal to the length of the detection time window of the first signal, that is, the length of the first time interval is greater than or equal to the length of the detection time window of the first signal in the first format.
  • the receiving the first information includes: receiving the first information at a third time unit;
  • the third time unit includes at least one of the following:
  • a time unit that is predefined or configured by network-side devices
  • the feedback time unit is indicated by the first signal in the first format.
  • the network side device will determine whether the first condition is met based on whether the first information is received in the third time unit.
  • the feedback time unit associated with the first signal can be predefined or configured on the network side.
  • the feedback time unit indicated by the first signal of the first format can be the feedback time unit closest to the first signal of the first format.
  • the feedback time unit can be a time unit for feeding back specific information, such as a time unit for feeding back UCI.
  • the method further comprises:
  • the network side device receives format recommendation information of the first signal sent by the terminal, where the format recommendation information is used to determine a format of the first signal.
  • the terminal sends format recommendation information of the first signal to the network side device, so that the network side device can determine the format of the first signal, including the first format and/or the second format, based on the format recommendation information after receiving the format recommendation information.
  • the network side device sends a first signal in a first format, including:
  • the network side device sends a first signal in the first format according to the format recommendation information.
  • the network side device will determine the first format according to the terminal recommendation and send the first signal in the format.
  • the network side device sends the first signal in the second format, including:
  • the network side device sends the first signal in the second format according to the format recommendation information.
  • the network side device will determine the second format according to the terminal recommendation and send the first signal in the format.
  • the terminal recommends one or more formats of the first signal by sending format recommendation information to the network side device, and the network side device can select the first format and the second format from the one or more formats.
  • the terminal sends format recommendation information A to recommend one or more formats of the first signal.
  • the format of a signal the network side device can select a first format from the one or more formats; before the network side device sends a first signal in a second format, the terminal sends format recommendation information B to recommend one or more formats of the first signal, and the network side device can select a second format from the multiple formats.
  • the network side device may not determine the format of the first signal based on the format recommendation information. Therefore, optionally, the method further includes:
  • the network side device determines the first format and/or the second format according to configuration information or preset information.
  • the configuration information may be configured by the network side device, and the preset information may be predefined. In this way, the network side device configures or predefines the first format and/or the second format.
  • the network side device is configured with first signals in five formats (such as formats 1 to 5).
  • the first format is format 1 or 2; the second format is format 3, 4, and 5.
  • the first format and the second format are interrelated or not interrelated.
  • the determined second format is the format associated with the first format, such as when the first format is format 1, format 1 is associated with format 3, and the second format must be format 3, and cannot be format 4.
  • the association between the first format and the second format is a network-side configuration or protocol agreement. If the first format and the second format are not interrelated, then when the first format is determined, the determined second format is randomly determined, such as when the first format is format 1, the second format can be format 3, 4, or 5.
  • the method further includes:
  • the network side device receives measurement amount recommendation information of the first signal sent by the terminal, where the measurement amount recommendation information is used to determine the measurement amount of the first signal.
  • the network side device measures or determines whether the first condition is met, it is performed based on the measurement amount recommendation information sent by the terminal.
  • the format recommendation information or the measurement amount recommendation information received by the network side device is carried by at least one of the following:
  • Radio Resource Control (RRC);
  • Multimedia access control control element (Medium Access Control Element, MAC CE);
  • the first information The first information.
  • the first format and the second format may be the same or different.
  • the first signal in the first format and the first signal in the second format differ in at least one of the following:
  • the different bearer sequences include at least one of the following differences: sequence element, sequence length (eg, preamble sequence length), code chip rate, and code chip length.
  • the different carrying bits include at least one of the following differences: bit length, bit coding rate (i.e., the data rate of the first signal), bit coding method, whether to repeat, the number of repetitions, cyclic redundancy code (Cyclical Redundancy Check, CRC) length, CRC polynomial, and CRC scrambling sequence.
  • Scenario 1 There is a feedback mechanism for the first signal, and the first condition is receiving first feedback information, where the first feedback information indicates that the terminal has not received or has erroneously received the first signal in the first format.
  • the network side device After sending the first signal in the first format, if the network side device receives first feedback information fed back by the terminal, it sends the first signal in the second format.
  • a third time unit (a time unit for the network side device to receive the first feedback information) may also be predefined or configured by the network side device, such as a time unit for feeding back UCI indicated by the first signal of the first format.
  • the network side device receives the first feedback information at the time unit for feeding back UCI indicated by the first signal of the first format, and then determines that the first condition is met and sends the first signal of the second format.
  • the network side device receives the first information within a pre-agreed specific time unit.
  • the specific time interval is the feedback time unit that is closest to the terminal for sending the control channel/signal (first signal) in the first format.
  • the feedback time unit is, for example, a feedback time unit for feeding back UCI.
  • the first format is different from the second format.
  • the two formats occupy different sizes of time domain resources.
  • the time domain size occupied by the first format (control signal/channel, hereinafter referred to as the first format) is 1 slot.
  • the time domain size occupied by the second format is 3 slots.
  • the first format and the second format carry the same number of bits, for example, 10 bits.
  • the second format occupies more resources and has a larger resource overhead, but has better coverage performance. Therefore, after the network side device sends a control channel/signal in the first format. If the feedback information sent by the terminal is received: the control signal/channel of the first format is not received or is received incorrectly, the network will subsequently send a control channel/signal in the second format in an attempt to enable the terminal to receive the control channel/signal.
  • the network can flexibly adopt different control channel/signal transmission formats under certain conditions based on the feedback from the terminal, thereby achieving a better compromise between resource overhead and coverage performance.
  • Scenario 2 There is no feedback mechanism for the first signal.
  • the first signal as a wake-up signal (LP-WUS)
  • the purpose of LP-WUS is to trigger idle/inactive terminals to initiate random access, or connected terminals to monitor PDCCH, etc.
  • the first condition is that the second information is not received, and the second information is at least one of the following: random access-related uplink information (such as information related to initiating a random access channel (RACH)), PDCCH-related feedback information, and PDSCH-related feedback information.
  • random access-related uplink information such as information related to initiating a random access channel (RACH)
  • PDCCH-related feedback information such as information related to initiating a random access channel (RACH)
  • PDSCH-related feedback information PDSCH-related feedback information
  • the network side device After sending the first format LP-WUS, if the network side device does not receive at least one of the random access related uplink information, the HARQ feedback information of the PDCCH, and the HARQ feedback information of the PDSCH, it sends the second format LP-WUS.
  • LP-WUS since LP-WUS is used to trigger (packet The network side device will schedule the terminal within a period of time after the terminal resumes PDCCH monitoring. If no relevant HARQ feedback information is received, it means that the terminal has not successfully received LP-WUS. That is, if the terminal does not send HARQ feedback information of PDSCH or PDCCH within a period of time after receiving the time unit of the first format LP-WUS, the network side device will send the second format LP-WUS with better coverage performance.
  • the first time interval may also be predefined or configured by the network side device, such as the starting time reference point of the first time interval is the end time of the last time unit for sending the first format LP-WUS, and the length of the first time interval is greater than the length of the detection time window of the LP-WUS.
  • the network side device determines that the first condition is met and sends the second format LP-WUS only if it does not receive the second information within the first time interval starting from the end time of the last time unit for sending the first format LP-WUS and having a length greater than the length of the detection time window of the LP-WUS.
  • the information related to initiating RACH includes: the target terminal initiating RACH.
  • the target terminal refers to a terminal being paged, or a terminal being awakened by a wake-up signal. It can be understood that the information related to initiating RACH includes: preamble.
  • the PDCCH-related feedback information refers to HARQ feedback of the PDCCH.
  • the PDSCH-related feedback information refers to HARQ feedback of the PDSCH.
  • the first condition is: no second information is received within a specific time interval.
  • the specific time interval is configured by the network side or agreed upon by the protocol.
  • the starting time reference point of the special time interval is: the end time of the time unit in which the LP-WUS in the first format is sent or the end time of the LP-WUS detection time window.
  • the end time of the detection time window of the first signal (control signal/channel) in the first format includes: the end time of the time unit in which the end time of the detection time window of the control signal/channel in the first format is located.
  • the specific time interval needs to be greater than or equal to the LP-WUS detection time window.
  • the terminal will detect the LP-WUS within the LP-WUS detection time window agreed upon by the protocol or configured by the network.
  • the LP-WUS detection time window is intended to overcome the LP-WUS detection error caused by this time domain deviation.
  • the LP-WUS detection time window can be understood as an LP-WUS monitoring opportunity.
  • the network side device after the network side device sends the first signal in the first format, it further flexibly selects the second format of the first signal according to the first condition, thereby achieving the purpose of flexibly selecting the first signal format according to the condition, and being able to make a better compromise between resource overhead and coverage performance.
  • the terminal may include: a Passive IoT device, such as a tag device Tag.
  • a Passive IoT device such as a tag device Tag.
  • the network device before the network device sends the first signal in the first format, it receives first signal format information recommended by the UE (such as format recommendation information A). The network device sends the first signal in the first format according to the received first signal format information recommended by the UE.
  • first signal format information recommended by the UE such as format recommendation information A.
  • the network device before the network device sends the first signal in the second format, it receives first signal format information recommended by the UE (such as format recommendation information B). The network device sends the first signal in the second format according to the received first signal format information recommended by the UE.
  • first signal format information recommended by the UE such as format recommendation information B.
  • the network device before the network device sends the first signal, it receives the first signal format measurement value information reported by the UE. The network device determines which format of the first signal to select based on the received first signal measurement value information reported by the UE, and then sends the first signal of the determined format.
  • the first signal format information recommended by the UE is carried in the first information.
  • the first format and the second format are both formats configured by the network side device or agreed upon by the protocol.
  • the second format includes multiple formats.
  • the network side device is configured with control channel signals in five formats.
  • the network side device configuration or protocol agreement stipulates that the first format is format 1 or 2.
  • the second format is format 3, 4, 5.
  • the first format and the second format are mutually related or not.
  • the first format and the second format are mutually related, which means that when the first format is format 1, the second format must be format 3 and cannot be format 2.
  • the association relationship between the first format and the second format is a network side configuration or a protocol agreement.
  • the network side device sends the first signal in the first format, which can be understood as the network side device sending the first signal in the first format at least once. For example, before the first condition is met, the network side device sends the first signal in the first format M times. Wherein M is a positive integer greater than or equal to 1.
  • the coverage performance of the first signal in the first format and the first signal in the second format is not limited, that is, the coverage performance of the first signal in the first format is not limited to being worse than the coverage performance of the first signal in the second format.
  • a first signal in a second format is sent.
  • the first condition package is:
  • the first information includes at least one of the following:
  • the terminal does not receive or erroneously receives the first signal in the first format
  • the terminal reports that the measurement value of the first signal in the first format is lower than or higher than a preset threshold
  • the terminal instructs the network side device to change the first signal format
  • the number of times that the terminal fails to receive or erroneously receives the first signal in the first format exceeds a preset value
  • the terminal does not receive or erroneously receives the first signal in the first format for a duration exceeding a preset value.
  • a transmission method includes:
  • Step 401 A terminal receives a first signal in a first format, where the first signal includes at least one of the following: a wake-up signal, and a control command related to backscatter communication.
  • the method further includes:
  • the terminal receives a first signal in a second format.
  • the terminal receives the first signal in the first format. Afterwards, the terminal also receives the first signal in the second format.
  • the first signal in the second format is sent again by the network side device after sending the first signal in the first format, further based on the first condition as described above, when the first condition is met, thereby achieving the purpose of flexibly selecting the first signal format according to the condition, and being able to make a better compromise between resource overhead and coverage performance.
  • the first signal in the first format and the first signal in the second format differ in at least one of the following:
  • the terminal receiving the first signal in the second format may include:
  • the terminal When a second condition is met, the terminal receives the first signal in the second format, where the second condition includes at least one of the following:
  • the network side device Determining that the network side device receives first information, where the first information is reception feedback information of the first signal in the first format;
  • a measurement value of the first signal in the first format satisfies a first threshold
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • the terminal fails to receive or erroneously receives the first signal in the first format
  • the number of times that the terminal fails to receive or incorrectly receives the first signal in the first format is greater than or equal to the second number
  • the duration during which the terminal fails to receive or erroneously receives the first signal in the first format is greater than or equal to the second duration.
  • the method further includes:
  • the first information includes at least one of the following:
  • first feedback information where the first feedback information is used to indicate that the terminal has not received or has erroneously received the first signal in the first format
  • the second feedback information being used to indicate that the measured value of the first signal in the first format satisfies the first One threshold
  • third feedback information where the third feedback information is used to indicate changing the format of the wake-up signal
  • fourth feedback information where the fourth feedback information is used to indicate that the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • fifth feedback information where the fifth feedback information is used to indicate that the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • sixth feedback information where the sixth feedback information is used to indicate that the number of times that the terminal has not received or erroneously received the first signal in the first format is greater than or equal to a second number;
  • the seventh feedback information is used to indicate that the duration that the terminal fails to receive or erroneously receives the first signal in the first format is greater than or equal to a second duration.
  • the network side device can determine whether the first condition is met.
  • the second information includes at least one of the following:
  • Uplink control information UCI Uplink control information UCI.
  • the failure to receive the second information includes: failure to receive the second information within a first time interval;
  • the starting time reference point of the first time interval is at least one of the following:
  • the end time of the detection time window of the first signal in the first format is the end time of the detection time window of the first signal in the first format.
  • the length of the first time interval is greater than or equal to the length of a detection time window of the first signal.
  • the receiving the first information includes: receiving the first information at a third time unit;
  • the third time unit includes at least one of the following:
  • a time unit that is predefined or configured by network-side devices
  • the feedback time unit indicated by the first signal in the first format is the feedback time unit indicated by the first signal in the first format.
  • the first signal in the first format and the first signal in the second format differ in at least one of the following:
  • the wake-up signal is a low-power wake-up signal.
  • the first information is carried via a physical uplink channel.
  • the method further comprises:
  • the terminal sends format recommendation information of the first signal, where the format recommendation information is used to determine the first format and/or the second format.
  • the network side device can determine the first format and/or the second format of the first signal based on the format recommendation information.
  • the terminal recommends one or more formats of the first signal by sending format recommendation information to the network side device, and the network side device can select the first format and the second format from the one or more formats.
  • the terminal sends format recommendation information A to recommend one or more formats of the first signal, and the network side device can select the first format from the one or more formats; before the network side device sends the first signal in the second format, the terminal sends format recommendation information B to recommend one or more formats of the first signal, and the network side device can select the second format from the multiple formats.
  • the method further comprises:
  • the terminal sends measurement amount recommendation information of the first signal, where the measurement amount recommendation information is used to determine the measurement amount of the first signal.
  • the network side device can perform measurement based on the measurement amount recommendation information or determine whether the first condition is met.
  • the format recommendation information or the measurement amount recommendation information is carried by at least one of the following:
  • Multimedia access control control unit MAC CE Multimedia access control control unit
  • the first information The first information.
  • a transmission device 500 includes:
  • a first sending module 510 configured to send a first signal in a first format
  • a second sending module 520 configured to send a first signal in a second format when the first condition is met
  • the first condition includes at least one of the following:
  • the first information is reception feedback information of a first signal in the first format
  • the second information is relevant information of the terminal awakened by the first signal in the first format
  • a measurement value of the first signal in the first format satisfies a first threshold
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the first signal includes at least one of the following: a wake-up signal, a control command related to backscatter communication.
  • the first information includes at least one of the following:
  • first feedback information where the first feedback information is used to indicate that the terminal has not received or has erroneously received the first signal in the first format
  • the second feedback information is used to indicate that a measurement value of the first signal in the first format satisfies a first threshold
  • third feedback information where the third feedback information is used to instruct the network side device to change the format of the wake-up signal
  • fourth feedback information where the fourth feedback information is used to indicate that the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • fifth feedback information where the fifth feedback information is used to indicate that the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • sixth feedback information where the sixth feedback information is used to indicate that the number of times that the terminal has not received or erroneously received the first signal in the first format is greater than or equal to a second number;
  • the seventh feedback information is used to indicate that the duration that the terminal fails to receive or erroneously receives the wake-up signal in the first format is greater than or equal to a second duration.
  • the second information includes at least one of the following:
  • Uplink control information UCI Uplink control information UCI.
  • the failure to receive the second information includes: failure to receive the second information within a first time interval;
  • the starting time reference point of the first time interval is at least one of the following:
  • the length of the first time interval is greater than or equal to the length of a detection time window of the first signal.
  • the receiving the first information includes: receiving the first information at a third time unit;
  • the third time unit includes at least one of the following:
  • a time unit that is predefined or configured by network-side devices
  • the feedback time unit indicated by the first signal in the first format is the feedback time unit indicated by the first signal in the first format.
  • the device further comprises:
  • the third receiving module is used to receive format recommendation information of the first signal sent by the terminal, where the format recommendation information is used to determine the format of the first signal.
  • the first sending module is further used for:
  • a first signal in the first format is sent according to the format recommendation information.
  • the second sending module is further used for:
  • the first signal in the second format is sent according to the format recommendation information.
  • the device further comprises:
  • the fourth receiving module is configured to receive measurement amount recommendation information of the first signal sent by the terminal, where the measurement amount recommendation information is used to determine the measurement amount of the first signal.
  • the first signal in the first format and the first signal in the second format differ in at least one of the following:
  • the first information is carried via a physical uplink channel.
  • the format recommendation information or the measurement amount recommendation information received by the network side device is carried by at least one of the following:
  • Multimedia access control control unit MAC CE Multimedia access control control unit
  • the first information The first information.
  • the device further comprises:
  • a determination module is used to determine the first format and/or the second format according to configuration information or preset information.
  • the wake-up signal is a low-power wake-up signal.
  • the device can further send the first signal in the second format again based on the first condition when the first condition is met, thereby achieving the purpose of flexibly selecting the first signal format according to the condition and making a better compromise between resource overhead and coverage performance.
  • the transmission device provided in the embodiment of the present application can implement each process implemented by the method embodiment of Figure 3 and achieve the same technical effect. To avoid repetition, it will not be repeated here.
  • a transmission device 600 includes:
  • the first receiving module 610 is configured to receive a first signal in a first format, where the first signal includes at least one of the following: a wake-up signal, and a control command related to backscatter communication.
  • the device further comprises:
  • the second receiving module is used to receive a first signal in a second format.
  • the device further comprises:
  • a third sending module used for sending the first information
  • the first information includes at least one of the following:
  • first feedback information where the first feedback information is used to indicate that the terminal has not received or has erroneously received the first signal in the first format
  • the second feedback information is used to indicate that a measurement value of the first signal in the first format satisfies a first threshold
  • third feedback information where the third feedback information is used to indicate changing the format of the wake-up signal
  • fourth feedback information where the fourth feedback information is used to indicate that the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • fifth feedback information where the fifth feedback information is used to indicate that the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • sixth feedback information where the sixth feedback information is used to indicate that the number of times that the terminal has not received or erroneously received the first signal in the first format is greater than or equal to a second number;
  • the seventh feedback information is used to indicate that the duration that the terminal fails to receive or erroneously receives the first signal in the first format is greater than or equal to a second duration.
  • the second information includes at least one of the following:
  • Uplink control information UCI Uplink control information UCI.
  • the failure to receive the second information includes: failure to receive the second information within a first time interval;
  • the starting time reference point of the first time interval is at least one of the following:
  • An end time instant of a detection time window of the first signal in the first format is an end time instant of a detection time window of the first signal in the first format.
  • the length of the first time interval is greater than or equal to the length of the detection time window of the first signal.
  • the receiving the first information includes: receiving the first information at a third time unit;
  • the third time unit includes at least one of the following:
  • a time unit that is predefined or configured by network-side devices
  • the feedback time unit indicated by the first signal in the first format is the feedback time unit indicated by the first signal in the first format.
  • the first signal in the first format and the first signal in the second format differ in at least one of the following:
  • the wake-up signal is a low-power wake-up signal.
  • the first information is carried via a physical uplink channel.
  • the device further comprises:
  • a fourth sending module is used to send format recommendation information of the first signal, where the format recommendation information is used to determine the first format and/or the second format.
  • the device further comprises:
  • the fifth sending module is configured to send measurement amount recommendation information of the first signal, where the measurement amount recommendation information is used to determine the measurement amount of the first signal.
  • the format recommendation information or the measurement amount recommendation information is carried by at least one of the following:
  • Multimedia access control control unit MAC CE Multimedia access control control unit
  • the first information The first information.
  • the transmission device in the embodiment of the present application can be an electronic device, such as an electronic device with an operating system, or a component in an electronic device, such as an integrated circuit or a chip.
  • the electronic device can be a terminal, or it can be other devices other than a terminal.
  • the terminal can include but is not limited to the types of terminal 11 listed above, and other devices can be servers, network attached storage (NAS), etc., which are not specifically limited in the embodiment of the present application.
  • the transmission device provided in the embodiment of the present application can implement each process implemented by the method embodiment of Figure 4 and achieve the same technical effect. To avoid repetition, it will not be repeated here.
  • the embodiment of the present application further provides a communication device 700, including a processor 701 and a memory 702, wherein the memory 702 stores a program or instruction that can be run on the processor 701.
  • the communication device 700 is a terminal
  • the program or instruction is executed by the processor 701 to implement the various steps of the above-mentioned transmission method embodiment, and can achieve the same technical effect.
  • the communication device 700 is a network side device
  • the program or instruction is executed by the processor 701 to implement the various steps of the above-mentioned transmission method embodiment, and can achieve the same technical effect. To avoid repetition, it will not be repeated here.
  • the embodiment of the present application also provides a terminal, including a processor and a communication interface, the communication interface is used to receive a first signal in a first format, the first signal including at least one of the following: a wake-up signal, a control command related to backscatter communication.
  • the terminal embodiment corresponds to the above-mentioned terminal side method embodiment, and each implementation process and implementation method of the above-mentioned method embodiment can be applied to the terminal embodiment, and can achieve the same technical effect.
  • Figure 8 is a schematic diagram of the hardware structure of a terminal implementing an embodiment of the present application.
  • the terminal 800 includes but is not limited to: a radio frequency unit 801, a network module 802, an audio output unit 803, an input unit 804, a sensor 805, a display unit 806, a user input unit 807, an interface unit 808, a memory 809 and at least some of the components of a processor 810.
  • the terminal 800 may also include a power source (such as a battery) for supplying power to each component, and the power source may be logically connected to the processor 810 through a power management system, so as to implement functions such as managing charging, discharging, and power consumption management through the power management system.
  • a power source such as a battery
  • the terminal structure shown in FIG8 does not constitute a limitation on the terminal, and the terminal may include more or fewer components than shown in the figure, or combine certain components, or arrange components differently, which will not be described in detail here.
  • the input unit 804 may include a graphics processing unit (GPU) 8041 and a microphone 8042, and the graphics processor 8041 processes the image data of the static picture or video obtained by the image capture device (such as a camera) in the video capture mode or the image capture mode.
  • the display unit 806 may include a display panel 8061, and the display panel 8061 may be configured in the form of a liquid crystal display, an organic light emitting diode, etc.
  • the user input unit 807 includes a touch panel 8071 and at least one of other input devices 8072.
  • the touch panel 8071 is also called a touch screen.
  • the touch panel 8071 may include two parts: a touch detection device and a touch controller.
  • Other input devices 8072 may include, but are not limited to, a physical keyboard, function keys (such as a volume control key, a switch key, etc.), a trackball, a mouse, and a joystick, which will not be repeated here.
  • the radio frequency unit 801 after receiving downlink data from the network side device, can transmit the data to the processor 810 for processing; in addition, the radio frequency unit 801 can send uplink data to the network side device.
  • the radio frequency unit 801 includes but is not limited to an antenna, an amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, etc.
  • the memory 809 can be used to store software programs or instructions and various data.
  • the memory 809 may mainly include a first storage area for storing programs or instructions and a second storage area for storing data, wherein the first storage area may store an operating system, an application program or instruction required for at least one function (such as a sound playback function, an image playback function, etc.), etc.
  • the memory 809 may include a volatile memory or a non-volatile memory, or the memory 809 may include both volatile and non-volatile memories.
  • Volatile memory can be random access memory (RAM), static random access memory (SRAM), dynamic random access memory (DRAM), synchronous dynamic random access memory (SDRAM), double data rate synchronous dynamic random access memory (DDRSDRAM), enhanced synchronous dynamic random access memory (ESDRAM), synchronous link dynamic random access memory (SLDRAM) and direct memory bus Random Access Memory (Direct Rambus RAM, DRRAM)
  • RAM random access memory
  • SRAM static random access memory
  • DRAM dynamic random access memory
  • SDRAM synchronous dynamic random access memory
  • DDRSDRAM double data rate synchronous dynamic random access memory
  • ESDRAM enhanced synchronous dynamic random access memory
  • SLDRAM synchronous link dynamic random access memory
  • Direct Rambus RAM Direct Rambus RAM
  • the memory 809 in the embodiment of the present application includes but is not limited to these and any other suitable types of memory.
  • the processor 810 may include one or more processing units; optionally, the processor 810 integrates an application processor and a modem processor, wherein the application processor mainly processes operations related to an operating system, a user interface, and application programs, and the modem processor mainly processes wireless communication signals, such as a baseband processor. It is understandable that the modem processor may not be integrated into the processor 810.
  • the radio frequency unit 801 is used to receive a first signal in a first format, where the first signal includes at least one of the following: a wake-up signal and a control command related to backscatter communication.
  • the radio frequency unit 801 is further configured to receive a first signal in a second format.
  • the method further includes:
  • the first information includes at least one of the following:
  • first feedback information where the first feedback information is used to indicate that the terminal has not received or has erroneously received the first signal in the first format
  • the second feedback information is used to indicate that a measurement value of the first signal in the first format satisfies a first threshold
  • third feedback information where the third feedback information is used to indicate changing the format of the wake-up signal
  • fourth feedback information where the fourth feedback information is used to indicate that the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • fifth feedback information where the fifth feedback information is used to indicate that the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • sixth feedback information where the sixth feedback information is used to indicate that the number of times that the terminal has not received or erroneously received the first signal in the first format is greater than or equal to a second number;
  • the seventh feedback information is used to indicate that the duration that the terminal fails to receive or erroneously receives the first signal in the first format is greater than or equal to a second duration.
  • the second information includes at least one of the following:
  • Uplink control information UCI Uplink control information UCI.
  • the failure to receive the second information includes: failure to receive the second information within a first time interval;
  • the starting time reference point of the first time interval is at least one of the following:
  • the end time of the detection time window of the first signal in the first format is the end time of the detection time window of the first signal in the first format.
  • the length of the first time interval is greater than or equal to the length of a detection time window of the first signal.
  • the receiving the first information includes: receiving the first information at a third time unit;
  • the third time unit includes at least one of the following:
  • a time unit that is predefined or configured by network-side devices
  • the feedback time unit indicated by the first signal in the first format is the feedback time unit indicated by the first signal in the first format.
  • the first signal in the first format and the first signal in the second format differ in at least one of the following:
  • the wake-up signal is a low-power wake-up signal.
  • the first information is carried via a physical uplink channel.
  • the radio frequency unit 801 is further configured to send measurement amount recommendation information of the first signal, where the measurement amount recommendation information is used to determine the measurement amount of the first signal.
  • the format recommendation information or the measurement amount recommendation information is carried by at least one of the following:
  • the embodiment of the present application also provides a network side device, including a processor and a communication interface, the communication interface is used to send a first signal in a first format;
  • the first information is reception feedback information of a first signal in the first format
  • the number of times that the measured value of the first signal in the first format satisfies the first threshold is greater than or equal to a first number
  • the duration for which the measured value of the first signal in the first format meets the first threshold is greater than or equal to a first duration
  • This network side device embodiment corresponds to the above-mentioned network side device method embodiment.
  • Each implementation process and implementation method of the above-mentioned method embodiment can be applied to this network side device embodiment and can achieve the same technical effect.
  • the embodiment of the present application also provides a network side device.
  • the network side device 900 includes: an antenna 91, a radio frequency device 92, a baseband device 93, a processor 94 and a memory 95.
  • the antenna 91 is connected to the radio frequency device 92.
  • the radio frequency device 92 receives information through the antenna 91 and sends the received information to the baseband device 93 for processing.
  • the baseband device 93 processes the information to be sent and sends it to the radio frequency device 92.
  • the radio frequency device 92 processes the received information and sends it out through the antenna 91.
  • the baseband device 93 may include, for example, at least one baseband board, on which a plurality of chips are arranged, as shown in FIG. 9 , wherein one of the chips is, for example, a baseband processor, which is connected to the memory 95 through a bus interface to call a program in the memory 95 and execute the network device operations shown in the above method embodiment.
  • the network side device may also include a network interface 96, which is, for example, a common public radio interface (CPRI).
  • a network interface 96 which is, for example, a common public radio interface (CPRI).
  • CPRI common public radio interface
  • the processor is the processor in the terminal described in the above embodiment.
  • the readable storage medium may be non-volatile or non-transient.
  • the readable storage medium may include a computer-readable storage medium, such as a computer read-only memory ROM, a random access memory RAM, a magnetic disk or an optical disk.
  • An embodiment of the present application further provides a chip, which includes a processor and a communication interface, wherein the communication interface is coupled to the processor, and the processor is used to run programs or instructions to implement the transmission method executed by the above-mentioned network side device, or to implement the various processes of the transmission method embodiment executed by the above-mentioned terminal, and can achieve the same technical effect. To avoid repetition, it will not be repeated here.
  • An embodiment of the present application further provides a computer program/program product, which is stored in a storage medium, and is executed by at least one processor to implement the transmission method executed by the above-mentioned network-side device, or to implement the various processes of the transmission method embodiment executed by the above-mentioned terminal, and can achieve the same technical effect. To avoid repetition, it will not be repeated here.
  • An embodiment of the present application also provides a communication system, including: a terminal and a network side device, wherein the terminal can be used to execute the steps of the transmission method executed by the above-mentioned terminal, and the network side device can be used to execute the steps of the transmission method executed by the above-mentioned network side device.
  • the technical solution of the present application can be embodied in the form of a computer software product, which is stored in a storage medium (such as ROM/RAM, a magnetic disk, or an optical disk), and includes a number of instructions for enabling a terminal (which can be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to execute the methods described in each embodiment of the present application.
  • a storage medium such as ROM/RAM, a magnetic disk, or an optical disk
  • a terminal which can be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.

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Abstract

本申请公开了一种传输方法、装置、网络侧设备及终端。本申请实施例的方法包括:网络侧设备发送第一格式的第一信号;网络侧设备在满足第一条件的情况下,发送第二格式的第一信号;第一条件包括以下至少一项:接收到第一信息;未接收到第二信息;第一格式的第一信号的测量值满足第一门限;第一格式的第一信号的测量值满足第一门限的次数大于或等于第一次数;第一格式的第一信号的测量值满足第一门限的持续时间大于或等于第一时长;确定终端未接收到或错误接收到第一格式的第一信号;确定终端未接收到或错误接收到第一格式的第一信号的次数大于或等于第二次数;确定终端未接收到或错误接收到第一格式的第一信号的持续时间大于或等于第二时长。

Description

传输方法、装置、网络侧设备及终端
相关申请的交叉引用
本申请主张在2022年12月15日在中国提交的中国专利申请No.202211615946.X的优先权,其全部内容通过引用包含于此。
技术领域
本申请属于通信技术领域,具体涉及一种传输方法、装置、网络侧设备及终端。
背景技术
目前,为了减少终端在待机状态下的接收活动,使得射频(Radio Frequency,RF)和基带(MODEM)模块真正的关闭从而大大降低通信接收的功耗,可以通过在终端的接收模块中引入了一个近“零”功率的接收机从而实现。这个近“零”功率的接收机不需要复杂的RF模块的信号检测(如放大、滤波、量化等等)和MODEM的信号处理,只靠被动的匹配滤波和较小功耗的信号处理。在基站侧,通过按需(on-demand)触发唤醒信号,就可以激活近“零”功率的接收机获知激活的通告,从而触发终端内部的一系列流程,例如,打开射频收发以及基带处理等模块。
然而,如何灵活地选择信号的传输格式,使得网络在资源开销和覆盖性能之间做更好的折中已成为亟待解决的问题。
发明内容
本申请实施例提供一种传输方法、装置、网络侧设备及终端,能够灵活地选择信号的传输格式。
第一方面,提供了一种传输方法,包括:
网络侧设备发送第一格式的第一信号;
所述网络侧设备在满足第一条件的情况下,发送第二格式的第一信号;
所述第一条件包括以下至少一项:
接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
确定终端未接收到或错误接收到所述第一格式的第一信号;
确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
第二方面,提供了一种传输装置,包括:
第一发送模块,用于发送第一格式的第一信号;
第二发送模块,用于在满足第一条件的情况下,发送第二格式的第一信号;
所述第一条件包括以下至少一项:
接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
确定终端未接收到或错误接收到所述第一格式的第一信号;
确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
第三方面,提供了一种传输方法,包括:
终端接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
第四方面,提供了一种传输装置,包括:
第一接收模块,用于接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
第五方面,提供了一种终端,该终端包括处理器和存储器,所述存储器存储可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如第三方面所述的方法的步骤。
第六方面,提供了一种终端,包括处理器及通信接口,其中,所述通信接口用于接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令
第七方面,提供了一种网络侧设备,该网络侧设备包括处理器和存储器,所述存储器 存储可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如第一方面所述的方法的步骤。
第八方面,提供了一种网络侧设备,包括处理器及通信接口,其中,所述通信接口用于:
发送第一格式的第一信号;
在满足第一条件的情况下,发送第二格式的第一信号;
所述第一条件包括以下至少一项:
接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
确定终端未接收到或错误接收到所述第一格式的第一信号;
确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
第九方面,提供了一种传输系统,包括:终端及网络侧设备,所述终端可用于执行如第三方面所述的传输方法的步骤,所述网络侧设备可用于执行如第一方面所述的传输方法的步骤。
第十方面,提供了一种可读存储介质,所述可读存储介质上存储程序或指令,所述程序或指令被处理器执行时实现如第一方面所述的方法的步骤,或者实现如第三方面所述的方法的步骤。
第十一方面,提供了一种芯片,所述芯片包括处理器和通信接口,所述通信接口和所述处理器耦合,所述处理器用于运行程序或指令,实现如第一方面所述的方法,或实现如第三方面所述的方法。
第十二方面,提供了一种计算机程序/程序产品,所述计算机程序/程序产品被存储在存储介质中,所述计算机程序/程序产品被至少一个处理器执行以实现如第一方面所述的方法,或实现如第三方面所述的方法的步骤。
在本申请实施例中,网络侧设备能够在发送第一格式的第一信号之后,进一步基于第一条件,在满足该第一条件的情况下,再次发送第二格式的第一信号,从而实现了按照条件灵活选择第一信号的格式的目的,能够选择合适的第一信号的格式,从而可以在资源开 销和覆盖性能之间做更好的折中。
附图说明
图1是一种无线通信系统的框图;
图2是低功耗接收机原理图;
图3是本申请实施例的传输方法的流程示意图之一;
图4是本申请实施例的传输方法的流程示意图之二;
图5是本申请实施例的传输装置的结构示意图之一;
图6是本申请实施例的传输装置的结构示意图之二;
图7是本申请实施例的通信设备的结构示意图;
图8是本申请实施例的终端的结构示意图;
图9是本申请实施例的网络侧设备的结构示意图。
具体实施方式
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚描述,显然,所描述的实施例是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员所获得的所有其他实施例,都属于本申请保护的范围。
本申请的说明书和权利要求书中的术语“第一”、“第二”等是用于区别类似的对象,而不用于描述特定的顺序或先后次序。应该理解这样使用的术语在适当情况下可以互换,以便本申请的实施例能够以除了在这里图示或描述的那些以外的顺序实施,且“第一”、“第二”所区别的对象通常为一类,并不限定对象的个数,例如第一对象可以是一个,也可以是多个。此外,说明书以及权利要求中“和/或”表示所连接对象的至少其中之一,字符“/”一般表示前后关联对象是一种“或”的关系。
值得指出的是,本申请实施例所描述的技术不限于长期演进型(Long Term Evolution,LTE)/LTE的演进(LTE-Advanced,LTE-A)系统,还可用于其他无线通信系统,诸如码分多址(Code Division Multiple Access,CDMA)、时分多址(Time Division Multiple Access,TDMA)、频分多址(Frequency Division Multiple Access,FDMA)、正交频分多址(Orthogonal Frequency Division Multiple Access,OFDMA)、单载波频分多址(Single-carrier Frequency Division Multiple Access,SC-FDMA)和其他系统。本申请实施例中的术语“系统”和“网络”常被可互换地使用,所描述的技术既可用于以上提及的系统和无线电技术,也可用于其他系统和无线电技术。以下描述出于示例目的描述了新空口(New Radio,NR)系统,并且在以下大部分描述中使用NR术语,但是这些技术也可应用于NR系统应用以外的应用,如第6代(6th Generation,6G)通信系统。
图1示出本申请实施例可应用的一种无线通信系统的框图。无线通信系统包括终端11和网络侧设备12。其中,终端11可以是手机、平板电脑(Tablet Personal Computer)、膝 上型电脑(Laptop Computer)或称为笔记本电脑、个人数字助理(Personal Digital Assistant,PDA)、掌上电脑、上网本、超级移动个人计算机(Ultra-Mobile Personal Computer,UMPC)、移动上网装置(Mobile Internet Device,MID)、增强现实(Augmented Reality,AR)/虚拟现实(Virtual Reality,VR)设备、机器人、可穿戴式设备(Wearable Device)、车载设备(Vehicle User Equipment,VUE)、行人终端(Vehicle User Equipment,PUE)、智能家居(具有无线通信功能的家居设备,如冰箱、电视、洗衣机或者家具等)、游戏机、个人计算机(Personal Computer,PC)、柜员机或者自助机等终端侧设备,可穿戴式设备包括:智能手表、智能手环、智能耳机、智能眼镜、智能首饰(智能手镯、智能手链、智能戒指、智能项链、智能脚镯、智能脚链等)、智能腕带、智能服装等。需要说明的是,在本申请实施例并不限定终端11的具体类型。网络侧设备12可以包括接入网设备或核心网设备,其中,接入网设备也可以称为无线接入网设备、无线接入网(Radio Access Network,RAN)、无线接入网功能或无线接入网单元。接入网设备可以包括基站、无线局域网(Wireless Local Area Network,WLAN)接入点或WiFi节点等,基站可被称为节点B、演进节点B(eNB)、接入点、基收发机站(Base Transceiver Station,BTS)、无线电基站、无线电收发机、基本服务集(Basic Service Set,BSS)、扩展服务集(Extended Service Set,ESS)、家用B节点、家用演进型B节点、发送接收点(Transmitting Receiving Point,TRP)或所属领域中其他某个合适的术语,只要达到相同的技术效果,所述基站不限于特定技术词汇,需要说明的是,在本申请实施例中仅以NR系统中的基站为例进行介绍,并不限定基站的具体类型。
为了方便理解,以下对本申请实施例涉及的一些内容进行说明:
一、低功耗接收机
低功耗接收机,即低功耗唤醒接收机(Low Power Wake up Receiver,LP-WUR)或称为近零功耗接收机(Almost Zero Power Wake Up Receiver,AZP-WUR)。其基本工作原理为接收端包含第一模块和第二模块,具体如图2所示,第一模块为主通信模块,用于移动通信数据的收发,第二模块为低功耗接收模块(也称低功耗唤醒接收模块),用于接收唤醒信号,也称为低功耗唤醒信号(Low Power Wake Up Signal,LP-WUS)。终端在节能状态下开启低功耗接收模块来监听LP-WUS且关闭主通信模块。当有下行数据到达时,网络侧设备会发送唤醒信号给终端,终端通过低功耗接收模块监听到唤醒信号后通过一系列的判断后触发主通信模块从关闭到开启,而此时低功耗接收模块从工作态进入关闭状态(也称睡眠状态)。低功耗唤醒接收模块可以连续开启,或间歇性开启,在开启时可接收低功耗唤醒信号。
二、低功耗唤醒信号
为了减少终端在待机状态下的接收活动,使得射频(Radio Frequency,RF)和基带(MODEM)模块真正的关闭从而大大降低通信接收的功耗,可以通过在终端的接收模块中引入了一个近“零”功率的接收机从而实现。这个近“零”功率的接收机不需要复杂的RF模块的信号检测(如放大、滤波、量化等等)和MODEM的信号处理,只靠被动的匹配 滤波和较小功耗的信号处理。
在基站侧,通过按需(on-demand)触发唤醒信号,就可以激活近“零”功率的接收机获知激活的通告,从而触发终端内部的一系列流程,例如,打开射频收发以及基带处理等模块。
这种唤醒信号通常来说是一些比较简单的开关键控信号(on-off keying),那样接收机就可以通过简单的能量检测,以及之后的可能的序列检测识别等过程获知唤醒通告。此外,在终端开启低功耗唤醒接收机来接收唤醒信号的同时,主接收机模块可以维持在一个较低耗电水平下工作,从而通过接收唤醒信号来实现功耗节省。
三、反向散射通信(Backscatter Communication,BSC),或,被动的物联网(passive IoT)通信
反向散射通信是指反向散射通信设备利用其它设备或者环境中的射频信号进行信号调制来传输自己信息。
反向散射通信设备,可以是:
(1)传统射频识别(Radio Frequency Identification,RFID)中的反向散射通信设备,一般是一个标签(Tag),属于无源IoT设备(Passive-IoT);
(2)半无源(semi-passive)的tag,这类tag的下行接收或者上行反射具备一定的放大能力;
(3)具备主动发送能力的tag(active tag),这类终端可以不依赖对入射信号的反射向基站(gNB)或阅读器(reader)发送信息。
一种简单的实现方式为,tag需要发送“1”时,tag对入射载波信号进行反射,tag需要发送“0”时不进行反射。
反向散射通信设备通过调节其内部阻抗来控制电路的反射系数Γ,从而改变入射信号的幅度、频率、相位等,实现信号的调制。其中信号的反射系数可表征为:
其中,Z0为天线特性阻抗,Z1是负载阻抗。假设入射信号为Sin(t),则输出信号为因此,通过合理的控制反射系数可实现对应的幅度调制、频率调制或相位调制。
可选地,本申请实施例中所述标签设备为上述反向散射通信设备。
可选地,本申请实施例中,第一传输可以是反向散射通信中的相关传输。
本实施例中,反向散射通信包括以下内容的传输:
(1)激励载波(carrier wave,CW)传输,也就是载波信号的传输;一种实施例中,该激励载波可以是由网络侧设备发送给标签(tag)的,还可以是由终端发送给标签的。
(2)控制命令(command)的传输,例如:选取命令、查询命令、重复查询命令、答复命令、读取命令、写入命令、随机请求命令等;一种实施例中,该控制命令可以是由网络侧设备发送给标签(tag)的,还可以是由终端发送给标签的。
可选地,所述控制命令可以包括以下至少一项:选择类型命令,查询类型命令,接入命令;其中,所述选择类型命令包括以下至少一项:选择命令(一个具体的选择命令),盘点命令,排序命令;所述查询类型命令包括以下至少一项:查询命令(一个具体的查询命令),调节查询命令,重复查询命令;所述接入命令包括以下至少一项:随机请求命令,读取命令,写入命令,销毁命令,锁定命令,访问命令,安全相关接入命令,文件管理相关接入命令。
选择类型(Select)命令是必备的,由于标签有多种属性,基于用户设定的标准和策略,使用选择类型命令,改变某些属性和标志就人为选择或圈定了一个特定的标签群,可以只对它们进行盘点识别或存取操作,这样有利于减少冲突和重复识别,加快识别速度。
盘点阶段的命令用于开始一次盘点。例如,查询命令用于启动一轮盘点,并决定哪些标记参与该轮盘点;调节查询命令用于将标签原来接收时刻(Slot)的数目进行调整;重复查询命令用于减少标签Slot的数字。
接入命令(Access)中,随机请求(Req_RN)命令要求标签产生一个随机数;读取命令用于从标签的存储中的某个位置读取资料;写入命令用于写入资料到标签的存储中;销毁命令可以隐私的泄漏,标签无法再使用;锁定命令用于标签不能再进行写入的动作,防止资料被任意的串改;访问命令用于当标签拥有密码时候让标签从开启(Open)的状态转成保护(Secure)状态;安全相关接入命令用于保障标签安全;文件管理相关接入命令可以用于对标签内文件进行管理。
(3)反馈信息传输,在反向散射通信中,也可以理解为反向散射信息的传输,包括,例如:Tag标识信息(如查询过程中的临时代表Tag身份的16-bit随机数)、电子产品代码信息、Tag状态信息等)。一种实施例中,该反向散射信道或信号可以是标签通过反向散射发送给终端的,还可以是标签通过反向散射发送给网络侧设备的。
四、控制命令
控制传输中包括如下至少一项操作,而每项操作中包括一个或多个相关的控制命令:
a、选择(Select)操作
读取器为后续盘点选择标签群或对标签群进行加密以进行后续认证的过程。选择包括选择命令;
b、盘点(Inventory)操作
读取器识别标签的过程。读取器通过在四个会话中的一个会话中发送查询命令来开始盘点循环。一个或多个标签可能回复。读取器检测单个标签应答,并请求协议控制(Protocol Control,PC),可选的请求扩展协议控制(Extended Protocol Control,XPC)字、电子产品代码(Electronic Product Code,EPC)和循环冗余校验16(Cyclic Redundancy Check,CRC-16)。盘点中包含多个命令。其中,非常重要的命令为质询命令。具体参见下表2。
c、接入(Access)操作
读取器与单个标签进行交易(读取、写入、鉴权或以其他方式参与)的过程,在接入 之前,读取器对标签进行单独识别,接入包括多个命令。
读取器(Reader)操作的指令如表1所示,操作类型如表2所示。
表1
具体地,控制命令可以包括如表2(控制命令及功用介绍对照表)所示的指令。
表2



Tag标签的状态如表3所示。
表3
现在超高频射频识别(UHF RFID)的协议设计中,在盘点模式下,要求读取器发送查询指令(Query)后标签(Tag)响应回应(Reply),即产生一个16-bit的随机数给读取器。然后读取器将该序列通过ACK指令发给Tag后,Tag将相关的数据发送给阅读器。
可选地,上述读取器或阅读器可以为本实施例中的设备。
下面结合附图,通过一些实施例及其应用场景对本申请实施例提供的传输方法进行详细地说明。
如图3所示,本申请实施例的一种传输方法,包括:
步骤301,网络侧设备发送第一格式的第一信号。
本步骤中,网络侧设备向终端发送第一格式的唤醒信号和/或反向散射通信相关的控 制命令。其中,反向散射通信相关的控制命令可以是用于触发反向散射通信、配置反向散射通信等。
步骤302,所述网络侧设备在满足第一条件的情况下,发送第二格式的第一信号;
所述第一条件包括以下至少一项:
接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
确定终端未接收到或错误接收到所述第一格式的第一信号;
确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
本步骤中,网络侧设备在步骤301发送第一格式的第一信号之后,还将基于上述的第一条件,在满足该第一条件的情况下,再次发送第二格式的第一信号。
如此,按照上述步骤301和302,网络侧设备能够在发送第一格式的第一信号之后,进一步基于如上所述的第一条件,在满足该第一条件的情况下,再次发送第二格式的第一信号,从而实现了按照条件灵活选择第一信号格式的目的,能够在资源开销和覆盖性能之间做更好的折中。
其中,网络侧设备发送第一格式的第一信号,包括:
网络侧设备发送至少一次第一格式的第一信号。
也就是说,在满足第一条件之前,网络侧设备发送M次第一格式的第一信号,M为大于或等于1的正整数。
该实施例中,第一格式的第一信号的测量值是对应一个或多个测量量的测量值。具体的测量量包括但不限于参考信号接收功率(Reference Signal Receiving Power,RSRP)、参考信号接收质量(Reference Signal Received Quality,RSRQ)、信号与干扰加噪声比(Signal to Interference plus Noise Ratio,SINR)。
而测量值满足第一门限,可以是测量值低于第一门限,也可以是测量值高于第一门限。即,第一格式和第二格式的覆盖性能的好坏不限,也就是说不限于第一格式的覆盖性能一定比第二格式的覆盖性能差。
作为一种实施方式,网络侧设备发送的第二格式的第一信号的覆盖性较发送的第一格 式的第一信号的覆盖性能更佳。
需要说明的是,第一门限、第一次数、第一时长、第二次数、第二时长可以由预先定义或网络侧设备配置。
可选地,该实施例中,所述唤醒信号为低功耗唤醒信号。
可选地,该实施例中,所述第一信息包括以下至少一项:
第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第一门限;
第三反馈信息,所述第三反馈信息用于指示所述网络侧设备更换所述唤醒信号的格式;
第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的唤醒信号的持续时间大于或等于第二时长。
即,终端针对第一格式的第一信号的接收进行反馈,反馈的第一信息包括上所述的第一反馈信息、第二反馈信息、第三反馈信息、第四反馈信息、第五反馈信息、第六反馈信息、第七反馈信息中的至少一项,以便网络侧设备接收到第一信息的情况下,发送第二格式的第一信号。
可选地,所述第一信息通过物理上行信道承载。
这里,物理上行信道包括物理上行控制信道(Physical Uplink Control CHannel,PUCCH),和/或,物理上行共享信道(Physical Uplink Shared CHannel,PUSCH)。例如,第一信息通过上行控制信息(Uplink Control Information,UCI)承载。
另外,若第一条件包括第一格式的第一信号的测量值满足第一门限,所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数,所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长,终端未接收到或错误接收到所述第一格式的第一信号,终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数,终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长中的至少一项,网络侧设备可以在接收到第一信息后,能够基于该第一信息确定第一条件是否满足。当然,网络侧设备也可直接测量第一格式的第一信号,基于测量结果确定第一条件是否满足,在此不再赘述。
应该知道的是,终端接收第一格式的第一信号,由于该第一信号会唤醒终端执行相关 操作,终端就能够向网络侧设备发送第二信息。考虑到第一格式的第一信号的失效,第一条件包括未接收到第二信息,这样,在未接收到第二信息的情况下,发送第二格式的第一信号。
可选地,所述第二信息包括以下至少一项:
随机接入相关上行信息;
混合自动重传请求(Hybrid Automatic Repeat reQuest,HARQ)反馈信息;
上行参考信号信息;
上行控制信息UCI。
这里,在网络侧设备发送第一格式的第一信号后,终端需要根据第一格式的第一信号的接收来进行随机接入的发起,或下行信息的监听等。
其中,随机接入相关上行信息也就是终端根据第一格式的第一信号,在发起随机接入过程中,发送给网络侧设备的信息,如前导码(preamble)。该终端可以是被寻呼的终端,或被唤醒信号唤醒的终端。
其中,HARQ反馈信息可以是物理下行控制信道(Physical Downlink Control CHannel,PDCCH)相关反馈信息,即PDCCH的HARQ反馈;可以是物理下行共享信道(Physical Downlink Shared CHannel,PDSCH)相关反馈信息,即PDSCH的HARQ反馈。
可选地,该实施例中,所述未接收到第二信息包括:在第一时间间隔内未接收到所述第二信息;
其中,所述第一时间间隔的起始时间参考点为以下至少一项:
第一时间单元的结束时刻,所述第一时间单元为发送所述第一格式的第一信号的最后一个时间单元;
第二时间单元的起始时刻,所述第二时间单元为所述第一时间单元的下一个时间单元;
所述第一格式的第一信号的检测时间窗的结束时刻。
也就是说,若第一条件包括未接收到第二信息,网络侧设备会基于是否在第一时间间隔内未接收到第二信息,来确定是否满足第一条件。
其中,第一时间间隔的起始时间参考点可以基于发送第一格式的第一信号的时间单元确定,可以基于第一格式的第一信号的检测时间窗的结束时刻。
当然,第一时间间隔也可以是预先定义的,或网络侧设备配置的。
可选地,第一格式的第一信号的检测时间窗的结束时刻,包括:第一格式的第一信号的检测时间窗的结束时刻所在的时间单元的结束时刻。
可选地,该实施例中,所述第一时间间隔的长度大于或等于所述第一信号的检测时间窗的长度。
这里,第一信号的检测时间窗是预先定义或网络侧设备配置的,终端会在第一信号的检测时间窗内检测第一信号。
需要说明的是,由于空闲(idle)/非激活(inactive)态的终端与网络侧存在可能的时 域偏差,因此,第一信号的检测时间窗是为了克服这种时域偏移所带来的第一信号检测错误。对于连接态终端,由于连接态终端与网络侧能够保持严格的时域同步,所以,第一信号检测时间窗可以理解为第一信号监听时机。
该实施例中,第一格式的第一信号的检测时间窗和第二格式的第一信号的检测时间窗可以相同,也可以不同。若第一格式的第一信号的检测时间窗和第二格式的第一信号的检测时间窗不同,第一时间间隔的长度大于或等于第一信号的检测时间窗的长度,即第一时间间隔的长度大于或等于第一格式的第一信号的检测时间窗的长度。
可选地,该实施例中,所述接收到第一信息包括:在第三时间单元上接收所述第一信息;
其中,所述第三时间单元包括以下至少一项:
预先定义或网络侧设备配置的时间单元;
所述第一信号关联的反馈时间单元;
与所述第一格式的第一信号所指示的反馈时间单元。
也就是说,若第一条件包括接收到第一信息,网络侧设备会基于是否在上述第三时间单元上接收第一信息,来确定是否满足第一条件。
其中,可以预先定义或网络侧配置第一信号关联的反馈时间单元(即第一信号指示的时间单元)。所述第一格式的第一信号所指示的反馈时间单元,可以是距离第一格式的第一信号最近的反馈时间单元。反馈时间单元可以是用于反馈特定信息的时间单元,如用于反馈UCI的时间单元。
可选地,所述方法还包括:
所述网络侧设备接收所述终端发送的所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一信号的格式。
这里,终端向网络侧设备发送第一信号的格式推荐信息,以使网络侧设备能够在接收该格式推荐信息后,基于该格式推荐信息确定第一信号的格式,包括第一格式和/或第二格式。
可选地,所述网络侧设备发送第一格式的第一信号,包括:
所述网络侧设备根据所述格式推荐信息发送所述第一格式的第一信号。
也就是说,网络侧设备会按照终端推荐确定第一格式,发送该格式的第一信号。
可选地,所述网络侧设备在满足第一条件的情况下,发送第二格式的第一信号,包括:
所述网络侧设备在满足第一条件的情况下,根据所述格式推荐信息发送第二格式的第一信号。
也就是说,网络侧设备会按照终端推荐确定第二格式,发送该格式的第一信号。
作为一种实施方式,终端通过向网络侧设备发送格式推荐信息,推荐一个或多个第一信号的格式,网络侧设备可以在该一个或多个格式中选择第一格式和第二格式。或者,终端在网络侧设备发送第一格式的第一信号之前,发送格式推荐信息A,推荐一个或多个第 一信号的格式,网络侧设备可以在该一个或多个格式中选择第一格式;终端在网络侧设备发送第二格式的第一信号之前,发送格式推荐信息B,推荐一个或多个第一信号的格式,网络侧设备可以在该多个格式中选择第二格式。
当然,网络侧设备在接收该格式推荐信息后,也可以不基于该格式推荐信息确定第一信号的格式。因此,可选地,所述方法还包括:
所述网络侧设备根据配置信息或预设信息,确定所述第一格式和/或所述第二格式。
其中,配置信息可以是网络侧设备配置的,预设信息可以是预先定义的。如此,网络侧设备配置或预先定义确定第一格式和/或第二格式。
例如,网络侧设备配置了5种格式(如格式1~5)的第一信号,在配置信息或预设信息中,第一格式为格式1或2;第二格式为格式3,4,5。
可选地,第一格式和第二格式是相互关联的或不相互关联的。
若第一格式和第二格式是相互关联,则在第一格式确定的情况下,确定的第二格式是第一格式关联的格式,如在第一格式为格式1的情况下,由格式1和格式3关联,第二格式一定为格式3,不能为格式4。其中,第一格式跟第二格式的关联关系是网络侧配置或协议约定的。若第一格式和第二格式是不相互关联的,则在第一格式确定的情况下,确定的第二格式是随机确定的,如在第一格式为格式1的情况下,第二格式可以是格式3,4或者5。
可选地,该实施例中,所述方法还包括:
所述网络侧设备接收所述终端发送的所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
如此,网络侧设备测量或者判断第一条件是否满足时,基于终端发送的测量量推荐信息来进行。
可选地,所述网络侧设备接收的格式推荐信息或测量量推荐信息通过以下至少一项承载:
无线资源控制(Radio Resource Control,RRC);
多媒体接入控制控制单元((Medium Access Control Control Element,MAC CE);
UCI;
所述第一信息。
可选地,该实施例中,第一格式和第二格式可以相同,也可以不同。
可选地,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
承载序列;
承载比特;
传输的时域资源;
传输的频域资源。
其中,承载序列不同,包括以下至少一项不同:序列元素,序列长度(例如,前置序列长度),码片速率,码片长度。
其中,承载比特不同,包括以下至少一项不同:比特长度,比特编码速率(即第一信号的数据速率),比特的编码方式,是否重复,重复次数,循环冗余码(Cyclical Redundancy Check,CRC)长度,CRC多项式,CRC加扰序列。
下面,结合具体场景说明本申请实施例的应用:
场景一、第一信号存在反馈机制,第一条件为接收到第一反馈信息,第一反馈信息指示终端未接收到或错误接收到所述第一格式的第一信号。
网络侧设备在发送第一格式的第一信号后,若收到终端反馈的第一反馈信息,则发送第二格式的第一信号。
其中,还可以预先定义或网络侧设备配置第三时间单元(网络侧设备接收第一反馈信息的时间单元),如第三时间单元为与第一格式的第一信号所指示的、用于反馈UCI的时间单元。这样,网络侧设备在与第一格式的第一信号所指示的、用于反馈UCI的时间单元上接收到该第一反馈信息,才确定满足第一条件,发送第二格式的第一信号。
例如,网络侧设备在预先约定好的特定的时间单元内接收到所述第一信息。该特定的时间间隔为终端距离发送第一格式的控制信道/信号(第一信号)最近的反馈时间单元。反馈时间单元例如是用于反馈UCI的反馈时间单元。
本实施例中,第一格式跟第二格式不同。例如,两种格式的所占的时域资源大小不同。第一格式(的控制信号/信道,下面简称为第一格式)所占的时域大小为1个slot。第二格式所占的时域大小为3个slot。可选地,第一格式跟第二格式所承载的比特数相同,例如10比特。第二格式由于所占的资源更大,资源开销更大,但覆盖性能更好了。因此,当网络侧设备发送了第一格式的控制信道/信号之后。如果收到终端发送的:没有接收到或错误的收到所述第一格式控制信号/信道的反馈信息,则网络在后续会发送第二格式的控制信道/信号,试图让终端能够接收到控制信道/信号。
根据本实施例,网络能够通过终端的反馈情况,在一定条件下灵活的采用不同的控制信道/信号传输格式,从而实现在资源开销和覆盖性能之间做更好的折中。
场景二、第一信号不存在反馈机制。以第一信号为唤醒信号(LP-WUS)为例,LP-WUS的目的是触发idle/inactive态终端发起随机接入,或连接态终端进行PDCCH监听等。第一条件为未接收到第二信息,第二信息为随机接入相关上行信息(如发起随机接入信道(Random Access Channel,RACH)相关信息)、PDCCH的相关反馈信息、PDSCH的相关反馈信息中至少一项。
故,网络侧设备在发送第一格式LP-WUS后,若没有接收到随机接入相关上行信息、PDCCH的HARQ反馈信息、PDSCH的HARQ反馈信息中至少一项,则发送第二格式LP-WUS。
可以理解的是,网络侧设备在发送LP-WUS之后,由于LP-WUS用于触发进行(包 括启动或恢复两层含义)PDCCH监听。网络侧设备会在终端恢复PDCCH监听后的一段时间内对终端进行调度,如果没有收到相关的HARQ反馈信息,则说明终端没有成功接收到LP-WUS。也就是,如果终端在接收到第一格式LP-WUS的时间单元之后的一段时间内未进行PDSCH或PDCCH的HARQ反馈信息的发送,则网络侧设备会发送覆盖性能更好的第二格式LP-WUS。
其中,还可以预先定义或网络侧设备配置第一时间间隔,如第一时间间隔的起始时间参考点为发送第一格式LP-WUS的最后一个时间单元的结束时刻,第一时间间隔的长度大于LP-WUS的检测时间窗的长度。这样,网络侧设备在从发送第一格式LP-WUS的最后一个时间单元的结束时刻开始的、长度大于LP-WUS的检测时间窗长度的第一时间间隔内,没有接收到第二信息,才确定满足第一条件,发送第二格式LP-WUS。
可选地,所述发起RACH相关信息包括:目标终端发起RACH。例如,目标终端指的是被寻呼的终端,或被唤醒信号唤醒的终端。可以理解的是,发起RACH的相关信息包括:preamble。
可选地,所述PDCCH的相关反馈信息指的是PDCCH的HARQ反馈。所述PDSCH的相关反馈信息指的是所述PDSCH的HARQ反馈。
进一步地,所述第一条件为:在特定时间间隔内,没有收到第二信息。所述特定时间间隔由网络侧配置或协议约定。此外,可选地,所述特别时间间隔的起始时间参考点为:发送完所述第一格式的LP-WUS所在的时间单元的结束时刻或LP-WUS检测时间窗的结束时刻。
可选地,所述第一格式的第一信号(控制信号/信道)的检测时间窗的结束时刻,包括:所述第一格式的控制信号/信道的检测时间窗的结束时刻所在的时间单元的结束时刻。
例如,特定时间间隔需要大于或等于LP-WUS的检测时间窗。终端会在协议约定或网络配置的LP-WUS检测时间窗内检测LP-WUS。
需要说明的是,由于idle/inactive态的终端与网络侧存在可能的时域偏差,因此,LP-WUS检测时间窗是为了克服这种时域偏移所带来的LP-WUS检测错误。
对于连接态终端,由于连接态终端与网络侧能够保持严格的时域同步,所以一种实施例中,所述LP-WUS检测时间窗可以理解为LP-WUS监听时机。
综上所述,本申请实施例的方法,网络侧设备发送第一格式的第一信号后,进一步根据第一条件灵活的选择第一信号的第二格式,实现了按照条件灵活选择第一信号格式的目的,能够在资源开销和覆盖性能之间做更好的折中。
可选地,该实施例中,所述终端可以包含:Passive IoT设备,例如标签设备Tag。
关于UE推荐的第一信号,包括如下实施例:
一种实施例中,在网络侧设备发送第一格式的第一信号之前,接收UE推荐的第一信号格式信息(如格式推荐信息A)。网络侧设备根据接收到的UE推荐的第一信号格式信息,发送第一格式的第一信号。
另一实施例中,在网络侧设备发送第二格式的第一信号之前,接收UE推荐的第一信号格式信息(如格式推荐信息B)。网络侧设备根据接收到的UE推荐的第一信号格式信息,发送第二格式的第一信号。
另一实施例中,在网络侧设备发送第一信号之前,接收UE上报的第一信号格式测量值信息。网络侧设备根据接收到的UE上报的第一信号测量值信息,来确定选择何种格式的第一信号,继而发送确定格式的第一信号。
可选地,在上述实施例中,所述UE推荐的第一信号格式信息承载于所述第一信息中。
关于第一格式和第二格式。
可选地,第一格式跟第二格式都是网络侧设备配置的或协议约定的格式。
可选地,第二格式包含多种格式。
一种实施例中,网络侧设备配置了5种格式的控制信道信号。网络侧设备配置或协议约定其中,第一格式为格式1或2。第二格式为格式3,4,5。
可选地,第一格式跟第二格式是相互关联的或不相互关联的。其中,第一格式跟第二格式是相互关联,指的是,在第一格式为格式1的情况下,第二格式一定为格式3,不能为格式2。例如,第一格式跟第二格式的关联关系是网络侧配置或协议约定的。
一种实施例中,所述网络侧设备发送第一格式的第一信号,可以理解为,所述网络侧设备发送至少一次第一格式的第一信号。例如,在满足第一条件之前,网络侧设备发送M次第一格式的第一信号。其中M为大于或等于1的正整数。
一种实施例中,第一格式的第一信号与第二格式的第一信号的覆盖性能的好坏不限。也就是说不限于第一格式的第一信号的覆盖性能一定比第二格式的第一信号的覆盖性能差。
一种实施例中,在满足第一条件的情况下,发送第二格式的第一信号。
第一条件包为:
·接收到第一信息,所述第一信息与所述第一格式的第一信号的接收有关。第一信息包括以下至少一项:
终端没有接收到或错误的收到所述第一格式的第一信号;
终端上报所述第一格式的第一信号的测量值低于或高于预设门限;
终端指示网络侧设备更换第一信号格式;
终端上报所述第一格式的第一信号的测量值低于或高于预设门限的次数超过预设值;
终端上报所述第一格式的第一信号的测量值低于或高于预设门限的持续时间超过预设值;
终端没有接收到或错误的收到所述第一格式的第一信号的次数超过预设值;
终端没有接收到或错误的收到所述第一格式的第一信号道持续时间超过预设值。
如图4所示,本申请实施例的一种传输方法,包括:
步骤401,终端接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
可选地,所述终端接收第一格式的第一信号之后,所述方法还包括:
所述终端接收第二格式的第一信号。
这里,终端会接收第一格式的第一信号。之后,所述终端还会接收第二格式的第一信号。其中,第二格式的第一信号是网络侧设备在发送第一格式的第一信号之后,进一步基于如上所述的第一条件,在满足该第一条件的情况下,再次发送的,从而实现了按照条件灵活选择第一信号格式的目的,能够在资源开销和覆盖性能之间做更好的折中。
可选地,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
承载序列;
承载比特;
传输的时域资源;
传输的频域资源。
可选地,前述所述终端接收第二格式的第一信号,可以包括:
在满足第二条件的情况下,终端接收第二格式的第一信号,所述第二条件包括以下至少一项:
确定网络侧设备接收到第一信息,所述第一信息为所述第一格式的第一信号的接收反馈信息;
确定网络侧设备未接收到第二信息,所述第二信息为所述第一格式的第一信号唤醒所述终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
终端未接收到或错误接收到所述第一格式的第一信号;
终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长。
可选地,所述终端在接收所述第一格式的第一信号之后,所述方法还包括:
发送所述第一信息;
其中,所述第一信息包括以下至少一项:
第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第 一门限;
第三反馈信息,所述第三反馈信息用于指示更换所述唤醒信号的格式;
第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长。
如此,能够在第一条件与第一信息相关时,网络侧设备判断第一条件是否满足。
可选地,所述第二信息包括以下至少一项:
随机接入相关上行信息;
混合自动重传请求HARQ反馈信息;
上行参考信号信息;
上行控制信息UCI。
可选地,所述未接收到第二信息包括:在第一时间间隔内未接收到所述第二信息;
其中,所述第一时间间隔的起始时间参考点为以下至少一项:
第一时间单元的结束时刻,所述第一时间单元为发送所述第一格式的第一信号的最后一个时间单元;
第二时间单元的起始时刻,所述第二时间单元为所述第一时间单元的下一个时间单元;
所述第一格式的第一信号的检测时间窗的结束时刻。
可选地,所述第一时间间隔的长度大于或等于所述第一信号的检测时间窗的长度。
可选地,所述接收到第一信息包括:在第三时间单元上接收所述第一信息;
其中,所述第三时间单元包括以下至少一项:
预先定义或网络侧设备配置的时间单元;
所述第一信号关联的反馈时间单元;
所述第一格式的第一信号所指示的反馈时间单元。
可选地,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
承载序列;
承载比特;
传输的时域资源;
传输的频域资源。
可选地,所述唤醒信号为低功耗唤醒信号。
可选地,所述第一信息通过物理上行信道承载。
可选地,所述方法还包括:
所述终端发送所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一格式和/或所述第二格式。
即,网络侧设备能够在接收该格式推荐信息后,基于该格式推荐信息确定第一信号的第一格式和/或第二格式。
作为一种实施方式,终端通过向网络侧设备发送格式推荐信息,推荐一个或多个第一信号的格式,网络侧设备可以在该一个或多个格式中选择第一格式和第二格式。或者,终端在网络侧设备发送第一格式的第一信号之前,发送格式推荐信息A,推荐一个或多个第一信号的格式,网络侧设备可以在该一个或多个格式中选择第一格式;终端在网络侧设备发送第二格式的第一信号之前,发送格式推荐信息B,推荐一个或多个第一信号的格式,网络侧设备可以在该多个格式中选择第二格式。
可选地,所述方法还包括:
所述终端发送所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
如此,网络侧设备接收该测量量推荐信息后,能够基于该测量量推荐信息进行测量或者判断第一条件是否满足。
可选地,该实施例中,格式推荐信息或测量量推荐信息通过以下至少一项承载:
无线资源控制RRC;
多媒体接入控制控制单元MAC CE;
UCI;
所述第一信息。
需要说明的是,该方法是与上述网络侧设备执行的方法配合实现的,上述方法实施例的实现方式适用于该方法,也能达到相同的技术效果。
本申请实施例提供的传输方法,执行主体可以为传输装置。本申请实施例中以传输装置执行传输方法为例,说明本申请实施例提供的传输装置。
如图5所示,本申请实施例的一种传输装置500,包括:
第一发送模块510,用于发送第一格式的第一信号;
第二发送模块520,用于在满足第一条件的情况下,发送第二格式的第一信号;
所述第一条件包括以下至少一项:
接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
确定终端未接收到或错误接收到所述第一格式的第一信号;
确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
可选地,所述第一信息包括以下至少一项:
第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第一门限;
第三反馈信息,所述第三反馈信息用于指示所述网络侧设备更换所述唤醒信号的格式;
第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的唤醒信号的持续时间大于或等于第二时长。
可选地,所述第二信息包括以下至少一项:
随机接入相关上行信息;
混合自动重传请求HARQ反馈信息;
上行参考信号信息;
上行控制信息UCI。
可选地,所述未接收到第二信息包括:在第一时间间隔内未接收到所述第二信息;
其中,所述第一时间间隔的起始时间参考点为以下至少一项:
第一时间单元的结束时刻,所述第一时间单元为发送所述第一格式的第一信号的最后一个时间单元;
第二时间单元的起始时刻,所述第二时间单元为所述第一时间单元的下一个时间单元;
所述第一格式的第一信号的检测时间窗的结束时刻。
可选地,所述第一时间间隔的长度大于或等于所述第一信号的检测时间窗的长度。
可选地,所述接收到第一信息包括:在第三时间单元上接收所述第一信息;
其中,所述第三时间单元包括以下至少一项:
预先定义或网络侧设备配置的时间单元;
所述第一信号关联的反馈时间单元;
所述第一格式的第一信号所指示的反馈时间单元。
可选地,所述装置还包括:
第三接收模块,用于接收所述终端发送的所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一信号的格式。
可选地,所述第一发送模块还用于:
根据所述格式推荐信息发送所述第一格式的第一信号。
可选地,所述第二发送模块还用于:
在满足第一条件的情况下,根据所述格式推荐信息发送第二格式的第一信号。
可选地,所述装置还包括:
第四接收模块,用于接收所述终端发送的所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
可选地,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
承载序列;
承载比特;
传输的时域资源;
传输的频域资源。
可选地,所述第一信息通过物理上行信道承载。
可选地,所述网络侧设备接收的格式推荐信息或测量量推荐信息通过以下至少一项承载:
无线资源控制RRC;
多媒体接入控制控制单元MAC CE;
UCI;
所述第一信息。
可选地,所述装置还包括:
确定模块,用于根据配置信息或预设信息,确定所述第一格式和/或所述第二格式。
可选地,所述唤醒信号为低功耗唤醒信号。
该装置能够在发送第一格式的第一信号之后,进一步基于第一条件,在满足该第一条件的情况下,再次发送第二格式的第一信号,从而实现了按照条件灵活选择第一信号格式的目的,能够在资源开销和覆盖性能之间做更好的折中。
本申请实施例提供的传输装置能够实现图3的方法实施例实现的各个过程,并达到相同的技术效果,为避免重复,这里不再赘述。
如图6所示,本申请实施例的一种传输装置600,包括:
第一接收模块610,用于接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
可选地,所述装置还包括:
第二接收模块,用于接收第二格式的第一信号。
可选地,所述装置还包括:
第三发送模块,用于发送所述第一信息;
其中,所述第一信息包括以下至少一项:
第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第一门限;
第三反馈信息,所述第三反馈信息用于指示更换所述唤醒信号的格式;
第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长。
可选地,所述第二信息包括以下至少一项:
随机接入相关上行信息;
混合自动重传请求HARQ反馈信息;
上行参考信号信息;
上行控制信息UCI。
可选地,所述未接收到第二信息包括:在第一时间间隔内未接收到所述第二信息;
其中,所述第一时间间隔的起始时间参考点为以下至少一项:
第一时间单元的结束时刻,所述第一时间单元为发送所述第一格式的第一信号的最后一个时间单元;
第二时间单元的起始时刻,所述第二时间单元为所述第一时间单元的下一个时间单元;
所述第一格式的第一信号的检测时间窗的结束时刻。
可选地,述第一时间间隔的长度大于或等于所述第一信号的检测时间窗的长度。
可选地,所述接收到第一信息包括:在第三时间单元上接收所述第一信息;
其中,所述第三时间单元包括以下至少一项:
预先定义或网络侧设备配置的时间单元;
所述第一信号关联的反馈时间单元;
所述第一格式的第一信号所指示的反馈时间单元。
可选地,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
承载序列;
承载比特;
传输的时域资源;
传输的频域资源。
可选地,所述唤醒信号为低功耗唤醒信号。
可选地,所述第一信息通过物理上行信道承载。
可选地,所述装置还包括:
第四发送模块,用于发送所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一格式和/或所述第二格式。
可选地,所述装置还包括:
第五发送模块,用于发送所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
可选地,该实施例中,格式推荐信息或测量量推荐信息通过以下至少一项承载:
无线资源控制RRC;
多媒体接入控制控制单元MAC CE;
UCI;
所述第一信息。
本申请实施例中的传输装置可以是电子设备,例如具有操作系统的电子设备,也可以是电子设备中的部件,例如集成电路或芯片。该电子设备可以是终端,也可以为除终端之外的其他设备。示例性的,终端可以包括但不限于上述所列举的终端11的类型,其他设备可以为服务器、网络附属存储器(Network Attached Storage,NAS)等,本申请实施例不作具体限定。
本申请实施例提供的传输装置能够实现图4的方法实施例实现的各个过程,并达到相同的技术效果,为避免重复,这里不再赘述。
可选地,如图7所示,本申请实施例还提供一种通信设备700,包括处理器701和存储器702,存储器702上存储有可在所述处理器701上运行的程序或指令,例如,该通信设备700为终端时,该程序或指令被处理器701执行时实现上述传输方法实施例的各个步骤,且能达到相同的技术效果。该通信设备700为网络侧设备时,该程序或指令被处理器701执行时实现上述传输方法实施例的各个步骤,且能达到相同的技术效果,为避免重复,这里不再赘述。
本申请实施例还提供一种终端,包括处理器和通信接口,通信接口用于接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。该终端实施例与上述终端侧方法实施例对应,上述方法实施例的各个实施过程和实现方式均可适用于该终端实施例中,且能达到相同的技术效果。具体地,图8为实现本申请实施例的一种终端的硬件结构示意图。
该终端800包括但不限于:射频单元801、网络模块802、音频输出单元803、输入单元804、传感器805、显示单元806、用户输入单元807、接口单元808、存储器809以及处理器810等中的至少部分部件。
本领域技术人员可以理解,终端800还可以包括给各个部件供电的电源(比如电池),电源可以通过电源管理系统与处理器810逻辑相连,从而通过电源管理系统实现管理充电、放电、以及功耗管理等功能。图8中示出的终端结构并不构成对终端的限定,终端可以包括比图示更多或更少的部件,或者组合某些部件,或者不同的部件布置,在此不再赘述。
应理解的是,本申请实施例中,输入单元804可以包括图形处理器(Graphics Processing Unit,GPU)8041和麦克风8042,图形处理器8041对在视频捕获模式或图像捕获模式中由图像捕获装置(如摄像头)获得的静态图片或视频的图像数据进行处理。显示单元806可包括显示面板8061,可以采用液晶显示器、有机发光二极管等形式来配置显示面板8061。用户输入单元807包括触控面板8071以及其他输入设备8072中的至少一种。触控面板8071,也称为触摸屏。触控面板8071可包括触摸检测装置和触摸控制器两个部分。其他输入设备8072可以包括但不限于物理键盘、功能键(比如音量控制按键、开关按键等)、轨迹球、鼠标、操作杆,在此不再赘述。
本申请实施例中,射频单元801接收来自网络侧设备的下行数据后,可以传输给处理器810进行处理;另外,射频单元801可以向网络侧设备发送上行数据。通常,射频单元801包括但不限于天线、放大器、收发信机、耦合器、低噪声放大器、双工器等。
存储器809可用于存储软件程序或指令以及各种数据。存储器809可主要包括存储程序或指令的第一存储区和存储数据的第二存储区,其中,第一存储区可存储操作系统、至少一个功能所需的应用程序或指令(比如声音播放功能、图像播放功能等)等。此外,存储器809可以包括易失性存储器或非易失性存储器,或者,存储器809可以包括易失性和非易失性存储器两者。其中,非易失性存储器可以是只读存储器(Read-Only Memory,ROM)、可编程只读存储器(Programmable ROM,PROM)、可擦除可编程只读存储器(Erasable PROM,EPROM)、电可擦除可编程只读存储器(Electrically EPROM,EEPROM)或闪存。易失性存储器可以是随机存取存储器(Random Access Memory,RAM),静态随机存取存储器(Static RAM,SRAM)、动态随机存取存储器(Dynamic RAM,DRAM)、同步动态随机存取存储器(Synchronous DRAM,SDRAM)、双倍数据速率同步动态随机存取存储器(Double Data Rate SDRAM,DDRSDRAM)、增强型同步动态随机存取存储器(Enhanced SDRAM,ESDRAM)、同步连接动态随机存取存储器(Synch link DRAM,SLDRAM)和直接内存总线 随机存取存储器(Direct Rambus RAM,DRRAM)。本申请实施例中的存储器809包括但不限于这些和任意其它适合类型的存储器。
处理器810可包括一个或多个处理单元;可选地,处理器810集成应用处理器和调制解调处理器,其中,应用处理器主要处理涉及操作系统、用户界面和应用程序等的操作,调制解调处理器主要处理无线通信信号,如基带处理器。可以理解的是,上述调制解调处理器也可以不集成到处理器810中。
其中,射频单元801,用于接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
可选地,射频单元801还用于接收第二格式的第一信号。
可选地,所述终端在接收所述第一格式的第一信号之后,所述方法还包括:
发送所述第一信息;
其中,所述第一信息包括以下至少一项:
第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第一门限;
第三反馈信息,所述第三反馈信息用于指示更换所述唤醒信号的格式;
第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长。
可选地,所述第二信息包括以下至少一项:
随机接入相关上行信息;
混合自动重传请求HARQ反馈信息;
上行参考信号信息;
上行控制信息UCI。
可选地,所述未接收到第二信息包括:在第一时间间隔内未接收到所述第二信息;
其中,所述第一时间间隔的起始时间参考点为以下至少一项:
第一时间单元的结束时刻,所述第一时间单元为发送所述第一格式的第一信号的最后一个时间单元;
第二时间单元的起始时刻,所述第二时间单元为所述第一时间单元的下一个时间单元;
所述第一格式的第一信号的检测时间窗的结束时刻。
可选地,所述第一时间间隔的长度大于或等于所述第一信号的检测时间窗的长度。
可选地,所述接收到第一信息包括:在第三时间单元上接收所述第一信息;
其中,所述第三时间单元包括以下至少一项:
预先定义或网络侧设备配置的时间单元;
所述第一信号关联的反馈时间单元;
所述第一格式的第一信号所指示的反馈时间单元。
可选地,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
承载序列;
承载比特;
传输的时域资源;
传输的频域资源。
可选地,所述唤醒信号为低功耗唤醒信号。
可选地,所述第一信息通过物理上行信道承载。
可选地,射频单元801还用于发送所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一格式和/或所述第二格式。
可选地,射频单元801还用于发送所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
可选地,格式推荐信息或测量量推荐信息通过以下至少一项承载:
无线资源控制RRC;
多媒体接入控制控制单元MAC CE;
UCI;
所述第一信息。
本申请实施例还提供一种网络侧设备,包括处理器和通信接口,通信接口用于发送第一格式的第一信号;
在满足第一条件的情况下,发送第二格式的第一信号;
所述第一条件包括以下至少一项:
接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
所述第一格式的第一信号的测量值满足第一门限;
所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
确定终端未接收到或错误接收到所述第一格式的第一信号;
确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
该网络侧设备实施例与上述网络侧设备方法实施例对应,上述方法实施例的各个实施过程和实现方式均可适用于该网络侧设备实施例中,且能达到相同的技术效果。
具体地,本申请实施例还提供了一种网络侧设备。如图9所示,该网络侧设备900包括:天线91、射频装置92、基带装置93、处理器94和存储器95。天线91与射频装置92连接。在上行方向上,射频装置92通过天线91接收信息,将接收的信息发送给基带装置93进行处理。在下行方向上,基带装置93对要发送的信息进行处理,并发送给射频装置92,射频装置92对收到的信息进行处理后经过天线91发送出去。
以上实施例中网络侧设备执行的方法可以在基带装置93中实现,该基带装置93包括基带处理器。
基带装置93例如可以包括至少一个基带板,该基带板上设置有多个芯片,如图9所示,其中一个芯片例如为基带处理器,通过总线接口与存储器95连接,以调用存储器95中的程序,执行以上方法实施例中所示的网络设备操作。
该网络侧设备还可以包括网络接口96,该接口例如为通用公共无线接口(common public radio interface,CPRI)。
具体地,本申请实施例的网络侧设备900还包括:存储在存储器95上并可在处理器94上运行的指令或程序,处理器94调用存储器95中的指令或程序执行图5所示各模块执行的方法,并达到相同的技术效果,为避免重复,故不在此赘述。
本申请实施例还提供一种可读存储介质,所述可读存储介质上存储有程序或指令,该程序或指令被处理器执行时实现上述网络侧设备执行的传输方法,或者实现上述终端执行的传输方法实施例的各个过程,且能达到相同的技术效果,为避免重复,这里不再赘述。
其中,所述处理器为上述实施例中所述的终端中的处理器。所述可读存储介质,可以是非易失性的,也可以是非瞬态的。可读存储介质可以包括计算机可读存储介质,如计算机只读存储器ROM、随机存取存储器RAM、磁碟或者光盘等。
本申请实施例另提供了一种芯片,所述芯片包括处理器和通信接口,所述通信接口和所述处理器耦合,所述处理器用于运行程序或指令,实现上述网络侧设备执行的传输方法,或者实现上述终端执行的传输方法实施例的各个过程,且能达到相同的技术效果,为避免重复,这里不再赘述。
应理解,本申请实施例提到的芯片还可以称为系统级芯片,系统芯片,芯片系统或片上系统芯片等。
本申请实施例另提供了一种计算机程序/程序产品,所述计算机程序/程序产品被存储在存储介质中,所述计算机程序/程序产品被至少一个处理器执行以实现上述网络侧设备执行的传输方法,或者实现上述终端执行的传输方法实施例的各个过程,且能达到相同的技术效果,为避免重复,这里不再赘述。
本申请实施例还提供了一种通信系统,包括:终端及网络侧设备,所述终端可用于执行如上述终端执行的传输方法的步骤,所述网络侧设备可用于执行如上所述网络侧设备执行的传输方法的步骤。
需要说明的是,在本文中,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者装置不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者装置所固有的要素。在没有更多限制的情况下,由语句“包括一个……”限定的要素,并不排除在包括该要素的过程、方法、物品或者装置中还存在另外的相同要素。此外,需要指出的是,本申请实施方式中的方法和装置的范围不限按示出或讨论的顺序来执行功能,还可包括根据所涉及的功能按基本同时的方式或按相反的顺序来执行功能,例如,可以按不同于所描述的次序来执行所描述的方法,并且还可以添加、省去、或组合各种步骤。另外,参照某些示例所描述的特征可在其他示例中被组合。
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到上述实施例方法可借助软件加必需的通用硬件平台的方式来实现,当然也可以通过硬件,但很多情况下前者是更佳的实施方式。基于这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分可以以计算机软件产品的形式体现出来,该计算机软件产品存储在一个存储介质(如ROM/RAM、磁碟、光盘)中,包括若干指令用以使得一台终端(可以是手机,计算机,服务器,空调器,或者网络设备等)执行本申请各个实施例所述的方法。
上面结合附图对本申请的实施例进行了描述,但是本申请并不局限于上述的具体实施方式,上述的具体实施方式仅仅是示意性的,而不是限制性的,本领域的普通技术人员在本申请的启示下,在不脱离本申请宗旨和权利要求所保护的范围情况下,还可做出很多形式,均属于本申请的保护之内。

Claims (27)

  1. 一种传输方法,包括:
    网络侧设备发送第一格式的第一信号;
    所述网络侧设备在满足第一条件的情况下,发送第二格式的第一信号;
    所述第一条件包括以下至少一项:
    接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
    未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
    所述第一格式的第一信号的测量值满足第一门限;
    所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
    所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
    确定终端未接收到或错误接收到所述第一格式的第一信号;
    确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
    确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
    其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
  2. 根据权利要求1所述的方法,其中,所述第一信息包括以下至少一项:
    第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
    第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第一门限;
    第三反馈信息,所述第三反馈信息用于指示所述网络侧设备更换所述唤醒信号的格式;
    第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
    第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
    第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
    第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的唤醒信号的持续时间大于或等于第二时长。
  3. 根据权利要求1所述的方法,其中,所述第二信息包括以下至少一项:
    随机接入相关上行信息;
    混合自动重传请求HARQ反馈信息;
    上行参考信号信息;
    上行控制信息UCI。
  4. 根据权利要求1所述的方法,其中,所述未接收到第二信息包括:在第一时间间隔内未接收到所述第二信息;
    其中,所述第一时间间隔的起始时间参考点为以下至少一项:
    第一时间单元的结束时刻,所述第一时间单元为发送所述第一格式的第一信号的最后一个时间单元;
    第二时间单元的起始时刻,所述第二时间单元为所述第一时间单元的下一个时间单元;
    所述第一格式的第一信号的检测时间窗的结束时刻。
  5. 根据权利要求4所述的方法,其中,所述第一时间间隔的长度大于或等于所述第一信号的检测时间窗的长度。
  6. 根据权利要求1所述的方法,其中,所述接收到第一信息包括:在第三时间单元上接收所述第一信息;
    其中,所述第三时间单元包括以下至少一项:
    预先定义或网络侧设备配置的时间单元;
    所述第一信号关联的反馈时间单元;
    所述第一格式的第一信号所指示的反馈时间单元。
  7. 根据权利要求1所述的方法,其中,所述方法还包括:
    所述网络侧设备接收所述终端发送的所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一信号的格式。
  8. 根据权利要求7所述的方法,其中,所述网络侧设备发送第一格式的第一信号,包括:
    所述网络侧设备根据所述格式推荐信息发送所述第一格式的第一信号。
  9. 根据权利要求7所述的方法,其中,所述网络侧设备在满足第一条件的情况下,发送第二格式的第一信号,包括:
    所述网络侧设备在满足第一条件的情况下,根据所述格式推荐信息发送第二格式的第一信号。
  10. 根据权利要求1所述的方法,其中,所述方法还包括:
    所述网络侧设备接收所述终端发送的所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
  11. 根据权利要求1所述的方法,其中,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
    承载序列;
    承载比特;
    传输的时域资源;
    传输的频域资源。
  12. 根据权利要求1所述的方法,其中,所述第一信息通过物理上行信道承载。
  13. 根据权利要求7或10所述的方法,其中,所述网络侧设备接收的格式推荐信息或测量量推荐信息通过以下至少一项承载:
    无线资源控制RRC;
    多媒体接入控制控制单元MAC CE;
    UCI;
    所述第一信息。
  14. 根据权利要求1所述的方法,其中,所述方法还包括:
    所述网络侧设备根据配置信息或预设信息,确定所述第一格式和/或所述第二格式。
  15. 根据权利要求1所述的方法,其中,所述唤醒信号为低功耗唤醒信号。
  16. 一种传输方法,包括:
    终端接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
  17. 根据权利要求16所述的方法,其中,所述终端接收第一格式的第一信号之后,所述方法还包括:
    所述终端接收第二格式的第一信号。
  18. 根据权利要求16所述的方法,其中,所述终端在接收所述第一格式的第一信号之后,所述方法还包括:
    发送第一信息;
    其中,所述第一信息包括以下至少一项:
    第一反馈信息,所述第一反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号;
    第二反馈信息,所述第二反馈信息用于指示所述第一格式的第一信号的测量值满足第一门限;
    第三反馈信息,所述第三反馈信息用于指示更换所述唤醒信号的格式;
    第四反馈信息,所述第四反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
    第五反馈信息,所述第五反馈信息用于指示所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
    第六反馈信息,所述第六反馈信息用于指示所述终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
    第七反馈信息,所述第七反馈信息用于指示所述终端未接收到或错误接收到所述第一 格式的第一信号的持续时间大于或等于第二时长。
  19. 根据权利要求16所述的方法,其中,所述方法还包括:
    所述终端发送所述第一信号的格式推荐信息,所述格式推荐信息用于确定所述第一信号的格式。
  20. 根据权利要求16所述的方法,其中,所述方法还包括:
    所述终端发送所述第一信号的测量量推荐信息,所述测量量推荐信息用于确定所述第一信号的测量量。
  21. 根据权利要求17所述的方法,其中,所述第一格式的第一信号和所述第二格式的第一信号在以下至少一项存在区别:
    承载序列;
    承载比特;
    传输的时域资源;
    传输的频域资源。
  22. 一种传输装置,包括:
    第一发送模块,用于发送第一格式的第一信号;
    第二发送模块,用于在满足第一条件的情况下,发送第二格式的第一信号;
    所述第一条件包括以下至少一项:
    接收到第一信息,所述第一信息为对所述第一格式的第一信号的接收反馈信息;
    未接收到第二信息,所述第二信息为通过所述第一格式的第一信号唤醒的终端的相关信息;
    所述第一格式的第一信号的测量值满足第一门限;
    所述第一格式的第一信号的测量值满足所述第一门限的次数大于或等于第一次数;
    所述第一格式的第一信号的测量值满足所述第一门限的持续时间大于或等于第一时长;
    确定终端未接收到或错误接收到所述第一格式的第一信号;
    确定终端未接收到或错误接收到所述第一格式的第一信号的次数大于或等于第二次数;
    确定终端未接收到或错误接收到所述第一格式的第一信号的持续时间大于或等于第二时长;
    其中,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
  23. 一种传输装置,包括:
    第一接收模块,用于接收第一格式的第一信号,所述第一信号包括以下至少一项:唤醒信号,反向散射通信相关的控制命令。
  24. 根据权利要求23所述的装置,其中,所述装置还包括:
    第二接收模块,用于接收第二格式的第一信号。
  25. 一种网络侧设备,包括处理器和存储器,所述存储器存储可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如权利要求1至15任一项所述的传输方法的步骤。
  26. 一种终端,包括处理器和存储器,所述存储器存储可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如权利要求16至21任一项所述的传输方法的步骤。
  27. 一种可读存储介质,所述可读存储介质上存储程序或指令,所述程序或指令被处理器执行时实现如权利要求1-15任一项所述的传输方法,或者实现如权利要求16至21任一项所述的传输方法的步骤。
PCT/CN2023/137309 2022-12-15 2023-12-08 传输方法、装置、网络侧设备及终端 WO2024125390A1 (zh)

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