CN114071502B - Configuration method and device - Google Patents

Abstract

The application discloses a configuration method and a device, wherein the method comprises the following steps: performing a first operation on the first configuration and/or the second configuration according to the target amount and/or the acquired one or more pieces of first information, wherein the first configuration comprises an activation time and/or a non-activation time; the second configuration includes: detecting time and/or selecting time; the first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation. In the embodiment of the application, the activation time, the detection time and/or the selection time can be adapted to the busy rate, the occupancy rate, the service characteristics and the like of the channel, so that the transmission of the terminal can be adapted to the requirements of the current service or the system.

Description

Configuration method and device

Technical Field

The application belongs to the technical field of communication, and particularly relates to a configuration method and device.

Background

Currently, in order to save power, a New air interface (NR) SideLink (SL) may introduce mechanisms such as receiving (Discontinuous Reception, DRX) with SL discontinuous, partial detection (PARITAL SENSING), and random selection. One SL DRX configuration and/or PARTIAL SENSING configuration cannot accommodate the requirements of different transmission types, traffic characteristics, so the user needs to support multiple sets of SL DRX configurations and/or PARTIAL SENSING configurations.

How to select the appropriate SL DRX configuration and/or PARTIAL SENSING configuration is a challenge.

Disclosure of Invention

The embodiment of the application aims to provide a configuration method and device, which solve the problem of how to select proper activation time and/or non-activation time, or detection time and/or selection time.

In a first aspect, a configuration method is provided, applied to a terminal, and includes:

Performing a first operation on a first configuration and/or a second configuration according to a target amount and/or acquired first information, wherein the first configuration comprises an activation time and/or a non-activation time; the second configuration includes: detecting time and/or selecting time;

The first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation.

In a second aspect, a configuration apparatus is provided, applied to a terminal, including:

The processing module is used for performing first operation on the first configuration and/or the second configuration according to the target quantity and/or the acquired one or more pieces of first information, wherein the first configuration comprises an activation time and/or a non-activation time; the second configuration includes: detecting time and/or selecting time;

The first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation.

In a third aspect, a terminal is provided, which includes: a processor, a memory and a program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the method as described in the first aspect.

In a fourth aspect, there is provided a readable storage medium having stored thereon a program or instructions which when executed by a processor perform the steps of the method according to the first aspect.

In a fifth aspect, there is provided a readable storage medium having stored thereon a program or instructions which when executed by a processor implement a method of processing as described in the first aspect.

In a sixth aspect, there is provided a program product stored in a non-volatile storage medium, the program product being executed by at least one processor to carry out the steps of the method of the process according to the first aspect.

In a seventh aspect, there is provided a chip comprising a processor and a communication interface coupled to the processor for running a program or instructions implementing a method of processing as described in the first aspect.

In the embodiment of the application, the activation time, the detection time and/or the selection time can be adapted to the busy rate, the occupancy rate, the service characteristics and the like of the channel, so that the transmission of the terminal can be adapted to the requirements of the current service or the system.

Drawings

Fig. 1 is a block diagram of a wireless communication system to which embodiments of the present application are applicable;

FIG. 2 is a flow chart of a configuration method of an embodiment of the present application;

FIG. 3 is a schematic diagram of SL DRX 1-3 in an embodiment of the application;

FIG. 4 is a schematic diagram of 3 detection times and 1 selection time in an embodiment of the present application;

FIG. 5 is a schematic diagram of additional detection time in an embodiment of the present application;

FIG. 6 is a schematic diagram of a configuration device according to an embodiment of the present application;

Fig. 7 is a schematic diagram of a terminal according to an embodiment of the present application.

Detailed Description

Transmission herein may be understood as reception and/or transmission.

All information mentioned herein may be obtained by: the users are configured by the base station, the scheduling or indication of the users is scheduled, the pre-configuration is carried out, the negotiation is carried out among the users, the protocol is regulated, and the users decide the modes.

A duration herein may be understood as the number of resources, the number of measurable resources, the number of physical resources, and/or the number of logical resources in the time domain involved.

The resources referred to herein comprise time-domain and/or frequency-domain resources, which may be one or more subchannels or Resource Blocks (RBs) or groups of RBs or interlaces (interlaces) or transport combs (comb) (over one or more time-domain resources). The time domain resource may be one or more symbols/slots/minislots/milliseconds/subframes/frames/peridocity/COT channel occupation duration (Channel Occupancy Time, COT channel occupation duration). The time domain resource may be a physical time domain resource or a logical time domain resource, for example, a slot may be a physical slot or a logical slot. The time-frequency resource may be a single slot (single slot) resource occupying X subchannels or RBs.

The measurable resources may be (logical) resources at (receiving or transmitting corresponding) activation times, preferably at least activation times received for control channels and/or data channels, such as activation times received for physical side link control channels (PHYSICAL SIDELINK SHARED CHANNEL, PSCCH) and/or physical side link shared channels (PHYSICAL SIDELINK SHARED CHANNEL, PSSCH).

The non-measurable resources are resources that may be at inactive times, preferably at least inactive times for control channel and/or data channel reception, e.g. for PSCCH and/or PSSCH reception.

The ratio of A to B in the present invention may be A/B or B/A.

The first configuration may also be referred to herein as a first configuration pattern, e.g., the first configuration may be a SL DRX configuration, and the second configuration may also be referred to as a second configuration pattern, e.g., the second configuration may be PARITAL SENSING configurations or a send configuration. Although partial detection (PARITAL SENSING) is exemplified herein, the present invention is not limited to PARITAL SENSING, and is applicable to full sensing (full sensing).

The first configuration herein may be divided into an active time, in which the user performs measurement, monitoring and/or transmission of the target object, and/or a non-active time, in which the target object is not measured, monitored and/or transmitted.

The activation time and the deactivation time may be defined for the target objects, i.e. the activation times of different target objects may be the same or different, and the deactivation times of different target objects may be the same or different.

The activation time and the deactivation time may be defined for the transmission direction, i.e. the activation time of the transmission and the reception may be the same or different, and the deactivation time of the transmission and the reception may be the same or different. Some target objects or directions of transmission may have only active times and no inactive times.

For example, SCI can be sent at any time on one assumption.

For example, the reception of SCI control and/or data is limited by the active time of DRX, while the transmission of control and/or data SCI may be transmitted at the corresponding inactive time or inactive time of reception, but optionally the transmission of control and/or data is limited by a selection window.

The activation time includes: duration timer on time (on DurationTimer), on time timer (on duration timer), DRX inactivity timer (DRX-inactivity timer), DRX retransmission timer (DRX-RetransmissionTimer), T400 run time, sl-LatencyBoundCSI-Report period. Activation time may also be interpreted as the time that transmission and/or reception of some or all of the signals and/or channels may take place.

The deactivation time includes: at least one of off duration, round Trip Time (RTT) timer run Time, non-PARTIAL SENSING window portion (e.g., portion between two PARTIAL SENSING windows, or disabled PARTIAL SENSING window), unsensed Time.

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar objects and not necessarily for describing a sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate, such that embodiments of the application may be practiced otherwise than as specifically illustrated and described herein, and that the "first" and "second" distinguishing between objects generally being of the same type, and not necessarily limited to the number of objects, such as the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/" generally means a relationship in which the associated object is an "or" before and after.

It should be noted that the techniques described in the embodiments of the present application are not limited to long term evolution (Long Term Evolution, LTE)/LTE evolution (LTE-Advanced, LTE-a) systems, but may also be used in other wireless communication systems, such as code division multiple access (Code Division Multiple Access, CDMA), time division multiple access (Time Division Multiple Access, TDMA), frequency division multiple access (Frequency Division Multiple Access, FDMA), orthogonal frequency division multiple access (Orthogonal Frequency Division Multiple Access, OFDMA), single-carrier frequency division multiple access (Single-carrier Frequency-Division Multiple Access, SC-FDMA), and other systems. The terms "system" and "network" in embodiments of the application are often used interchangeably, and the techniques described may be used for both the above-mentioned systems and radio technologies, as well as other systems and radio technologies. However, the following description describes a New Radio (NR) system for exemplary purposes, and NR terminology is used in much of the following description, although these techniques may also be applied to applications other than NR system applications, such as the 6 th Generation (6G) communication system.

Fig. 1 shows a block diagram of a wireless communication system to which an embodiment of the present application is applicable. The wireless communication system includes a terminal 11 and a network device 12. The terminal 11 may also be referred to as a terminal device or a User Equipment (UE), and the terminal 11 may be a terminal-side device such as a Mobile phone, a tablet Computer (Tablet Personal Computer), a Laptop (Laptop Computer) or a Personal digital assistant (Personal DIGITAL ASSISTANT, PDA), a palm Computer, a netbook, an ultra-Mobile Personal Computer (ultra-Mobile Personal Computer, UMPC), a Mobile internet device (Mobile INTERNET DEVICE, MID), a wearable device (Wearable Device) or a vehicle-mounted device (VUE), a pedestrian terminal (PUE), and the wearable device includes: a bracelet, earphone, glasses, etc. It should be noted that the specific type of the terminal 11 is not limited in the embodiment of the present application. The network side device 12 may be a Base station or a core network, where the Base station may be called a node B, an evolved node B, an access Point, a Base transceiver station (Base TransceiverStation, BTS), a radio Base station, a radio transceiver, a basic service set (BasicServiceSet, BSS), an extended service set (ExtendedServiceSet, ESS), a node B, an evolved node B (eNB), a home node B, a home evolved node B, a WLAN access Point, a WiFi node, a transmission receiving Point (TRANSMITTING RECEIVING Point, TRP), or some other suitable terminology in the field, and the Base station is not limited to the specified technical vocabulary so long as the same technical effect is achieved, and it should be noted that, in the embodiment of the present application, only the Base station in the NR system is taken as an example, but the specific type of the Base station is not limited.

The access control method and the device provided by the embodiment of the application are described in detail through specific embodiments and application scenes thereof with reference to the accompanying drawings.

Referring to fig. 2, an embodiment of the present application provides a configuration method, where an execution body of the method may be a terminal, and specific steps include: step 201.

Step 201: performing a first operation on a first configuration and/or a second configuration according to a target amount and/or acquired first information, wherein the first configuration comprises an activation time and/or a non-activation time; the second configuration includes: detecting time and/or selecting time;

The first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation.

Where dormancy is a brief dormancy, such as not receiving and/or transmitting for the next few active times, and waking up refers to the user beginning to listen, such as receiving and/or transmitting for the next few active times.

The activity time may include: activation time, detection time, and/or selection time. The inactivity time may include: inactive time and/or non-detection time.

The disabling operation, the deactivating operation, the releasing operation and the dormant operation may be always effective or may be briefly effective, for example, disabling, deactivating and releasing in M1 cycles.

The enabling operation, activating operation, determining, waking operation may be permanently effective or may be briefly effective, e.g. M2 cycles of disabling, deactivating, determining, waking.

In the embodiment of the application, the terminal can dynamically decide whether to use the first configuration and/or the second configuration according to the target quantity, and when the terminal determines that the terminal can use the first configuration and/or the second configuration, the terminal can select the proper first configuration and/or the second configuration.

Optionally, the target amount includes one or more of:

(1) The measurement quantity, such as the measurement quantity obtained by the terminal itself or the measurement quantity received by the terminal;

Such as reference signal received Power (REFERENCE SIGNAL RECEIVING Power, RSRP), reference signal received Quality (REFERENCE SIGNAL RECEIVING Quality, RSRQ), received signal strength Indication (RECEIVED SIGNAL STRENGTH Indication, RSSI), signal to interference plus noise ratio (Signal to Interference plus Noise Ratio, SINR), signal to noise ratio (Signal to Noise Ratio, SNR), etc.

(2) The calculated quantity is that the terminal measures the measured quantity to obtain a calculated result, or the terminal receives the measured quantity to obtain a calculated result;

Alternatively, the calculation amount may include: channel busy ratio (Channel Busy Rate, CBR), channel occupancy ratio (CR) and/or other computational load, such as at least one of (occupancy of system, carrier, bandwidth part (Band WIDTH PART, BWP), resource pool, user, connection or group), occupancy, blocking rate, blocking amount, idle rate, idle amount, transmission success number, transmission success rate, transmission failure number, transmission failure rate, discontinuous transmission (Discontinuous Transmission, DTX) number, DTX rate, miss rate, retransmission number, retransmission rate, etc.

The transmission Failure may be one or more of a negative acknowledgement (Negative Acknowledgement, NACK) received, no feedback received, no response received, DTX received, a Beam Failure (BF) received and/or triggered, a radio link Failure (Radio Link Failure, RLF) received and/or triggered, a connection establishment Failure, unsuccessful transmission, unsuccessful reception, and unsuccessful decoding.

In one embodiment, the transmission Failure may be one or more of a preset number of negative acknowledgements (Negative Acknowledgement, NACK) received, a preset number of failed feedback received, a preset number of failed response received, a preset number of DTX received and/or a preset number of Beam Failure (BF) received and/or triggered, a preset number of radio link Failure (Radio Link Failure, RLF) received and/or triggered, a preset number of connection establishment failures, a preset number of unsuccessful transmissions, a preset number of unsuccessful receptions, and a preset number of unsuccessful decodes.

Wherein the successful transmission may be one or more of receipt of a positive Acknowledgement (ACK), DTX (if an option1 multicast feedback NACK only mechanism is performed), sending a connection and/or receiving a connection establishment response, sending and/or receiving a connection establishment complete message, sending and/or receiving a connection establishment response, successful sending, successful receiving, and successful decoding

In one embodiment, the transmission success may be one or more of receiving a predetermined number of Acknowledgement (ACK), a predetermined number of DTX (if an option1 multicast feedback NACK only mechanism is performed), transmitting a connection and/or receiving a connection establishment response, transmitting and/or receiving a connection establishment complete message, transmitting and/or receiving a connection establishment response, transmitting and/or receiving a predetermined number of success, and decoding a predetermined number of success

It will be appreciated that feedback corresponding to multiple transmissions of one Transport Block (TB) is NACK, which may indicate that the system is relatively congested and requires a relatively long activation time.

(3) A priority;

such as priority of traffic, data, protocol data units (Protocol Data Unit, PDUs), TBs or packets;

(4) A period;

Such as the period of traffic, data, PDUs, TBs or packets;

(5) Time delay requirements;

Such as latency requirements for traffic, data, PDUs, TBs or packets.

In some embodiments, if the value of the target amount satisfies a first condition, the terminal performs a first operation on the first configuration and/or the second configuration;

wherein the first condition comprises one or more of the following in combination:

(1) The value of the target amount is lower or higher than a first threshold value;

(2) The target amount has a value below or above the difference between the second threshold value and the first value (such as delta 1);

(3) The target amount has a value below or above the sum of a third threshold value and a second value, such as delta 2.

It is understood that in the embodiment of the present application, the first threshold value, the second threshold value, the third threshold value, the first value and the second value are not limited.

In some embodiments, the terminal performs the first operation on the first configuration and/or the second configuration according to the value of the target amount or the range to which the value of the target amount belongs or the quantized value corresponding to the value of the target amount.

The quantized value corresponding to the value of the target amount may be understood as performing quantization processing on the value of the target amount in a predetermined manner, for example, rounding up or down the value of the target amount in accordance with a preset kyoto. For example 5.6 is rounded up to 6 with a precision of 1, but if rounded up to 10 with a precision of 10.

In some embodiments, the value of the target amount corresponds to the first configuration and/or the second configuration, or the range to which the value of the target amount belongs corresponds to the first configuration and/or the second configuration, or the quantized value of the target amount corresponds to the first configuration and/or the second configuration, that is, one or more of the value of the target amount or the range (range) to which the value of the target amount or the value of the target amount corresponds to the quantized value of the target amount or the value of the target amount corresponds to one or more of the first configuration and/or the second configuration.

In some embodiments, the first activation time and the second activation time satisfy at least one of the following relationships: the first activation time and the second activation time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first activation time to the duration of the second activation time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first activation time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second activation time;

And/or the number of the groups of groups,

The first detection time and the second detection time satisfy at least one of the following relationships: the first detection time and the second detection time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first detection time to the duration of the second detection time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first detection time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second detection time;

And/or the number of the groups of groups,

The first selection time and the second selection time satisfy at least one of the following relationships: the first selection time and the second selection time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first selection time to the duration of the second selection time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first selection time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second selection time.

The corresponding on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time is an inclusive (nested) relationship or an overlapping relationship;

And/or the number of the groups of groups,

The ratio of the lengths of the corresponding on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time is an integer, that is, the lengths of the corresponding on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time are in a multiple relationship;

And/or the number of the groups of groups,

The detection time is a containing relation or an overlapping relation corresponding to the value of the different target amounts or the range of the value of the different target amounts or the quantized value corresponding to the value of the different target amounts;

The values of different target amounts or the ranges of the values of different target amounts or the quantized values corresponding to the values of different target amounts, wherein the ratio of the duration corresponding to the detection time is an integer, i.e. the duration corresponding to the detection time is a multiple relation;

And/or the number of the groups of groups,

The value of the different target amount or the range of the value of the different target amount or the quantized value corresponding to the value of the different target amount corresponds to the selection time as the inclusion relationship or the overlapping relationship;

And/or the number of the groups of groups,

The ratio of the durations of the corresponding selection times is an integer, i.e. the durations of the corresponding selection times are a multiple of the relation.

Taking the target amount as CBR as an example, small CBR: CBR: the duration of the above activation time (or detection time or selection time) corresponding to the large cbr=t: 2T:4T.

In some embodiments, the first configuration corresponding to the quantized value corresponding to the value of the different target amount or the range to which the value of the different target amount belongs or the value of the different target amount satisfies at least one of the following requirements:

(1) The higher the target amount, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or the activation Time (e.g., the greater the number of Time units involved) and/or the shorter the off duration, RTT Time, or inactivity Time (e.g., the smaller the number of Time units involved);

(2) The lower the target amount, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time (e.g., the smaller the number of Time units involved) and/or the longer the off duration, RTT Time or inactivity Time (e.g., the larger the number of Time units involved).

Wherein, one time unit is T symbols, micro time slot (mini-slot), time slot (slot), millisecond (ms), frame (frame) or period, and T is a positive integer.

For example, the higher the CBR or CR, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the shorter the off duration, RTT Time or deactivation Time; conversely, the lower the CBR or CR, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the longer the off duration, RTT Time or deactivation Time.

Also for example, the higher the CBR or CR, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time, and/or the longer the off duration or RTT timer or deactivation time; conversely, the lower the CBR or CR, the longer on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time; and/or the shorter the off duration or RTT timer or inactivity time.

In some embodiments, the first configuration corresponding to the quantized value corresponding to the value of the different target amount or the range to which the value of the different target amount belongs or the value of the different target amount satisfies at least one of the following requirements:

(1) The lower the target amount, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time and/or the shorter the off duration, RTT Time or inactivity Time,

For example, on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer, or activation time for small CBR is shorter than on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer, or activation time for large CBR; specifically, CBR value 1< CBR value 2, wherein the duration of on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time corresponding to CBR value 1 is 200ms, and the duration of on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time corresponding to CBR value 2 is 400ms.

(2) The higher the target amount, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time and/or the longer the off duration, RTT Time or inactivity Time.

For example, the higher the CBR or CR, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the longer the off duration, RTT Time or deactivation Time; conversely, the lower the CBR or CR, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the shorter the off duration, RTT Time or deactivation Time.

For example, the higher the CBR or CR, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the shorter the off duration, RTT Time or deactivation Time; conversely, the lower the CBR or CR, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the longer the off duration, RTT Time or deactivation Time.

In some embodiments, the second configuration corresponding to the quantized value corresponding to the value of the different target amount or to the range to which the value of the different target amount belongs or to which the value of the different target amount corresponds, satisfies at least one of the following requirements:

(1) The higher the target amount, the longer the detection time and/or the longer the selection time (e.g., the greater the number of time units involved) and/or the more the detection time and/or the more the selection time (e.g., the more bits (bits) of an indication 1 in a bitmap (bitmap));

(2) The lower the target amount, the shorter the detection time and/or the shorter the selection time and/or the less the detection time and/or the less the selection time (e.g., the fewer bits indicated as 1 in the bitmap).

For example, the higher the CBR or CR, the longer the detection time and/or selection time, and/or the more the selection time and/or detection time; conversely, the lower the CBR or CR, the shorter the detection time and/or selection time, and/or the less the selection time and/or detection time.

For another example, the higher the CBR or CR, the longer the detection time and/or selection time, and/or the more the selection time and/or detection time; conversely, the lower the CBR or CR, the shorter the detection time and/or selection time, and/or the less the selection time and/or detection time.

In some embodiments, the second configuration corresponding to the quantized value corresponding to the value of the different target amount or to the range to which the value of the different target amount belongs or to which the value of the different target amount corresponds, satisfies at least one of the following requirements:

(1) The lower the target amount, the longer the detection time and/or the longer the selection time and/or the more the detection time and/or the more the selection time;

(2) The higher the target amount, the shorter the detection time and/or the shorter the selection time and/or the less the detection time and/or the less the selection time.

For example, the higher the CBR or CR, the shorter the detection time and/or selection time, and/or the less the selection time and/or detection time; conversely, the lower the CBR or CR, the longer the detection time and/or selection time, and/or the more the selection time and/or detection time.

For another example, the higher the CBR or CR, the longer the detection time and/or selection time, and/or the more the selection time and/or detection time; conversely, the lower the CBR or CR, the shorter the detection time and/or selection time, and/or the less the selection time and/or detection time.

Optionally, the target amount of values of different priorities or the quantized values corresponding to the target amount of values of the range or the target amount to which the target amount of values belong correspond to the same or different first configuration and/or second configuration. For example, the value of the target amount of priority 1 corresponds to the first configuration 1, and the value of the target amount of priority 2 corresponds to the first configuration 2.

It should be noted that, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time in the first configuration, the longer the selection time and the longer the detection time in the second configuration may be the following two explanations:

(1) "longer" may be interpreted as longer time, i.e. "longer" means that the corresponding time period is longer, e.g. more time units are involved;

Referring to fig. 3, the measured CBR 1/2/3 belongs to CBR range1/2/3 and corresponds to SL DRX configuration 1/2/3, respectively, and if resources are to be selected for primary transmission of one TB, resources can only be selected in three on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or overlapping portions of activation time. The receiving end can detect at the detection time of the overlapping portion.

Alternatively, if resources are to be selected for retransmission of one TB, then they may be selected within on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time of the corresponding SL DRX configuration. The receiving end can detect in the detection time of the overlapped part and the non-overlapped part.

One assumption in FIG. 3 is that CBR range1< CBR range2< CBR range3, such that the on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or active time of DRX1 is no longer than the active time of DRX2, on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or active time of DRX2 is no longer than on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or active time of DRX 3.

For example, on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time of DRX1 contains 1 time unit T, on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time of DRX2 contains 1.5 time units, i.e. 1.5T, on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time of DRX3 contains 2 time units, i.e. 2T, one time unit is T symbols, mini-slot, slot, ms, frame or cycles, and T is a positive integer.

(2) The "longer" may be interpreted as additional time or extended time:

That is, a new, additional, dynamic, sub or extended activation time (or selection time or detection time) is extended, extended or triggered forward or backward based on the existing activation time (or selection time or detection time).

Referring to fig. 4, when the resource occupancy rate is low or the collision probability is low, resource selection/reselection is performed in the selection time based on the sensing result in the detection time 1/2/3.

Referring to fig. 5, when the resource occupancy rate is higher or the collision probability is higher, an additional detection time is further expanded before the detection time 1/2/3, and resource selection/reselection is performed in the selection time based on the detection time 1/2/3 and the sending result in the additional detection time in the figure. The advantage of this scheme is that the selection time is not increased, but the detection time is dynamically adjusted according to the channel condition/resource usage, so that collisions can be better avoided.

In the embodiment of the application, the more idle resources are, the more free the user selects the resources, and the frequent sending and receiving SCI are not needed to judge whether the resource conflict occurs, so that when the idle resources are more, the configuration with short activation time can be used, and the configuration with short sending time is needed. In contrast, the user selects a configuration that is easy to collide with, requires a long activation time, and requires a long sending time.

In some embodiments, the activation times of the first configuration corresponding to the quantized values corresponding to the different target amounts or ranges to which the different target amounts or values belong at least partially overlap.

In some embodiments, the starting time points of the activation times of the first configurations corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

In some embodiments, for a Transport Block (TB) or a primary transmission of a media access control protocol data unit (MEDIA ACCESS Control Protocol Data Unit, MAC PDU) or data or packet, detection, resource selection or resource reselection is performed during the activation time of the overlap portion;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, detection, resource selection or resource reselection is performed during the activation time of the overlapping and non-overlapping portions.

In some embodiments, the selection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong at least partially overlap.

In some embodiments, the starting time points of the selection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

In some embodiments, for initial transmission of a TB or MAC PDU or data or packet, resource selection or resource reselection is performed during the selection time of the overlap portion;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, resource selection or resource reselection is performed in the selection time of the overlapping portion and the non-overlapping portion.

In some embodiments, the detection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong at least partially overlap.

In some embodiments, the starting time points of the detection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

In some embodiments, for initial transmission of a TB or MAC PDU or data or packet, detection is performed during the detection time of the overlap;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, detection is performed in detection time of the overlapped part and the non-overlapped part.

In the embodiment of the application, the initial transmission on the overlapped resource can ensure that users with different first configurations can hear each other, and simultaneously, the retransmission is allowed to occur in the non-overlapped part, so that the phenomenon that all the transmissions are squeezed in the same resource set to cause too high collision probability can be avoided.

For the selection time, a larger selection time window is needed to avoid collisions because the load is high. For the detection time, the collision probability is low at low load, so that fewer detections are made, and the low collision rate and energy conservation can be maintained. The collision probability is high under high load, and the collision probability can be reduced by more detection.

In some embodiments, the one or more target amounts of values or the range to which the one or more target amounts of values belong or the quantized value corresponding to the one or more target amounts of values correspond to one or more of the first configuration of constraint information and/or the second configuration of constraint information.

In some embodiments, the method further comprises:

and determining corresponding limitation information of the first configuration and/or limitation information of the second configuration according to the target amount value or the range to which the target amount value belongs or the quantized value corresponding to the target amount value.

Further optionally, the determined first configuration has to satisfy the constraint information of the first configuration and/or the determined second configuration has to satisfy the constraint information of the second configuration.

In some embodiments, the first configured constraint information includes one or more of:

(1) An offset of the activation time;

(2) The maximum duration of the activation time;

(3) The shortest duration of the activation time;

(4) Offset of the deactivation time;

(5) Maximum duration of the deactivation time;

(6) The shortest duration of the deactivation time.

In some embodiments, the second configured limit information includes one or more of:

(1) The maximum number of detection times;

(2) Detecting the minimum number of times;

(3) Detecting the maximum duration of the time;

(4) Detecting the shortest duration of the time;

(5) Detecting the offset of time;

(6) Selecting the maximum number of times;

(7) Selecting the minimum number of times;

(8) Selecting the maximum duration of the time;

(9) Selecting the shortest duration of the time;

(10) Selecting the offset of the time;

(11) Detecting a step size between times;

(12) Detecting the maximum step length between times;

(13) Detecting the minimum step length between the times;

(14) The maximum step length between the detection time and the selection time;

(15) The minimum step between the detection time and the selection time.

Alternatively, the first information may be sent by at least one of a base station, a Road Side Unit (RSU), and other users (e.g., at least one of a scheduling user, a receiving end user, a transmitting end user, etc.).

Optionally, when the measured quantity of at least one of the base station, the RSU and the other users meets the preset requirement, at least one of the base station, the RSU and the other users sends the first information.

For example, the first information is a handover indication information indicating that the terminal is handed over to the first configuration and/or the second configuration (within a next predetermined time).

In some embodiments, the performing a first operation on the first configuration and/or the second configuration according to the plurality of first information includes one of:

(1) Performing a first operation on a first configuration with the longest or shortest activation time;

(2) Performing a first operation on a first configuration with the longest or shortest inactive time;

(3) Performing a first operation on a first configuration with the longest or shortest period;

(4) Performing a first operation on a second configuration with the longest or shortest detection time;

(5) Performing a first operation on the second configuration with the longest or shortest detection time

(6) Performing a first operation on a second configuration with the largest or smallest detection time number;

(7) Performing a first operation on the second configuration with the longest or shortest selection time;

(8) The first operation is performed on the second configuration with the largest or smallest selection time.

In some embodiments, the target amount comprises one of:

(1) The target amount obtained by the terminal;

(2) The target quantity of other terminals received by the terminal;

(3) The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

(4) The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

(5) A weighted sum of the maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

for example, a is the self-measured value+b is the maximum value received;

(6) The sum of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

(7) The average value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

(8) And the terminal obtains a weighted sum of the target quantity and the target quantity of other terminals received by the terminal.

In an embodiment of the present application, the calculated amount includes at least one of:

The calculated amount obtained by the terminal calculation;

the calculated amount of other terminals received by the terminal;

the maximum value or the minimum value in the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

The sum of the maximum value or the minimum value in the calculated amount of the terminal and the calculated amount of other terminals received by the terminal;

The terminal calculates the calculated amount and the maximum value or the minimum value in the calculated amounts of other terminals received by the terminal;

the sum of the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

the average value of the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

And the terminal calculates the weighted sum of the calculated amount and the calculated amount of other terminals received by the terminal.

The maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

the sum of the maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

A weighted sum of the maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

the sum of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

the average value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

And the weighted sum of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal.

In an embodiment of the application, the measurement quantity comprises at least one of the following:

The measurement quantity obtained by the terminal;

and the measurement quantity received by the terminal.

In the embodiment of the application, the activation time, the detection time and/or the selection time can be adapted to the busy rate, the occupancy rate, the service characteristics and the like of the channel, so that the transmission of the terminal can be adapted to the requirements of the current service or the system.

The following description will take a first configuration as SL DRX configuration, a second configuration as PARTIAL SENSING configuration, a detection time as a selection window as an example.

Determining an SL DRX configuration and/or PARTIAL SENSING configuration, comprising at least one of:

(1) Enabling, activating or determining the used SL DRX configuration and/or PARTIAL SENSING configuration by the terminal according to the target quantity;

(2) The terminal de-enables, de-activates or releases the used SL DRX configuration and/or PARTIAL SENSING configuration according to the target amount;

(3) Acquiring first indication information, wherein the indication information indicates enabling, activating or determining used SL DRX configuration;

(4) Acquiring second indication information, wherein the indication information indicates PARTIAL SENSING configurations for disabling, deactivating or releasing the use;

(5) Acquiring third indication information, wherein the indication information indicates PARTIAL SENSING configurations used for enabling, activating or determining;

(6) Fourth indication information is obtained indicating PARTIAL SENSING configurations to disable, deactivate, or release the use.

Optionally, the first indication information, the second indication information, the third indication information, and/or the fourth indication information may be sent by at least one of a base station, an RSU, and other users (e.g., at least one of a scheduling user, a receiving end user, etc.).

Optionally, when the measured quantity of at least one of the base station, the RSU and other users meets the preset requirement, the base station, the RSU and the at least one of the other users send the first indication information, the second indication information, the third indication information and/or the fourth indication information.

Optionally, when the terminal receives the plurality of first indication information, one of the following is performed:

(1) The terminal determines to enable, activate or use the SL DRX configuration as the one on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or the configuration with the longest or shortest activation time of the SL DRX configurations indicated by the received first indication information.

(2) And the terminal determines to enable, activate or use the SL DRX configuration to be the configuration with the longest or shortest off duration, RTT Time or non-activation Time in the SL DRX configuration indicated by the received first indication information.

(3) The terminal determines to enable, activate or use the SL DRX configuration as the configuration with the longest or shortest cycle among the SL DRX configurations indicated by the received first indication information.

Optionally, when the terminal receives the plurality of second indication information, one of the following is performed:

(1) The terminal determines that the SL DRX configuration for disabling, deactivating or releasing use is the one of on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or the configuration with the longest or shortest activation time among the SL DRX configurations indicated by the received second indication information.

(2) And the terminal determines that the SL DRX configuration used for deactivation, deactivation or release is the configuration with the longest or shortest off duration, RTT Time or non-activation Time in the SL DRX configuration indicated by the received second indication information.

(3) The terminal determines to enable, activate or determine that the used SL DRX configuration is the configuration with the longest or shortest cycle among the SL DRX configurations indicated by the received second indication information.

Optionally, when the terminal receives the plurality of third indication information, one of the following is performed:

(1) The terminal determines PARTIAL SENSING for enabling, activating or determining to use is the longest or shortest configuration of the sending windows in PARTIAL SENSING configurations indicated by the received third indication information;

(2) The terminal determines that PARTIAL SENSING for enabling, activating or determining use is configured as PARTIAL SENSING configuration sending window with the largest or smallest number indicated by the received third indication information;

(3) The terminal determines PARTIAL SENSING that enables, activates or determines to use the longest or shortest configuration of the selection windows in the PARTIAL SENSING configurations indicated by the received third indication information.

Optionally, when the terminal receives the plurality of fourth indication information, performing one of the following operations:

(1) The terminal determines PARTIAL SENSING configuration for enabling, deactivating or releasing use to be the longest or shortest configuration of selection windows in PARTIAL SENSING configuration indicated by the received fourth indication information;

(2) The terminal determines PARTIAL SENSING configurations for enabling, deactivating or releasing to be configured with the largest or smallest number of selection windows in PARTIAL SENSING configurations indicated by the received fourth indication information;

(3) The terminal determines PARTIAL SENSING configuration for disabling, deactivating or releasing use as the longest or shortest configuration partial sensingwindow in PARTIAL SENSING configuration indicated by the received fourth indication information.

Alternatively, the target amount may be CBR, CR and/or other target amounts, such as occupancy (of the system, carrier, BWP, resource pool, user and/or connection group), occupancy, blocking amount, idle rate, idle amount, number of transmission successes, number of transmission failures, number of DTX, DTX rate, number of missed detection, number of false detection, number of retransmission, retransmission rate, etc.

It will be appreciated that the feedback corresponding to multiple transmissions of one TB is NACK, which may indicate that the system is relatively congested and requires a relatively long activation time (the benefit is that CBR is not measured, etc., but only determined according to the reception situation; and the worst case is that it is difficult to unify the UE's behaviour unless the UE is explicitly informed to switch windows together by broadcast signalling, etc.).

Optionally, the one or more target values or range of the one or more target values correspond to one or more SL DRX configurations and/or PARTIAL SENSING configurations.

Further optionally, the terminal determines the corresponding SL DRX configuration and/or PARTIAL SENSING configuration according to the value of the target amount or according to a range to which the value of the target amount belongs or a quantized value corresponding to the value of the target amount.

CBR range is a range of CBR values and CR range is a range of CR range.

For example, one or more CBR values or one or more CBR ranges or quantized values corresponding to one or more CBR values, correspond to one or more SL DRX configurations and/or PARTIAL SENSING configurations.

Further optionally, the terminal determines a corresponding SL DRX configuration and/or PARTIAL SENSING configuration according to the measured CBR value or according to a range to which the measured CBR value belongs or a quantized value corresponding to the CBR value.

For example, one or more CR values or one or more CR ranges or quantized values corresponding to one or more CR values, corresponding to one or more SL DRX configurations and/or PARTIAL SENSING configurations.

Further optionally, the terminal determines a corresponding SL DRX configuration and/or PARTIAL SENSING configuration according to the measured CR or according to the range to which the measured CR belongs.

Optionally, the one or more target values or range of one or more target values or quantized values corresponding to CR values correspond to one or more SL DRX configuration limits and/or PARTIAL SENSING configuration limits.

Further optionally, the terminal determines a corresponding SL DRX configuration limit and/or PARTIAL SENSING configuration limit according to the value of the target amount or according to a range to which the value of the target amount belongs or a quantized value corresponding to the value of the target amount.

Further optionally, the terminal-determined SL DRX configuration and/or PARTIAL SENSING configuration cannot not meet this limitation.

Optionally, the SL DRX configuration limit comprises at least one of:

on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or offsets and/or maximum and/or minimum durations of activation times;

off duration, RTT Time, or offset of inactive Time, and/or maximum duration and/or minimum duration.

Optionally, PARTIAL SENSING the configuration limits comprise at least one of:

(1) At least one of the sending window and the selecting window: maximum number, minimum number, maximum duration, minimum duration, and/or offset.

(2) Maximum step size and/or minimum step size between sending windows;

(3) The maximum step size and/or the minimum step size (i.e., period) of the sending window and the selecting window.

Optionally, the terminal enables, activates or determines the used SL DRX configuration (or replaces the SL DRX configuration with the shorter activation time duration), or the terminal disables, deactivates or releases the used SL DRX configuration (or replaces the SL DRX configuration with the longer activation time duration).

Optionally, the terminal acquires first indication information and/or second indication information, where the first indication information indicates that the user enables, activates or determines the used SL DRX configuration, and the second indication information indicates that the user disables, deactivates or releases the used SL DRX configuration.

Optionally, when the value of the terminal target amount meets a first requirement, the terminal enables, activates or determines the SL DRX configuration used, the first requirement being:

The value of the target amount is lower than the first threshold value and/or lower than the second threshold value-delta 1 and/or lower than the third threshold value +delta2.

Optionally, the target amount is at least one of (system, carrier, BWP, resource pool, user, connection and/or group) idle rate, idle amount, number of transmission successes, transmission success rate, and the like.

Optionally, when the value of the terminal target amount meets a second requirement, the terminal disables, deactivates or releases the used SL DRX configuration, the second requirement being:

The value of the target amount is higher than the fourth threshold value and/or higher than the fifth threshold value-delta 3 and/or higher than the sixth threshold value + delta4.

Optionally, the target amount is at least one of CBR, CR, occupancy of (system, carrier, BWP, resource pool, user, connection, and/or group), occupancy, blocking rate, blocking amount, transmission failure number, transmission failure rate, DTX number, DTX rate, missed detection number, missed detection rate, retransmission number, retransmission rate, and the like.

Optionally, the terminal enables, activates or determines the used PARTIAL SENSING configuration (or alternatively the sending and/or selecting window duration is shorter and/or the PARTIAL SENSING configuration) or the terminal disables, deactivates or releases the used PARTIAL SENSING configuration (or alternatively the sending and/or selecting window duration is longer and/or the PARTIAL SENSING configuration) e.g. the terminal employs a random selection mechanism.

Optionally, the terminal obtains third indication information and/or fourth indication information, where the third indication information indicates that the terminal enables, activates or determines the used PARTIAL SENSING configuration, or the fourth indication information indicates that the terminal disables, deactivates or releases the used PARTIAL SENSING configuration.

Optionally, the terminal enables, activates or determines the PARTIAL SENSING configuration to be used when the value of the terminal target quantity meets a third requirement:

the value of the target amount is lower than the seventh threshold value and/or lower than the eighth threshold value-delta 5 and/or lower than the ninth threshold value +delta6.

Wherein, the target amount is the idle rate (system, carrier wave, BWP, resource pool, user, connection and/or group), the idle amount, the successful times of transmission and the successful rate of transmission.

Optionally, the terminal deactivates, deactivates or releases the PARTIAL SENSING configurations used when the value of the terminal target quantity meets a fourth requirement:

The value of the measured quantity is higher than a tenth threshold value and/or higher than an eleventh threshold value-delta 7 and/or lower than a twelfth threshold value +delta8.

Optionally, the target amount is at least one of CBR, CR, occupancy of (system, carrier, BWP, resource pool, user, connection, and/or group), occupancy, blocking rate, blocking amount, transmission failure number, transmission failure rate, DTX number, DTX rate, missed detection number, missed detection rate, retransmission number, retransmission rate, and the like.

Optionally, at this time, the terminal performs resource selection by adopting a random selection manner.

Optionally, any user sends its target amount.

Optionally, the target amount is transmitted after any target amount meets a preset requirement (e.g., greater than or less than a certain threshold).

Optionally, monitoring indication information is obtained, where the information is used to indicate that the user monitors or does not monitor at the activation time (of the next N DRX) and/or indicates (some M) PARTIAL SENSING windows.

Optionally, when the target quantity of at least one of the base station, the RSU and other users meets the preset requirement, at least one of the base station, the RSU and other users sends monitoring indication information.

The target amount (measured or received by itself) that affects SL DRX configuration and/or PARTIAL SENSING configuration described above) is one of:

(1) A target amount obtained by the terminal;

(2) Target amounts of other users received by the terminal;

(3) The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other received terminals;

(4) The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other received terminals;

(5) A weighted sum of the maximum value or the minimum value in the target quantity obtained by the terminal and the target quantity of other received users;

for example, a is self-measured + B is the maximum received

(6) The sum of the target quantity obtained by the terminal and the target quantity of other received users;

(7) The average value of the target quantity obtained by the terminal and the target quantity of other received users;

(8) The terminal obtains a weighted sum of the target quantity and the target quantity of other received users.

In an embodiment of the present application, the calculated amount includes at least one of:

(1) The calculated amount obtained by the terminal calculation;

(2) The calculated amount received by the terminal;

(3) The maximum value or the minimum value in the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

(4) The sum of the maximum value or the minimum value in the calculated amount of the terminal and the calculated amount of other terminals received by the terminal;

(5) The terminal calculates the calculated amount and the maximum value or the minimum value in the calculated amounts of other terminals received by the terminal;

(6) The sum of the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

(7) The average value of the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

(8) And the terminal calculates the weighted sum of the calculated amount and the calculated amount of other terminals received by the terminal.

(9) The maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

(10) The sum of the maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

(11) A weighted sum of the maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

(12) The sum of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

(13) The average value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

(14) And the weighted sum of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal.

In an embodiment of the application, the measurement quantity comprises at least one of the following:

(1) The measurement quantity obtained by the terminal;

(2) And the measurement quantity received by the terminal.

It will be appreciated that in embodiments of the present application, dynamic decisions on whether to use DRX and PARITAL SENSING, and selection of appropriate DRX and PARITAL SENSING configurations, are allowed by the target volume.

And the relation and/or limitation between SL DRX configurations and/or PARTIAL SENSING configurations corresponding to different target quantity values or quantized values corresponding to target quantity values.

Optionally, the corresponding on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time of the SL DRX configuration for the value range of the different target amount or the value range of the different target amount is a nested (overlapping or containing) relationship, and/or the duration of on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time is a multiple relationship.

Optionally, the sending windows configured by PARTIAL SENSING corresponding to the values of the different target amounts or the values range of the different target amounts or the quantized values corresponding to the values of the target amounts are in a nested (containing) relationship, and/or the duration of the sending windows is in a multiple relationship.

Optionally, the selection windows configured by PARTIAL SENSING corresponding to the values of the different target amounts or the values range of the different target amounts or the quantized values corresponding to the values of the target amounts are in a nested (overlapping or containing) relationship, and/or the duration of the selection windows is in a multiple relationship.

For example, small CBR: CBR: the above length=t for large CBR: 2T:4T.

Optionally, the SL DRX configuration of the different target amount values or the quantized values corresponding to the different target amount values range or target amount values meets one of the following requirements:

(1) The higher the target amount, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or the activation Time (e.g., the greater the number of Time units involved), and/or the shorter the off duration, RTT Time, or inactivity Time (e.g., the smaller the number of Time units involved); conversely, the lower the target amount, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time (e.g., the smaller the number of Time units involved), and/or the longer the off duration, RTT Time, or inactivity Time (e.g., the larger the number of Time units involved).

Or the higher the target amount, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the longer the off duration, RTT Time or inactivity Time; conversely, the lower the target amount, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the shorter the off duration, RTT Time or inactivity Time.

Optionally, the target amount is at least one of CBR, CR, occupancy of (system, carrier, BWP, resource pool, user, connection, and/or group), occupancy, blocking rate, blocking amount, transmission failure number, transmission failure rate, DTX number, DTX rate, missed detection number, missed detection rate, retransmission number, retransmission rate, and the like.

(2) The lower the target amount, the longer the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or the activation Time (e.g., the greater the number of Time units involved), and/or the shorter the off duration, RTT Time, or inactivity Time (e.g., the smaller the number of Time units involved); conversely, the higher the target amount, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time (e.g., the smaller the number of Time units involved), and/or the longer the off duration, RTT Time, or inactivity Time (e.g., the larger the number of Time units involved).

Or the lower the target amount, the shorter the on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation Time, and/or the longer the off duration, RTT Time or inactivity Time; conversely, the higher the target amount, the longer on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer, or activation Time, and/or the shorter the off duration, RTT Time, or inactivity Time.

Optionally, the target amount is at least one of (system, carrier, BWP, resource pool, user, connection and/or group) idle rate, idle amount, number of transmission successes, transmission success rate, and the like.

Alternatively, one time unit is T symbols, mini-slot, slot, ms, frame or periods

Optionally, the PARTIAL SENSING configuration of quantized values corresponding to the value of the different target amount or the value range of the different target amount or the value of the target amount satisfies one of the following requirements:

(1) The higher the target amount, the longer the selection window and/or the selection window (e.g., the greater the number of time units involved), and/or the more the selection window and/or the selection window (e.g., the more bits indicated as 1 in bitmap); conversely, the lower the target amount, the shorter the sending window and/or the selection window (e.g., the smaller the number of time units involved), and/or the fewer the sending window and/or the selection window (e.g., the fewer bits indicated as 1 in the bitmap).

Or the higher the target amount, the shorter the selection window and/or the selection window, and/or the fewer the selection window and/or the selection window; conversely, the lower the target amount, the longer the sending and/or selecting windows, and/or the more the sending and/or selecting windows. Optionally, the target amount is at least one of CBR, CR, occupancy of (system, carrier, BWP, resource pool, user, connection, and/or group), occupancy, blocking rate, blocking amount, transmission failure number, transmission failure rate, DTX number, DTX rate, missed detection number, missed detection rate, retransmission number, retransmission rate, and the like.

(2) The lower the target amount, the longer the sending window and/or the selection window (e.g., the greater the number of time units involved), and/or the more the sending window and/or the selection window (e.g., the more bits indicated as 1 in bitmap); conversely, the higher the target amount, the shorter the sending window and/or the selection window (e.g., the smaller the number of time units involved), and/or the fewer the sending window and/or the selection window (e.g., the fewer bits indicated as 1 in the bitmap).

Or the lower the target amount, the shorter the sending window and/or the selecting window, and/or the fewer the sending window and/or the selecting window; conversely, the higher the target amount, the longer the sending and/or selecting windows, and/or the more the sending and/or selecting windows.

Optionally, the target amount is at least one of (system, carrier, BWP, resource pool, user, connection and/or group) idle rate, idle amount, number of transmission successes, transmission success rate, and the like.

Optionally, the above-described relationships and/or limitations are defined for different priorities. For example, for priority 1, there is a relationship 1 and/or a constraint 1, and for priority 2, there is a relationship 2 and/or a constraint 2.

It can be appreciated that the more idle resources, the more free the user selects resources, and the more frequently the sending and receiving SCIs are not required to determine whether resource conflict occurs, so when there are more idle resources, DRX with short activation time can be used, and configuration with short sending time is required. In contrast, the user selects the DRX with a long activation time, which is easy to collide with, and requires a long sending time.

Optionally, the SL DRX configuration of the quantized value corresponding to the value of the different target amount or the value range of the different target amount or the value of the target amount satisfies:

the activation times of the SL DRX configuration at least partially overlap, e.g., on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer, or the activation times are inclusion relationships.

Optionally, the start of the SL DRX configuration on DurationTimer, DRX-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time is aligned.

Optionally, the primary transmission related operation can only be performed in the overlapping part, e.g. sending, resource selection or reselection for primary transmission of one TB, PDU, data, packet.

Alternatively, retransmission related operations may be performed in overlapping and non-overlapping portions, with sending, resource selection, or reselection for retransmission of one TB, PDU, data, or packet.

Optionally, the PARTIAL SENSING configuration of the value of the different target quantity or the value range of the different target quantity satisfies: PARTIAL SENSING configured selection windows overlap at least partially, e.g., selection windows are inclusion relationships.

Optionally, the starting points of these PARTIAL SENSING configured selection windows are aligned.

Optionally, the primary transmission related operation can only be performed in the overlapping part, e.g. for a primary transmission of a TB, PDU, data or packet, for resource selection or reselection.

Alternatively, the retransmission related operations may be performed in overlapping and non-overlapping portions, with resource selection or reselection for retransmission of one TB, PDU, data or packet.

PARTIAL SENSING configured sending windows overlap at least partially, e.g., sending windows are containment relationships.

Optionally, the start points of the selection windows of PARTIAL SENSING configurations are aligned.

Alternatively, the primary related operations can only be performed in overlapping parts, e.g. send for primary transmission of one TB, PDU, data or packet.

Alternatively, the retransmission related operations may be performed in overlapping and non-overlapping portions, sending for retransmission of one TB, PDU, data or packet.

Alternatively, the longer the above on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer, or activation time, the longer the sending window and/or the selection window may be explained in the following two.

1. The duration is longer than the corresponding durations of other SL DRX configurations and/or PARTIAL SENSING configurations, e.g., including more time units

2. A new, additional, dynamic, child or/and extended on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time, sensing window and/or selection window is extended, extended or triggered forward or backward based on the existing on DurationTimer, drx-INACTIVITYTIMER, DRX-RetransmissionTimer or activation time, see fig. 4.

It will be appreciated that the initial transmission on overlapping resources ensures that users using different DRX's can hear each other, while allowing retransmissions to occur in non-overlapping portions avoids that all transmissions are crowded within the same set of resources resulting in an excessively high collision probability.

It will be appreciated that a selection window requires a larger selection window to avoid collisions because the load is high. For the sending window, the collision probability is low under low load, so that fewer sending can be performed, and the low collision rate and energy conservation can be maintained. The collision probability is high under high load, and the collision probability can be reduced by doing more sending.

In the embodiment of the application, SL DRX and/or PARTIAL SENSING can adapt to the busy rate and/or the occupancy rate and/or the service characteristic of the channel, so that the transmission of the terminal can adapt to the current service or the requirement of the system.

Referring to fig. 6, an embodiment of the present application provides a processing apparatus, applied to a terminal, where the apparatus 600 includes:

A processing module 601, configured to perform a first operation on a first configuration and/or a second configuration according to a target amount and/or one or more acquired first information, where the first configuration includes an activation time and/or a deactivation time; the second configuration includes: detecting time and/or selecting time;

The first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation.

In an embodiment of the present application, the target amount includes one or more of the following: measuring a quantity; calculation results of the measurement quantity; a priority; a period; time delay requirements.

In an embodiment of the present application, the processing module 601 is further configured to: performing a first operation on the first configuration and/or the second configuration if the value of the target amount satisfies a first condition;

wherein the first condition comprises one or more of the following in combination:

the value of the target amount is lower or higher than a first threshold value;

The value of the target amount is lower or higher than the difference between the second threshold value and the first value;

the target amount has a value lower or higher than the sum of the third threshold value and the second value.

In an embodiment of the present application, the processing module 601 is further configured to: and performing a first operation on the first configuration and/or the second configuration according to the value of the target quantity or the range of the value of the target quantity or the quantized value corresponding to the value of the target quantity.

In the embodiment of the present application, the value of the target amount corresponds to the first configuration and/or the second configuration, or the range to which the value of the target amount belongs corresponds to the first configuration and/or the second configuration, or the quantized value of the target amount corresponds to the first configuration and/or the second configuration, that is, one or more target amounts or the range to which the value of the one or more target amounts belongs or the quantized value corresponding to the value of the one or more target amounts corresponds to one or more of the first configuration and/or the second configuration.

The first activation time and the second activation time satisfy at least one of the following relationships: the first activation time and the second activation time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first activation time to the duration of the second activation time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first activation time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second activation time;

And/or the number of the groups of groups,

The first detection time and the second detection time satisfy at least one of the following relationships: the first detection time and the second detection time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first detection time to the duration of the second detection time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first detection time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second detection time;

And/or the number of the groups of groups,

The first selection time and the second selection time satisfy at least one of the following relationships: the first selection time and the second selection time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first selection time to the duration of the second selection time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first selection time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second selection time.

In the embodiment of the present application, the activation time is a containment relationship or an overlapping relationship corresponding to the value of the different target amounts or the range to which the value of the different target amounts belongs or the quantized value corresponding to the value of the different target amounts;

And/or the number of the groups of groups,

The values of different target amounts or the ranges of the values of different target amounts or the quantized values corresponding to the values of different target amounts, the ratio of the duration of the corresponding activation time is an integer;

And/or the number of the groups of groups,

The detection time is a containing relation or an overlapping relation corresponding to the value of the different target amounts or the range of the value of the different target amounts or the quantized value corresponding to the value of the different target amounts;

the values of different target amounts or the ranges of the values of different target amounts or the quantized values corresponding to the values of different target amounts, and the ratio of the duration corresponding to the detection time is an integer;

And/or the number of the groups of groups,

The value of the different target amount or the range of the value of the different target amount or the quantized value corresponding to the value of the different target amount corresponds to the selection time as the inclusion relationship or the overlapping relationship;

And/or the number of the groups of groups,

The ratio of the time length corresponding to the selection time is an integer.

In the embodiment of the present application, the values of the different target amounts or the ranges to which the values of the different target amounts belong or the first configurations corresponding to the quantized values corresponding to the values of the different target amounts satisfy at least one of the following requirements:

the higher the target amount, the longer the activation time and/or the shorter the deactivation time;

the lower the target amount, the shorter the activation time and/or the longer the deactivation time.

In the embodiment of the present application, the values of the different target amounts or the ranges to which the values of the different target amounts belong or the first configurations corresponding to the quantized values corresponding to the values of the different target amounts satisfy at least one of the following requirements:

The lower the target amount, the longer the activation time and/or the shorter the deactivation time;

the higher the target amount, the shorter the activation time and/or the longer the deactivation time.

In the embodiment of the present application, the second configuration corresponding to the quantized value corresponding to the value of the different target amount or the range to which the value of the different target amount belongs or the value of the different target amount satisfies at least one of the following requirements:

The higher the target amount, the longer the detection time and/or the longer the selection time and/or the more the detection time and/or the more the selection time;

The lower the target amount, the shorter the detection time and/or the shorter the selection time and/or the less the detection time and/or the less the selection time.

In the embodiment of the present application, the second configuration corresponding to the quantized value corresponding to the value of the different target amount or the range to which the value of the different target amount belongs or the value of the different target amount satisfies at least one of the following requirements:

The lower the target amount, the longer the detection time and/or the longer the selection time and/or the more the detection time and/or the more the selection time;

the higher the target amount, the shorter the detection time and/or the shorter the selection time and/or the less the detection time and/or the less the selection time.

Optionally, the target amount of values of different priorities or the quantized values corresponding to the target amount of values of the range or the target amount to which the target amount of values belong correspond to the same or different first configuration and/or second configuration.

In the embodiment of the present application, the activation times of the first configurations corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong at least partially overlap.

In the embodiment of the present application, the starting time points of the activation times of the first configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

In the embodiment of the application, for the primary transmission of a TB or MAC PDU or data or packet, detection, resource selection or resource reselection is carried out in the activation time of the overlapped part;

in the embodiment of the application, for retransmission of one TB or MAC PDU or data or packet, detection, resource selection or resource reselection is performed in the activation time of the overlapped part and the non-overlapped part.

In the embodiment of the present application, the selection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong at least partially overlap.

In the embodiment of the present application, the starting time points of the selection time of the second configuration corresponding to the quantized value corresponding to the value of the different target amount or the range to which the value of the different target amount belongs are the same.

In the embodiment of the application, when a TB or MAC PDU or data or packet is initially transmitted, resource selection or resource reselection is carried out in the selection time of the overlapped part;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, resource selection or resource reselection is performed in the selection time of the overlapping portion and the non-overlapping portion.

In the embodiment of the present application, the detection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong at least partially overlap.

In the embodiment of the present application, the starting time points of the detection times of the second configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

In the embodiment of the application, for the primary transmission of a TB or MAC PDU or data or packet, detection is performed in the detection time of the overlapped part;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, detection is performed in detection time of the overlapped part and the non-overlapped part.

In the embodiment of the present application, one or more target values or a range to which one or more target values belong or quantized values corresponding to one or more target values correspond to one or more constraint information of the first configuration and/or constraint information of the second configuration.

In an embodiment of the present application, the apparatus 600 further includes:

And the determining module is used for determining corresponding limitation information of the first configuration and/or limitation information of the second configuration according to the target amount value or the range to which the target amount value belongs or the quantized value corresponding to the target amount value.

Further optionally, the determined first configuration has to satisfy the constraint information of the first configuration and/or the determined second configuration has to satisfy the constraint information of the second configuration.

In an embodiment of the present application, the limitation information of the first configuration includes one or more of the following: an offset of the activation time; the maximum duration of the activation time; the shortest duration of the activation time; offset of the deactivation time; maximum duration of the deactivation time; the shortest duration of the deactivation time.

In an embodiment of the present application, the constraint information of the second configuration includes one or more of the following: the maximum number of detection times; detecting the minimum number of times; detecting the maximum duration of the time; detecting the shortest duration of the time; detecting the offset of time; selecting the maximum number of times; selecting the minimum number of times; selecting the maximum duration of the time; selecting the shortest duration of the time; selecting the offset of the time; detecting a step size between times; detecting the maximum step length between times; detecting the minimum step length between the times; the maximum step length between the detection time and the selection time; the minimum step between the detection time and the selection time.

In an embodiment of the present application, the performing, according to the plurality of first information, a first operation on the first configuration and/or the second configuration includes one of the following operations:

Performing a first operation on a first configuration with the longest or shortest activation time;

performing a first operation on a first configuration with the longest or shortest inactive time;

performing a first operation on a first configuration with the longest or shortest period;

performing a first operation on a second configuration with the longest or shortest detection time;

performing a first operation on a second configuration with the longest or shortest detection time step;

performing a first operation on a second configuration with the largest or smallest detection time number;

Performing a first operation on the second configuration with the longest or shortest selection time;

the first operation is performed on the second configuration with the largest or smallest selection time.

In an embodiment of the present application, the target amount includes one of:

the target amount obtained by the terminal;

the target quantity of other terminals received by the terminal;

The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

a weighted sum of the maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

The sum of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

The average value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

And the terminal obtains a weighted sum of the target quantity and the target quantity of other terminals received by the terminal.

In an embodiment of the present application, the calculated amount includes at least one of:

The calculated amount obtained by the terminal calculation;

the calculated amount of other terminals received by the terminal;

the maximum value or the minimum value in the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

The sum of the maximum value or the minimum value in the calculated amount of the terminal and the calculated amount of other terminals received by the terminal;

The terminal calculates the calculated amount and the maximum value or the minimum value in the calculated amounts of other terminals received by the terminal;

the sum of the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

the average value of the calculated amount obtained by the terminal and the calculated amount of other terminals received by the terminal;

And the terminal calculates the weighted sum of the calculated amount and the calculated amount of other terminals received by the terminal.

The maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

the sum of the maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

A weighted sum of the maximum value or the minimum value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

the sum of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

the average value of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal;

And the weighted sum of the measured quantity obtained by the terminal and the measured quantity of other terminals received by the terminal.

In an embodiment of the application, the measurement quantity comprises at least one of the following:

The measurement quantity obtained by the terminal;

and the measurement quantity received by the terminal.

The processing device provided by the embodiment of the present application can implement each process implemented by the method embodiment shown in fig. 2, and achieve the same technical effects, and in order to avoid repetition, a detailed description is omitted here.

Fig. 700 is a schematic diagram of a hardware structure of a terminal for implementing an embodiment of the present application.

The terminal 700 includes, but is not limited to: radio frequency unit 701, network module 702, audio output unit 703, input unit 704, sensor 705, display unit 706, user input unit 707, interface unit 708, memory 709, and processor 710.

Those skilled in the art will appreciate that the terminal 700 may further include a power source (e.g., a battery) for powering the various components, and that the power source may be logically coupled to the processor 710 via a power management system so as to perform functions such as managing charging, discharging, and power consumption via the power management system. The terminal structure shown in fig. 7 does not constitute a limitation of the terminal, and the terminal may include more or less components than shown, or may combine certain components, or may be arranged in different components, which will not be described in detail herein.

It should be appreciated that in embodiments of the present application, the input unit 704 may include a graphics processor (Graphics Processing Unit, GPU) 7041 and a microphone 7042, with the graphics processor 7041 processing image data of still pictures or video obtained by an image capturing device (e.g., a camera) in a video capturing mode or an image capturing mode. The display unit 706 may include a display panel 7061, and the display panel 7061 may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like. The user input unit 707 includes a touch panel 7071 and other input devices 7072. The touch panel 7071 is also referred to as a touch screen. The touch panel 7071 may include two parts, a touch detection device and a touch controller. Other input devices 7072 may include, but are not limited to, a physical keyboard, function keys (e.g., volume control keys, switch keys, etc.), a trackball, a mouse, a joystick, and so forth, which are not described in detail herein.

In the embodiment of the present application, after receiving downlink data from a network side device, the radio frequency unit 701 processes the downlink data with the processor 710; in addition, the uplink data is sent to the network side equipment. Typically, the radio unit 701 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like.

The memory 709 may be used to store software programs or instructions and various data. The memory 709 may mainly include a storage program or instruction area and a storage data area, wherein the storage program or instruction area may store an operating system, application programs or instructions (such as a sound playing function, an image playing function, etc.) required for at least one function, and the like. In addition, the Memory 709 may include a high-speed random access Memory, and may also include a nonvolatile Memory, wherein the nonvolatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable Programmable ROM (EPROM), an Electrically Erasable Programmable EPROM (EEPROM), or a flash Memory. Such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device.

Processor 710 may include one or more processing units; alternatively, processor 710 may integrate an application processor that primarily processes operating systems, user interfaces, and applications or instructions, etc., with a modem processor that primarily processes wireless communications, such as a baseband processor. It will be appreciated that the modem processor described above may not be integrated into the processor 710.

The terminal provided by the embodiment of the present application can implement each process implemented by the embodiment of the method shown in fig. 2, and achieve the same technical effects, and in order to avoid repetition, a detailed description is omitted here.

Embodiments of the present application also provide a program product stored in a non-volatile storage medium, the program product being executed by at least one processor to implement the steps of the method of processing as described in fig. 2.

The embodiment of the present application further provides a readable storage medium, where a program or an instruction is stored, and when the program or the instruction is executed by a processor, the program or the instruction implements each process of the embodiment of the method shown in fig. 2, and the same technical effects can be achieved, so that repetition is avoided, and no further description is given here.

Wherein the processor is a processor in the terminal described in the above embodiment. The readable storage medium includes a computer readable storage medium such as a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk or an optical disk, and the like.

The embodiment of the application further provides a chip, the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is configured to run a network side device program or instruction, so as to implement each process of the method embodiment shown in fig. 2, and achieve the same technical effect, so that repetition is avoided, and no further description is provided herein.

It should be understood that the chips referred to in the embodiments of the present application may also be referred to as system-on-chip chips, or the like.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) comprising instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present application.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are to be protected by the present application.

Claims (25)

1. A configuration method applied to a terminal, comprising:

Performing a first operation on a SL DRX configuration and/or a sending configuration according to a target amount, wherein the SL DRX configuration comprises an activation time and/or a non-activation time; the sending configuration includes: detecting time and/or selecting time;

the first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation;

the performing a first operation on the SL DRX configuration and/or the sending configuration according to the target amount includes:

Performing a first operation on the SL DRX configuration and/or the serving configuration according to the value of the target amount or a range to which the value of the target amount belongs or a quantized value corresponding to the value of the target amount;

Wherein the value of the target quantity corresponds to the SL DRX configuration and/or the sending configuration, or the range to which the value of the target quantity belongs corresponds to the SL DRX configuration and/or the sending configuration, or the quantized value of the target quantity corresponds to the SL DRX configuration and/or the sending configuration;

Wherein the target amount comprises one or more of:

Measuring a quantity;

calculating the amount;

priority of service, data, protocol data units, transport blocks or packets;

a period of traffic, data, protocol data units, transport blocks or packets;

Time delay requirements.

2. The method according to claim 1, wherein the activation time comprises a first activation time and/or a second activation time, the first activation time and the second activation time satisfying at least one of the following relations: the first activation time and the second activation time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first activation time to the duration of the second activation time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first activation time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second activation time;

And/or the number of the groups of groups,

The detection time includes: a first detection time and/or a second detection time, the first detection time and the second detection time satisfying at least one of the following relationships: the first detection time and the second detection time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first detection time to the duration of the second detection time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first detection time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second detection time;

And/or the number of the groups of groups,

The selection time includes: a first selection time and/or a second selection time, the first selection time and the second selection time satisfying at least one of the following relationships: the first selection time and the second selection time are in a containing relationship or an overlapping relationship; and the ratio of the duration of the first selection time to the duration of the second selection time is an integer; wherein the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the first selection time is different from the value of the target amount, the range to which the value of the target amount belongs, or the quantized value of the target amount corresponding to the second selection time.

3. The method according to claim 1, wherein the SL DRX configuration corresponding to the quantized value corresponding to the value of the different target amount or to the range to which the value of the different target amount belongs or to which the value of the different target amount corresponds, meets at least one of the following requirements:

the higher the target amount, the longer the activation time and/or the shorter the deactivation time;

the lower the target amount, the shorter the activation time and/or the longer the deactivation time.

4. The method according to claim 1, wherein the SL DRX configuration corresponding to the quantized value corresponding to the value of the different target amount or the range to which the value of the different target amount belongs or the value of the different target amount meets at least one of the following requirements:

The lower the target amount, the longer the activation time and/or the shorter the deactivation time;

the higher the target amount, the shorter the activation time and/or the longer the deactivation time.

5. The method of claim 1, wherein the different target amount of values or the range to which the different target amount of values belong or the quantized value corresponding to the different target amount of values corresponds to a sending configuration that satisfies at least one of the following requirements:

the higher the target amount, the longer the detection time and/or the selection time;

The higher the target amount, the more detection time and/or selection time;

The lower the target amount, the shorter the detection time and/or the selection time;

the lower the target amount, the less the detection time and/or selection time.

6. The method of claim 1, wherein the different target amount of values or the range to which the different target amount of values belong or the quantized value corresponding to the different target amount of values corresponds to a sending configuration that satisfies at least one of the following requirements:

the lower the target amount, the longer the detection time and/or the selection time;

the lower the target amount, the more detection time and/or selection time;

The higher the target amount, the shorter the detection time and/or the selection time;

The higher the target amount, the less the detection time and/or the selection time.

7. The method according to claim 1, characterized in that the target amount of values of different priorities or quantized values corresponding to the range or target amount of values to which the target amount of values belong correspond to the same or different SL DRX configuration and/or serving configuration.

8. The method according to claim 1, wherein the activation times of SL DRX configurations corresponding to quantized values corresponding to different target amounts or ranges to which the different target amounts of values belong or the different target amounts of values at least partially overlap.

9. The method according to claim 1, wherein the starting time points of the activation times of the SL DRX configurations corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

10. The method of claim 8 wherein for a transport block TB or a primary transmission of a medium access control protocol data unit MAC PDU or data or packet, detection, resource selection or resource reselection is performed during an activation time of the overlap portion;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, detection, resource selection or resource reselection is performed during the activation time of the overlapping and non-overlapping portions.

11. The method of claim 1, wherein the selection times of the sending configuration corresponding to quantized values corresponding to different target amounts of values or ranges to which the different target amounts of values belong or to which the different target amounts of values correspond at least partially overlap.

12. The method according to claim 1, wherein the starting time points of the selection times of the sending configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

13. The method of claim 11 wherein for initial transmission of a TB or MAC PDU or data or packet, resource selection or resource reselection is performed during the time of selection of the overlap portion;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, resource selection or resource reselection is performed in the selection time of the overlapping portion and the non-overlapping portion.

14. The method according to claim 1, wherein the detection times of the sensing configuration corresponding to quantized values corresponding to different target amounts or ranges to which the different target amounts belong or the different target amounts at least partially overlap.

15. The method according to claim 1, wherein the starting time points of the detection times of the sensing configuration corresponding to the quantized values corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong are the same.

16. The method of claim 14 wherein for initial transmission of a TB or MAC PDU or data or packet, detection is performed during the detection time of the overlap;

Or alternatively

For retransmission of one TB or MAC PDU or data or packet, detection is performed in detection time of the overlapped part and the non-overlapped part.

17. The method according to claim 1, wherein one or more target values or ranges to which one or more target values belong or quantized values corresponding to one or more target values correspond to one or more of the restriction information of the SL DRX configuration and/or the restriction information of the sending configuration.

18. The method according to claim 1, wherein the method further comprises:

and determining corresponding limit information of the SL DRX configuration and/or corresponding limit information of the sending configuration according to the target amount value or the range of the target amount value or the quantized value corresponding to the target amount value.

19. The method according to claim 17 or 18, wherein the restriction information of the SL DRX configuration comprises one or more of:

an offset of the activation time;

The maximum duration of the activation time;

the shortest duration of the activation time;

Offset of the deactivation time;

Maximum duration of the deactivation time;

The shortest duration of the deactivation time.

20. The method of claim 17 or 18, wherein the sending configured constraint information comprises one or more of:

The maximum number of detection times;

Detecting the minimum number of times;

Detecting the maximum duration of the time;

detecting the shortest duration of the time;

Detecting the offset of time;

Selecting the maximum number of times;

Selecting the minimum number of times;

Selecting the maximum duration of the time;

selecting the shortest duration of the time;

selecting the offset of the time;

detecting a step size between times;

Detecting the maximum step length between times;

Detecting the minimum step length between the times;

the maximum step length between the detection time and the selection time;

the minimum step between the detection time and the selection time.

21. The method according to claim 1, wherein the method further comprises:

According to the acquired first information, performing a first operation on SL DRX configuration and/or sending configuration;

Wherein if the number of the first information is a plurality, the performing a first operation on the SL DRX configuration and/or the sending configuration according to the first information includes one of the following:

Performing a first operation on the SL DRX configuration with the longest or shortest activation time;

performing a first operation on the SL DRX configuration with the longest or shortest inactive time;

performing a first operation on the SL DRX configuration with the longest period or the shortest period;

Performing a first operation on the sending configuration with the longest or shortest detection time;

performing a first operation on the sending configuration with the longest or shortest detection time step;

Performing a first operation on the sending configuration with the largest or smallest detection time number;

Performing a first operation on the sending configuration with the longest or shortest selection time;

A first operation is performed on the sending configuration with the most or least selection time.

22. The method of claim 1, wherein the target amount comprises at least one of:

the target amount obtained by the terminal;

The terminal receives a target amount;

The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

The maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

a weighted sum of the maximum value or the minimum value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

The sum of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

The average value of the target quantity obtained by the terminal and the target quantity of other terminals received by the terminal;

And the terminal obtains a weighted sum of the target quantity and the target quantity of other terminals received by the terminal.

23. A processing apparatus, applied to a terminal, comprising:

The processing module is used for performing a first operation on the SL DRX configuration and/or the sending configuration according to the target quantity, wherein the SL DRX configuration comprises an activation time and/or a non-activation time; the sending configuration includes: detecting time and/or selecting time;

the first operation includes at least one of: an enabling operation, an activating operation, a determining operation, a switching operation, a sleep operation, a wake-up operation, a disabling operation, a deactivating operation, and a releasing operation;

the performing a first operation on the SL DRX configuration and/or the sending configuration according to the target amount includes:

Performing a first operation on the SL DRX configuration and/or the serving configuration according to the value of the target amount or a range to which the value of the target amount belongs or a quantized value corresponding to the value of the target amount;

Wherein the value of the target quantity corresponds to the SL DRX configuration and/or the sending configuration, or the range to which the value of the target quantity belongs corresponds to the SL DRX configuration and/or the sending configuration, or the quantized value of the target quantity corresponds to the SL DRX configuration and/or the sending configuration;

Wherein the target amount comprises one or more of:

Measuring a quantity;

calculating the amount;

priority of service, data, protocol data units, transport blocks or packets;

a period of traffic, data, protocol data units, transport blocks or packets;

Time delay requirements.

24. A terminal, comprising: a processor, a memory and a program stored on the memory and executable on the processor, which when executed by the processor performs the steps of the method according to any one of claims 1 to 22.

25. A readable storage medium, characterized in that it stores thereon a program or instructions which, when executed by a processor, implement the steps of the method according to any of claims 1 to 22.