CN114071502A - Configuration method and device - Google Patents

Abstract

The application discloses a configuration method and a configuration device, wherein the method comprises the following steps: performing first operation on a first configuration and/or a second configuration according to a target quantity and/or one or more acquired first information, wherein the first configuration comprises activation time and/or non-activation time; the second configuration includes: a detection time and/or a selection time; the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and 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 and/or the service characteristics of the channel, and the transmission of the terminal can be adapted to the current service or the requirements of the system.

Description

Configuration method and device

Technical Field

The present application belongs to the field of communications technologies, and in particular, to a configuration method and apparatus.

Background

At present, in order to save power, mechanisms such as Discontinuous Reception (DRX), partial detection (partial sending), random selection, and the like are introduced into a New Radio (NR) SideLink (SL). One SL DRX configuration and/or partial sensing configuration cannot meet the requirements of different transmission types and service characteristics, and therefore, a 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 sending configuration is an urgent problem to be solved.

Disclosure of Invention

The embodiment of the application aims to provide a configuration method and a configuration device, and solves 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, which is applied to a terminal, and includes:

performing first operation on a first configuration and/or a second configuration according to a target quantity and/or acquired first information, wherein the first configuration comprises activation time and/or non-activation time; the second configuration includes: a detection time and/or a selection time;

the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and releasing operation.

In a second aspect, a configuration apparatus is provided, which is applied to a terminal, and includes:

the processing module is used for carrying out first operation on a first configuration and/or a second configuration according to a target quantity and/or one or more pieces of acquired first information, wherein the first configuration comprises activation time and/or non-activation time; the second configuration includes: a detection time and/or a selection time;

the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and 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 program, when executed by the processor, carries out the steps of the method according to the first aspect.

In a fourth aspect, a readable storage medium is provided, on which a program or instructions are stored, which when executed by a processor implement the steps of the method according to the first aspect.

In a fifth aspect, there is provided a readable storage medium on which is stored 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 on a non-volatile storage medium, the program product being executable by at least one processor to implement the steps of the method of the process according to the first aspect.

In a seventh aspect, a chip is provided, where the chip includes a processor and a communication interface, where the communication interface is coupled to the processor, and the processor is configured to execute a program or instructions to implement the method according to the processing of 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 and/or the service characteristics of the channel, and the transmission of the terminal can be adapted to the current service or the requirements of 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 diagram of SL DRX 1-3 in an embodiment of the present application;

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

FIG. 5 is a schematic diagram of additional detection times 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 receiving and/or transmitting.

All the information mentioned herein may be obtained in the following manner: the user configures through the base station, schedules the user to schedule or indicate, pre-configures, negotiates among users, specifies a protocol, and the like determined by the user.

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

Reference herein to resources encompasses time domain and/or frequency domain resources, which may be one or more subchannels or Resource Blocks (RBs) or groups of RBs or interlaces or transmission combs (comb) (over one or more time-time domain resources). The Time domain resource may be one or more symbols/slots (slots)/minislots (mini-slots)/milliseconds (ms)/subframes (subframe)/frame (frame)/periodicity/COT Channel Occupancy duration (COT Channel Occupancy Time). The time domain resource may be a physical time domain resource or a logical time domain resource, and 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 resource may be a (logical) resource at an activation time (receiving or transmitting a corresponding) preferably at least for control Channel and/or data Channel reception, e.g. an activation time for Physical Sidelink Control Channel (PSCCH) and/or Physical sidelink shared Channel (PSCCH) reception.

The non-measurable resource is a resource that may be at an inactive time, preferably at least for control channel and/or data channel reception, e.g. PSCCH and/or PSCCH reception.

The ratio of A and 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 a parity sending configuration or a sending configuration. Although partial detection (partial sensing) is exemplified herein, the present invention is not limited to partial sensing, and may be applied to full sensing.

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

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

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

For example, one assumption is that SCIs may be sent at any time.

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

The activation time includes: duration timer on time (on duration timer), on duration timer (on duration timer), DRX inactivity timer (DRX-inactivity timer), DRX retransmission timer (DRX-retransmission timer), T400 run time, at least one of sl-latencBoundcSI-Report period. The activation time may also be interpreted as the time at which some or all of the signals and/or channels may be transmitted and/or received.

The inactive time includes: an off duration, a Round Trip Time (RTT) timer running Time, a non-partial presenting window portion (e.g., a portion between two partial presenting windows, or an enabled partial presenting window), a non-presenting Time.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a sequential or chronological order. It should be understood that the data so used are interchangeable under appropriate circumstances such that embodiments of the application can be practiced in sequences other than those illustrated or described herein, and the terms "first" and "second" used herein generally do not denote any order, nor do they denote any order, for example, the first object may be one or more. In addition, "and/or" in the specification and the claims means at least one of connected objects, and a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

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

Fig. 1 shows a block diagram of a wireless communication system to which embodiments of the present application are applicable. The wireless communication system includes a terminal 11 and a network-side device 12. Wherein, the terminal 11 may also be called as a terminal Device or a User Equipment (UE), the terminal 11 may be a Mobile phone, a Tablet Personal Computer (Tablet Personal Computer), a Laptop Computer (Laptop Computer) or a notebook Computer, a Personal Digital Assistant (PDA), a palmtop Computer, a netbook, a super-Mobile Personal Computer (UMPC), a Mobile Internet Device (MID), a Wearable Device (Wearable Device) or a vehicle-mounted Device (VUE), a pedestrian terminal (PUE), and other terminal side devices, the Wearable Device includes: bracelets, earphones, glasses and the like. It should be noted that the embodiment of the present application does not limit the specific type of the terminal 11. The network-side device 12 may be a Base station or a core network, wherein the Base station may be referred to as a node B, an evolved node B, an access Point, a Base Transceiver Station (BTS), a radio Base station, a radio transceiver, a Basic Service Set (BSS), an Extended Service Set (ESS), a node B, an evolved node B (eNB), a home node B, a WLAN access Point, a WiFi node, a Transmit Receive Point (TRP), or some other suitable terminology in the field, as long as the same technical effect is achieved, the Base station is not limited to a specific technical vocabulary, 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 apparatus provided in the embodiments of the present application are described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

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

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

the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and releasing operation.

Where sleep is a temporary sleep, such as no reception and/or transmission during the next few active times, and awake is the user starting listening, such as reception and/or transmission during the next few active times.

The active time may include: an activation time, a detection time, and/or a selection time. The inactive time may include: an inactive time and/or a non-detection time.

The disabling, deactivating, releasing and sleeping operations may be always effective or may be temporarily effective, for example, M1 cycles disabling, deactivating and releasing.

The enable, activate, determine, and wake operations may be always in effect or may be in effect for a short time, for example, M2 cycles to disable, deactivate, determine, wake.

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 further select the appropriate first configuration and/or second configuration when the terminal is determined to be available.

Optionally, the target amount comprises one or more of:

(1) a measurement quantity, such as a measurement quantity measured by the terminal itself, or a measurement quantity received by the terminal;

for example, the Reference Signal Received Power (RSRP), the Reference Signal Received Quality (RSRQ), the Received Signal Strength Indication (RSSI), the Signal to Interference plus Noise Ratio (SINR), the Signal to Noise Ratio (SNR), etc.

(2) Calculating quantity, for example, the terminal measures itself to obtain the measured quantity, and the terminal calculates the measured quantity to obtain a calculation result, or for example, the terminal receives the measured quantity and the terminal calculates the measured quantity to obtain a calculation result, or for example, the terminal receives the calculation result of the measured quantity;

alternatively, the calculation amount may include: channel Busy Rate (CBR), Channel occupancy Rate (CR), and/or other calculated quantities, such as occupancy of (system, carrier, bandwidth Part (BWP), resource pool, user, connection or group), occupancy, congestion, idle Rate, idle amount, Transmission success Rate, Transmission failure Rate, Discontinuous Transmission (DTX) times, DTX Rate, missed detection times, missed detection Rate, false detection times, error detection Rate, retransmission times, retransmission Rate, and the like.

The transmission Failure may be one or more of receiving a Negative Acknowledgement (NACK), not receiving feedback, not receiving a response, receiving DTX, receiving and/or triggering Beam Failure (BF), receiving and/or triggering Radio Link Failure (RLF), failing to establish a connection, failing to transmit successfully, failing to receive successfully, and failing to decode successfully.

In an embodiment, the transmission Failure may be one or more of receiving a preset Acknowledgement (NACK), receiving no feedback for the preset number of times, receiving no response for the preset number of times, receiving a preset DTX number, receiving and/or triggering a preset Beam Failure (BF), receiving and/or triggering a preset Radio Link Failure (RLF), failing to establish a connection for the preset number of times, failing to transmit the preset number of times successfully, failing to receive the preset number of times successfully, and failing to decode the preset number of times successfully.

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

In one embodiment, the successful transmission may be one or more of receiving a predetermined number of positive Acknowledgements (ACKs), a predetermined number of DTXs (if option1 multicast feedback NACK only mechanism is performed), transmitting a connection and/or receiving a connection establishment response a predetermined number of times, transmitting and/or receiving a connection establishment completion message a predetermined number of times, transmitting and/or receiving a connection establishment response a predetermined number of times, successfully transmitting a predetermined number of times, successfully receiving a predetermined number of times, and successfully decoding a predetermined number of times

It is understood that multiple transmissions of a Transport Block (TB) correspond to a NACK feedback, which may indicate that the system is congested and requires a long activation time.

(3) A priority;

for example, the priority of a service, Data, Protocol Data Unit (PDU), TB, or packet;

(4) a period;

such as, for example, periods of traffic, data, PDUs, TBs, or packets;

(5) a delay requirement;

such as the delay requirements of traffic, data, PDUs, TBs, or packets.

In some embodiments, if the value of the target quantity 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 quantity is lower or higher than a first threshold value;

(2) the value of the target quantity is lower or higher than the difference between the second threshold value and the first value (such as delta 1);

(3) the value of the target quantity is lower or higher than the sum of a third threshold value and a second value, such as delta 2.

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

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

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

In some embodiments, the value of the target quantity corresponds to the first configuration and/or the second configuration, or the range to which the value of the target quantity belongs corresponds to the first configuration and/or the second configuration, or a quantized value of the target quantity corresponds to the first configuration and/or the second configuration, i.e. one or more values of the target quantity or a range (range) to which one or more values of the target quantity belong or a quantized value corresponding to one or more values of the target quantity 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 an inclusion 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 first activation time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, which is different from the second activation time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity;

and/or the presence of a gas in the gas,

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 an inclusion 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 first detection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, which is different from the second detection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity;

and/or the presence of a gas in the gas,

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 an inclusion 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 first selection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, and is different from the second selection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity.

The quantized values corresponding to the values of different target quantities or the ranges to which the values of different target quantities belong or the values of different target quantities correspond to an on DurationTimer, a drx-InactivetyTimer, a drx-RecransmissionTimer or an activation time in an inclusion (nesting) relationship or an overlap relationship;

and/or the presence of a gas in the gas,

the ratio of the duration of the on duration timer, the drx-inactivytytytimer, the drx-retransfissiontimer or the activation time corresponding to the range to which the values of the different target amounts or the values of the different target amounts belong or the quantization values corresponding to the values of the different target amounts is an integer, that is, the duration of the on duration timer, the drx-inactivytimer, the drx-retransfissiontimer or the activation time corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong is a multiple relation;

and/or the presence of a gas in the gas,

the values of different target quantities or the ranges to which the values of different target quantities belong or the quantized values corresponding to the values of different target quantities correspond to the detection time in an inclusion relationship or an overlap relationship;

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

and/or the presence of a gas in the gas,

the values of different target quantities or the ranges to which the values of different target quantities belong or the quantized values corresponding to the values of different target quantities correspond to the selection time in an inclusion relationship or an overlapping relationship;

and/or the presence of a gas in the gas,

the ratio of the time lengths corresponding to the selection time is an integer, that is, the time lengths of the corresponding selection times are in a multiple relationship.

Taking the target amount as CBR for example, small CBR: and (3) medium CBR: the duration of the above activation time (or detection time or selection time) corresponding to the large CBR is T: 2T: 4T.

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

(1) the higher the target amount, the longer the on duration timer, drx-inactivity timer, drx-retransmission timer, or activation Time (e.g., the larger 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 duration timer, drx-inactivity timer, drx-retransmission timer, 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, minislots (mini-slots), slots (slots), milliseconds (ms), frames (frames) or periods, and T is a positive integer.

For example, the higher the CBR or CR, the longer the on DurationTimer, drx-InactivetyTimer, drx-RecransmissionTimer, or the 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-InactivetyTimer, drx-RecransmissionTimer, or activation Time, and/or the longer the off duration, RTT Time, or deactivation Time.

For another example, the higher the CBR or CR, the shorter the on DurationTimer, drx-InactivetyTimer, drx-RecransmissionTimer, 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 the on DurationTimer, drx-InactivetyTimer, drx-RecransmissionTimer, or the activation time; and/or the shorter the off duration or RTT timer or inactivity time.

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

(1) the lower the target amount, the longer the on DurationTimer, drx-InactivationTimer, drx-RecransmissionTimer or activation Time and/or the shorter the off duration, RTT Time or non-activation Time,

for example, the on DurationTimer, drx-InactivetyTimer, drx-RecessionTimer or activation time corresponding to a small CBR is shorter than the on DurationTimer, drx-InactivetyTimer, drx-RecessionTimer or activation time corresponding to a large CBR; specifically, the CBR value 1< CBR value 2, the duration of the on duration timer, drx-inactivytytimer, drx-retransmission timer, or activation time corresponding to the CBR value 1 is 200ms, and the duration of the on duration timer, drx-inactivytimer, drx-retransmission timer, or activation time corresponding to the CBR value 2 is 400 ms.

(2) The higher the target amount, the shorter the on DurationTimer, drx-InactivetyTimer, drx-RecransmissionTimer or activation Time and/or the longer the off duration, RTT Time or non-activation Time.

For example, the higher the CBR or CR, the shorter the on DurationTimer, drx-InactivationTimer, drx-RecenstationTimer, or the 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-InactivetyTimer, drx-RecransmissionTimer, or the 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-InactivetyTimer, drx-RecransmissionTimer, or the 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-InactivetyTimer, drx-RecransmissionTimer, or activation Time, and/or the longer the off duration, RTT Time, or deactivation Time.

In some embodiments, the second configuration for the value of the different target quantity or the range to which the value of the different target quantity belongs or the quantized value for the value of the different target quantity meets at least one of the following requirements:

(1) the higher the target quantity, the longer the detection time and/or the longer the selection time (e.g. the larger the number of time units comprised) and/or the more the detection time and/or the more the selection time (e.g. the more bits (bits) in a bitmap indicating 1);

(2) the lower the target quantity, the shorter the detection time and/or the shorter the selection time and/or the shorter the detection time and/or the shorter the selection time (e.g. the fewer bits in the bitmap indicating 1).

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 for the value of the different target quantity or the range to which the value of the different target quantity belongs or the quantized value for the value of the different target quantity meets 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 quantity, the shorter the detection time and/or the shorter the selection time and/or the shorter the detection time and/or the shorter 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 values of the target quantities of different priorities or the ranges to which the values of the target quantities belong or the quantized values corresponding to the values of the target quantities correspond to the same or different first configurations and/or second configurations. 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 duration timer, drx-inactivity timer, drx-retransmission timer or activation time in the first configuration, the longer the selection time and the longer the detection time in the second configuration can be explained as follows:

(1) "longer" may be interpreted as longer time, i.e., "longer" means longer corresponding time duration, e.g., more time units are included;

referring to fig. 3, the measured CBRs 1/2/3 belong to CBR range1/2/3 respectively corresponding to SL DRX configuration 1/2/3, respectively, and at this time, if resources are to be selected for the initial transmission of one TB, resources can be selected only in the overlapping portions of three on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time. The receiving end can perform detection at the detection time of the overlapping portion.

Alternatively, if resources are to be selected for retransmission of one TB, then on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time of the corresponding SL DRX configuration may all be selected. The receiving end can detect in the detection time of the overlapping part and the non-overlapping part.

One assumption in fig. 3 is that CBR range1< CBR range2< CBR range3, such that the on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time of DRX1 is not longer than the activation time of DRX2, the on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time of DRX2 is not longer than the on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time of DRX 3.

For example, the on duration timer, DRX-inactivytytytimer, DRX-retransmission timer or activation time of DRX1 contains 1 time unit T, the on duration timer, DRX-inactivytimer, DRX-retransmission timer or activation time of DRX2 contains 1.5 time units, i.e., 1.5T, the on duration timer, DRX-inactivytimer, DRX-retransmission timer or activation time of DRX3 contains 2 time units, i.e., 2T, one time unit is T symbols, mini-slot, ms, frame or period, T is a positive integer.

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

i.e. a new, additional, dynamic, sub-or extended activation time (or selection time or detection time) is extended, prolonged or triggered based on the existing activation time (or selection time or detection time) or back.

Referring to fig. 4, when the resource occupancy is low or the collision probability is low, resource selection/reselection is performed within 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 relatively high or the collision probability is relatively high, the additional detection time is further extended before the detection time 1/2/3, and resource selection/reselection is performed within the selection time based on the detection time 1/2/3 and the sensing result in the additional detection time in the figure. The benefit of this scheme is that the selection time is not increased, but the detection time is dynamically adjusted according to the channel conditions/resource usage conditions, so that collisions can be better avoided.

In the embodiment of the application, the more idle the resources are, the more free the user selects the resources, and it is not necessary to frequently perform sending and receiving SCI to determine whether resource conflict occurs, so when there are many idle resources, the configuration with short activation time may be used, and the configuration with short sending time is necessary. On the contrary, the user selects the resource which is easy to collide, and the configuration with long activation time and the configuration with long sending time are needed.

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

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

In some embodiments, for the initial transmission of a Transport Block (TB) or Media Access Control Protocol Data Unit (MAC PDU) or Data or packet, detection, resource selection or resource reselection is performed within the activation time of the overlapping portion;

alternatively, the first and second electrodes may be,

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 configurations corresponding to different target quantity values or ranges to which different target quantity values belong or quantization values corresponding to different target quantity values at least partially overlap.

In some embodiments, the starting time point of the selection time of the second configuration corresponding to the value of the different target amount or the range to which the value of the different target amount belongs or the quantization value corresponding to the value of the different target amount is the same.

In some embodiments, for the initial transmission of one TB or MAC PDU or data or packet, the resource selection or resource reselection is performed within the selection time of the overlapping part;

alternatively, the first and second electrodes may be,

and when one TB or MAC PDU or data or packet is retransmitted, resource selection or resource reselection is carried out in the selection time of the overlapped part and the non-overlapped part.

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

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

In some embodiments, for an initial transmission of a TB or MAC PDU or data or packet, detection is performed within the detection time of the overlapping portion;

alternatively, the first and second electrodes may be,

for retransmission of one TB or MAC PDU or data or packet, detection is performed during the detection time of the overlapping and non-overlapping parts.

In the embodiment of the present application, performing initial transmission on overlapping resources may ensure that users using different first configurations can hear each other, and allowing retransmission to occur in non-overlapping portions may avoid that all transmissions are crowded in the same resource set, resulting in an excessively high collision probability.

For the selection time, a larger selection time window is needed to avoid collision because the load is high. For the detection time, the probability of collision is low at low load, so there is less chance to do detection and still maintain low collision rate and energy saving. The collision probability is high under high load, and the collision probability can still be reduced by making more detections.

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

In some embodiments, the method further comprises:

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

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 restriction information comprises one or more of:

(1) an offset of the activation time;

(2) a maximum duration of activation time;

(3) the shortest duration of the activation time;

(4) an offset of the inactivity time;

(5) maximum duration of inactivity time;

(6) the shortest duration of the inactivity time.

In some embodiments, the second configured restriction information comprises one or more of:

(1) the maximum number of detection times;

(2) a minimum number of detection times;

(3) detecting the maximum duration of time;

(4) detecting the shortest duration of time;

(5) detecting the offset of time;

(6) selecting the maximum number of times;

(7) selecting a minimum number of times;

(8) selecting a maximum duration of time;

(9) selecting the shortest duration of time;

(10) selecting an offset of time;

(11) detecting a step size between times;

(12) detecting a maximum step size between times;

(13) detecting a minimum step between times;

(14) a maximum step size between the detection time and the selection time;

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

Optionally, 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 sending end user, and the like).

Optionally, when the measurement quantity of at least one of the base station, the RSU, and the other users meets a 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 switching indication information indicating that the terminal is switched to the first configuration and/or the second configuration (within a predetermined time next).

In some embodiments, the performing the 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 inactivity 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 a second configuration with the longest or shortest detection time

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

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

(8) the first operation is performed for selecting the second configuration with the most or least time.

In some embodiments, the target amount comprises one of:

(1) the target quantity 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 quantities of other terminals received by the terminal;

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

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

for example, a is the maximum value received of the self-measure + B;

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

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

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

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

the calculated amount calculated by the terminal;

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

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

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

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

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

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

the terminal obtains the measurement quantity and the sum of the maximum value or the minimum value in the measurement quantities of other terminals received by the terminal;

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

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

the terminal obtains the measurement quantity and the average value of the measurement quantities of other terminals received by the terminal;

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

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

the measurement quantity obtained by the terminal;

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 and/or the service characteristics of the channel, and the transmission of the terminal can be adapted to the current service or the requirements of the system.

The following description will be made by taking the first configuration as the SL DRX configuration, the second configuration as the partial sending configuration, the detection time as the sending window, and the selection time as the selection window.

Determining a SL DRX configuration and/or a partial sending configuration, including at least one of:

(1) the terminal performs the SL DRX configuration and/or the partial sending configuration which can be enabled, activated or determined to be used according to the target quantity;

(2) the terminal performs de-enabling, de-activating or releasing the used SL DRX configuration and/or partial sending configuration according to the target quantity;

(3) acquiring first indication information, wherein the indication information indicates that the SL DRX configuration is enabled, activated or determined to be used;

(4) acquiring second indication information, wherein the indication information indicates that the used partial sending configuration is disabled, deactivated or released;

(5) acquiring third indication information, wherein the indication information indicates that the partial sending configuration is enabled, activated or determined to be used;

(6) and acquiring fourth indication information, wherein the indication information indicates that the used partial sending configuration is disabled, deactivated or released.

Optionally, the first indication information, the second indication information, the third indication information and/or the fourth indication information may be transmitted 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 measurement quantity of at least one of the base station, the RSU, and the other users meets a preset requirement, at least one of the base station, the RSU, and the other users sends the first indication information, the second indication information, the third indication information, and/or the fourth indication information.

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

(1) the terminal determines to perform configuration with longest or shortest on DurationTimer, DRX-InactivetyTimer, DRX-RecransmissionTimer or activation time in the SL DRX configuration indicated by the received first indication information.

(2) The terminal determines to perform configuration with longest or shortest off duration, RTT Time or non-active Time in the SL DRX configuration indicated by the received first indication information for enabling, activating or determining the used SL DRX configuration.

(3) The terminal determines to perform the configuration with the longest period or the shortest period in the SL DRX configurations indicated by the received first indication information, wherein the SL DRX configurations are enabled, activated or determined to be used.

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

(1) the terminal determines the configuration with the longest or shortest activation time or the configuration with the longest on duration timer, the DRX-inactivity timer and the DRX-retransmission timer in the SL DRX configuration indicated by the received second indication information.

(2) And the terminal determines the configuration with the longest or shortest off duration, RTT Time or inactive Time in the SL DRX configuration indicated by the received second indication information when the SL DRX configuration used for de-enabling, de-activating or releasing is carried out.

(3) And the terminal determines to perform the configuration with the longest period or the shortest period in the SL DRX configurations indicated by the received second indication information, wherein the SL DRX configurations are enabled, activated or determined to be used.

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

(1) the terminal determines the configuration with the longest or shortest sending window in the partial sending configurations indicated by the received third indication information, wherein the partial sending configurations are enabled, activated or determined to use;

(2) the terminal determines to enable, activate or determine the used partial sending configuration as the configuration with the maximum or minimum number of partial sending configuration sending windows indicated by the received third indication information;

(3) the terminal determines the configuration with the longest or shortest selection window among the partial sending configurations indicated by the received third indication information, wherein the partial sending configuration is enabled, activated or determined to be used.

Optionally, when the terminal receives a plurality of fourth indication information, one of the following operations is performed:

(1) the terminal determines the configuration with the longest or shortest selection window in the partial sending configurations indicated by the received fourth indication information, wherein the partial sending configurations used for de-enabling, de-activating or releasing are configured;

(2) the terminal determines the configuration with the maximum or minimum selection window number in the partial sending configurations indicated by the received fourth indication information, wherein the partial sending configurations used for de-enabling, de-activating or releasing are configured;

(3) the terminal determines the configuration with the longest or shortest partial presentation window in the partial presentation configurations indicated by the received fourth indication information, wherein the partial presentation configurations used for the disabling, the deactivating or the releasing are configured.

Alternatively, the target amount may be CBR, CR and/or other target amounts, such as occupancy of (system, carrier, BWP, resource pool, user and/or connection group), occupancy, congestion, idle rate, idle amount, transmission success times, transmission success rate, transmission failure times, transmission failure rate, DTX times, DTX rate, missed detection times, missed detection rate, false detection times, false detection rate, retransmission times, retransmission rate, and the like.

It will be appreciated that multiple transmissions of a TB correspond to a NACK, which may indicate that the system is congested and requires a longer activation time (the benefit is that CBR, etc. are not measured and only needs to be determined according to the reception situation; the worst is that it is difficult to unify the UE behavior unless the UE is explicitly informed by broadcast signaling, etc. to switch windows together).

Optionally, the one or more target quantity values or the range of the one or more target quantity 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 sending 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 quantization value corresponding to the value of the target amount.

CBR range is the range of CBR values and CR range is the 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 the corresponding SL DRX configuration and/or partial sending configuration according to the measured CBR value or according to the range to which the measured CBR value belongs or the quantization 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 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 sending configuration according to the measured CR or a range to which the measured CR belongs.

Optionally, the one or more target quantity values or the range of the one or more target quantity values, or the quantized value corresponding to the CR value, correspond to one or more SL DRX configuration limits and/or partial sensing configuration limits.

Further, optionally, the terminal determines the corresponding SL DRX configuration limit and/or partial serving 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 quantization value corresponding to the value of the target amount.

Further, optionally, the terminal determined SL DRX configuration and/or partial sending configuration cannot satisfy the restriction.

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

on DurationTimer, drx-InactivityTimer, drx-RecransmissionTimer, or an offset and/or maximum and/or minimum duration of activation time;

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

Optionally, the partial sending configuration limit comprises at least one of:

(1) at least one of a sensing window and a selection window: a maximum number, a minimum number, a maximum duration, a minimum duration, and/or an offset.

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

(3) maximum step size and/or minimum step size (i.e., period) of the sensing window and the selection window.

Optionally, the terminal enables, activates or determines the used SL DRX configuration (or switches to the SL DRX configuration with a shorter active time duration), or the terminal de-enables, deactivates or releases the used SL DRX configuration (or switches to the SL DRX configuration with a longer active time duration).

Optionally, the terminal obtains first indication information and/or second indication information, where the first indication information indicates that the user enables, activates, or determines to use the 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 quantity meets a first requirement, the terminal enables, activates or determines the used SL DRX configuration, and the first requirement is:

the value of the target quantity is below the first threshold, and/or below the second threshold-delta 1, and/or below the third threshold + delta 2.

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

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

the value of the target quantity is above the fourth threshold, and/or above the fifth threshold-delta 3, and/or above the sixth threshold + delta 4.

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

Optionally, the terminal enables, activates or determines the used partial sending configuration (or switches to a sending and/or selection window configuration with a shorter and/or less duration), or the terminal de-enables, deactivates or releases the used partial sending configuration (or switches to a sending and/or selection window configuration with a longer and/or more duration), for example, 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 sending configuration, or the fourth indication information indicates that the terminal disables, deactivates, or releases the used partial sending configuration.

Optionally, when the value of the terminal target quantity meets a third requirement, the terminal enables, activates or determines the used partial sending configuration, and the third requirement is:

the value of the target quantity is below the seventh threshold, and/or below the eighth threshold-delta 5, and/or below the ninth threshold + delta 6.

The target volume at this time is (system, carrier, BWP, resource pool, user, connection and/or group) idle rate, idle volume, transmission success number, and transmission success rate.

Optionally, when the value of the terminal target quantity meets a fourth requirement, the terminal disables, deactivates, or releases the used partial sending configuration, and the fourth requirement is:

the value of the measured quantity is above the tenth threshold and/or above the eleventh threshold-delta 7 and/or below the twelfth threshold + delta 8.

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

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

Optionally, any user sends its target amount.

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

Optionally, monitoring indication information is obtained, where the information is used to indicate that the user performs monitoring or does not perform monitoring at the activation time (of the next N DRX) and/or indicate (some M) partial sending windows.

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

The above target amount (measured or received by itself) affecting the SL DRX configuration and/or the partial sending configuration) is one of:

(1) obtaining a target quantity by a terminal;

(2) receiving target quantity of other users by the terminal;

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

(4) the maximum value or the minimum value in the target quantity obtained by the terminal and the target quantity received by other terminals is summed;

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

for example, A is the maximum value received of the self-measured value + B

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

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

(8) and the weighted sum of the target quantity obtained by the terminal and the received target quantity of other users.

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

(1) the calculated amount calculated by the terminal;

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

(5) the terminal calculates the calculated amount and the weighted sum of 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 calculated by the terminal and the calculated amount of other terminals received by the terminal;

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

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

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

(10) the terminal obtains the measurement quantity and the sum of the maximum value or the minimum value in the measurement quantities of other terminals received by the terminal;

(11) a weighted sum of the measurement quantity obtained by the terminal and a maximum value or a minimum value among the measurement quantities of other terminals received by the terminal;

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

(13) the terminal obtains the measurement quantity and the average value of the measurement quantities of other terminals received by the terminal;

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

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

(1) the measurement quantity obtained by the terminal;

(2) the measurement quantity received by the terminal.

It can be understood that, in the embodiment of the present application, it is allowed to dynamically decide whether to use DRX and partial sensing by the target volume, and to select an appropriate DRX and partial sensing configuration.

The relationship and/or the limitation between SL DRX configurations and/or partial sensing configurations corresponding to different target volume values or ranges to which the target volume values belong or quantization values corresponding to the target volume values.

Optionally, the on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time of the SL DRX configuration corresponding to the different target amount values or the different target amount value range are in a nested (overlapping or inclusive) relationship, and/or the durations of the on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time are in a multiple relationship.

Optionally, the presentation window of the partial presentation configuration corresponding to the value of the different target amount or the range of the value of the different target amount or the quantization value corresponding to the value of the target amount is in a nested (inclusive) relationship, and/or the duration of the presentation window is in a multiple relationship.

Optionally, the selection window of the partial sending configuration corresponding to the value of the different target amount or the range of the value of the different target amount or the quantization value corresponding to the value of the target amount is in a nested (overlapping or containing) relationship, and/or the duration of the selection window is in a multiple relationship.

For example, small CBR: and (3) medium CBR: the above length for a large CBR is T: 2T: 4T.

Optionally, the SL DRX configuration of the quantization value corresponding to the different target amount values or the different target amount values range or the target amount values satisfies one of the following requirements:

(1) the higher the target amount, the longer the on duration timer, drx-inactivity timer, drx-retransmission timer, or activation Time (e.g., the larger 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 duration timer, drx-inactivity timer, 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).

Alternatively, the higher the target amount, the shorter the on duration timer, drx-inactivity timer, drx-retransmission timer, 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 duration timer, drx-inactivity timer, drx-retransmission timer, or activation Time, and/or the shorter the off duration, RTT Time, or inactivity Time.

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

(2) The lower the target amount, the longer the on duration timer, drx-inactivity timer, drx-retransmission timer, or 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 duration timer, drx-inactivity timer, 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).

Alternatively, the lower the target amount, the shorter the on duration timer, drx-inactivity timer, drx-retransmission timer, or activation Time, and/or the longer the off duration, RTT Time, or inactivity Time; conversely, the higher the target amount, the longer the on duration timer, drx-inactivity timer, drx-retransmission timer, or activation Time, and/or the shorter the off duration, RTT Time, or inactivity Time.

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

Optionally, one time unit is T symbols, mini-slots, ms, frames or periods

Optionally, the partial sensing configuration of the quantized values corresponding to the values of the different target quantities or the values of the different target quantities range or the values of the target quantities 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 comprised), and/or the more the selection window and/or the selection window (e.g., the more bits in the bitmap that indicate a 1); conversely, the lower the target amount, the shorter the sensing window and/or selection window (e.g., the smaller the number of time units involved), and/or the fewer the sensing window and/or selection window (e.g., the fewer bits in the bitmap that indicate a 1).

Alternatively, the higher the target amount, the shorter the sensing window and/or the selection window, and/or the less the selection window and/or the sensing window; conversely, the lower the target amount, the longer the sensing window and/or selection window, and/or the more the sensing window and/or selection window. Optionally, the target amount at this time is at least one of occupancy, blocking rate, blocking amount, transmission failure times, transmission failure rate, DTX times, DTX rate, missed detection times, missed detection rate, false detection times, false detection rate, retransmission times, retransmission rate, and the like of CBR, CR (system, carrier, BWP, resource pool, user, connection, and/or group).

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

Alternatively, the lower the target amount, the shorter the sensing window and/or the selection window, and/or the less the sensing window and/or the selection window; conversely, the higher the target amount, the longer the sensing window and/or the selection window, and/or the more the sensing window and/or the selection window.

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

Optionally, the above-mentioned relationships and/or restrictions are defined for different priorities. For example for priority 1 there is a relation 1 and/or a limit 1 and for priority 2 there is a relation 2 and/or a limit 2.

It can be understood that the more idle the resources are, the more free the user selects the resources, and it is not necessary to frequently perform sending and receiving SCI to determine whether resource collision occurs, so when there are many idle resources, DRX with short activation time may be used, and configuration with short sending time is required. On the contrary, the user selects the resources which are easy to collide, needs to activate the DRX with long activation time, and needs to configure with long sending time.

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

the activation times of the SL DRX configurations at least partially overlap, such as on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation times are inclusive.

Optionally, the start of the on duration timer, DRX-inactivity timer, DRX-retransmission timer, or activation time of the SL DRX configuration is aligned.

Alternatively, the initial transmission related operation can be performed only in the overlapping part, for example, sending, resource selection or reselection is performed for the initial transmission of one TB, PDU, data, packet.

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

Optionally, the partial sensing configuration of the values of the different target amounts or the values of the different target amounts range satisfies: the selection windows of the partial sensing configuration at least partially overlap, e.g., the selection windows are in an inclusive relationship.

Optionally, the start of the selection window of these partial sensing configurations is aligned.

Alternatively, the initial transmission related operation can only be performed in the overlapping part, for example, resource selection or reselection is performed for the initial transmission of one TB, PDU, data or packet.

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

The sensing windows of the partial sensing configurations at least partially overlap, e.g., the sensing windows are inclusive.

Alternatively, the start of the selection window of the partial sensing configuration is aligned.

Alternatively, the initial transmission related operation can be performed only in the overlapping part, for example, the sending is performed for the initial transmission of one TB, PDU, data or packet.

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

Alternatively, the longer the on DurationTimer, drx-InactivetyTimer, drx-RecransmissionTimer, or activation time, the longer the sending window and/or the selection window may be explained as follows.

1. The duration is longer than the duration corresponding to other SL DRX configuration and/or partial sending configuration, for example, more time units are contained

2. A new, additional, dynamic, sub-or/extended on duration timer, drx-inactivity timer, drx-responsiveness timer or activation time, sensing window and/or selection window is extended, extended or triggered based on the existing on duration timer, drx-inactivity timer, drx-responsiveness timer or activation time, sensing window and/or selection window, see fig. 4.

It will be appreciated that initial transmissions on overlapping resources may ensure that users using different DRX may hear each other, while allowing retransmissions to occur in non-overlapping portions may avoid having too high a collision probability for all transmissions to be crowded into the same set of resources.

It can be understood that the selection window needs to be larger to avoid collision because of the high load. For the sending window, the probability of collision is low at low loads, so there is less chance that sending can still maintain low collision rates and energy savings. The collision probability is high under high load, and the collision probability can be still reduced by doing more sensing.

In the embodiment of the application, the SL DRX and/or the partial sending can adapt to the busy rate and/or the occupancy rate and/or the service characteristics of a channel, and further the transmission of the terminal can adapt to the current service or the requirement of a system.

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

the processing module 601 is configured to perform a first operation on a first configuration and/or a second configuration according to a target quantity and/or one or more pieces of acquired first information, where the first configuration includes activation time and/or non-activation time; the second configuration includes: a detection time and/or a selection time;

the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and releasing operation.

In embodiments of the application, the target amount comprises one or more of: measuring the quantity; a calculation result of the measurement amount; a priority; a period; a delay requirement.

In this embodiment, 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 quantity satisfies a first condition;

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

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

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

the value of the target quantity is lower or higher than the sum of a third threshold value and a second value.

In this embodiment, 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 a range to which the value of the target quantity belongs or a quantized value corresponding to the value of the target quantity.

In an embodiment of the application, the value of the target quantity corresponds to the first configuration and/or the second configuration, or a range to which the value of the target quantity belongs corresponds to the first configuration and/or the second configuration, or a quantized value of the target quantity corresponds to the first configuration and/or the second configuration, i.e. one or more values of the target quantity or a range to which one or more values of the target quantity belong or a quantized value corresponding to one or more values of the target quantity 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 an inclusion 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 first activation time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, which is different from the second activation time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity;

and/or the presence of a gas in the gas,

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 an inclusion 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 first detection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, which is different from the second detection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity;

and/or the presence of a gas in the gas,

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 an inclusion 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 first selection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, and is different from the second selection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity.

In the embodiment of the present application, the values of different target amounts or the ranges to which the values of different target amounts belong or the quantized values corresponding to the values of different target amounts correspond to the activation time in an inclusion relationship or an overlap relationship;

and/or the presence of a gas in the gas,

the values of different target quantities or the ranges to which the values of different target quantities belong or the quantized values corresponding to the values of different target quantities, and the ratio of the durations corresponding to the activation time is an integer;

and/or the presence of a gas in the gas,

the values of different target quantities or the ranges to which the values of different target quantities belong or the quantized values corresponding to the values of different target quantities correspond to the detection time in an inclusion relationship or an overlap relationship;

the ratio of the time lengths corresponding to the detection time to the quantized values corresponding to the ranges of the values of the different target quantities or the values of the different target quantities is an integer;

and/or the presence of a gas in the gas,

the values of different target quantities or the ranges to which the values of different target quantities belong or the quantized values corresponding to the values of different target quantities correspond to the selection time in an inclusion relationship or an overlapping relationship;

and/or the presence of a gas in the gas,

the ratio of the time lengths corresponding to the selection time to the quantized values corresponding to the ranges to which the values of the different target amounts or the values of the different target amounts belong or the values of the different target amounts is an integer.

In the embodiment of the present application, the first configuration corresponding to the quantized value corresponding to the range to which the value of the different target amounts or the value of the different target amounts belongs or the value of the different target amounts satisfies 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 first configuration corresponding to the quantized value corresponding to the range to which the value of the different target amounts or the value of the different target amounts belongs or the value of the different target amounts satisfies 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 range to which the value of the different target amount or 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 quantity, 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 shorter the detection time and/or the shorter the selection time.

In the embodiment of the present application, the second configuration corresponding to the quantized value corresponding to the range to which the value of the different target amount or 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 quantity, the shorter the detection time and/or the shorter the selection time and/or the shorter the detection time and/or the shorter the selection time.

Optionally, the values of the target quantities of different priorities or the ranges to which the values of the target quantities belong or the quantized values corresponding to the values of the target quantities correspond to the same or different first configurations and/or second configurations.

In an embodiment of the application, the activation times of the first configurations corresponding to the values of the different target quantities or ranges to which the values of the different target quantities belong or quantized values corresponding to the values of the different target quantities 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 values of the different target amounts or the ranges to which the values of the different target amounts belong or the quantized values corresponding to the values of the different target amounts are the same.

In the embodiment of the application, for the initial transmission of one TB or MAC PDU or data or packet, detection, resource selection or resource reselection is carried out within the activation time of the overlapping 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 during the activation time of the overlapping part and the non-overlapping part.

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

In the embodiment of the present application, the starting time points of the selection times of the second configurations corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong or the quantization values corresponding to the values of the different target amounts 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 overlapping part;

alternatively, the first and second electrodes may be,

and when one TB or MAC PDU or data or packet is retransmitted, resource selection or resource reselection is carried out in the selection time of the overlapped part and the non-overlapped part.

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

In the embodiment of the application, for the initial transmission of a TB or MAC PDU or data or packet, the detection is carried out in the detection time of the overlapping part;

alternatively, the first and second electrodes may be,

for retransmission of one TB or MAC PDU or data or packet, detection is performed during the detection time of the overlapping and non-overlapping parts.

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

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

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

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 restriction information of the first configuration includes one or more of: an offset of the activation time; a maximum duration of activation time; the shortest duration of the activation time; an offset of the inactivity time; maximum duration of inactivity time; the shortest duration of the inactivity time.

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

In this embodiment of the application, the performing, according to the plurality of pieces of first information, a first operation on the first configuration and/or the second configuration includes one of:

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 inactivity 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 the smallest number of detection times;

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

the first operation is performed for selecting the second configuration with the most or least time.

In an embodiment of the application, the target amount comprises one of:

the target quantity 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 quantities of other terminals received by the terminal;

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

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

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

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

the calculated amount calculated by the terminal;

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

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

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

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

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

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

the terminal obtains the measurement quantity and the sum of the maximum value or the minimum value in the measurement quantities of other terminals received by the terminal;

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

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

the terminal obtains the measurement quantity and the average value of the measurement quantities of other terminals received by the terminal;

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

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

the measurement quantity obtained by the terminal;

the measurement quantity received by the terminal.

The processing device provided in the embodiment of the present application can implement each process implemented by the method embodiment shown in fig. 2, and achieve the same technical effect, and for avoiding repetition, details are not described here again.

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

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

Those skilled in the art will appreciate that the terminal 700 may further include a power supply (e.g., a battery) for supplying power to various components, which may be logically connected to the processor 710 via a power management system, so as to manage charging, discharging, and power consumption management functions 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 those shown, or combine some components, or have a different arrangement of components, and will not be described again here.

It should be understood that in the embodiment of the present application, the input Unit 704 may include a Graphics Processing Unit (GPU) 7041 and a microphone 7042, and the Graphics Processing Unit 7041 processes image data of still pictures or videos 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 of 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, and a joystick, which are not described in detail herein.

In the embodiment of the present application, the radio frequency unit 701 receives downlink data from a network side device and then processes the downlink data in the processor 710; in addition, the uplink data is sent to the network side equipment. In general, radio frequency 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 as well as 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, an application program or instruction (such as a sound playing function, an image playing function, etc.) required by at least one function, and the like. In addition, the Memory 709 may include a high-speed random access Memory and a nonvolatile Memory, where the nonvolatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (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 handles primarily the operating system, user interface, and application programs or instructions, etc. and a modem processor that handles primarily wireless communications, such as a baseband processor. It will be appreciated that the modem processor described above may not be integrated into processor 710.

The terminal provided in the embodiment of the present application can implement each process implemented by the method embodiment shown in fig. 2, and achieve the same technical effect, and for avoiding repetition, details are not described here again.

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

An embodiment of the present application further provides a readable storage medium, where a program or an instruction is stored on the readable storage medium, and when the program or the instruction is executed by a processor, the program or the instruction implements each process of the method embodiment shown in fig. 2, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here.

Wherein, the processor is the 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 (RAM), a magnetic disk or an optical disk, and so on.

The embodiment of the present application further provides a chip, where 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 an instruction, to implement each process of the method embodiment shown in fig. 2, and can achieve the same technical effect, and details are not repeated here to avoid repetition.

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

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 an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present application.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (29)

1. A configuration method is applied to a terminal, and is characterized by comprising the following steps:

performing first operation on a first configuration and/or a second configuration according to a target quantity and/or acquired first information, wherein the first configuration comprises activation time and/or non-activation time; the second configuration includes: a detection time and/or a selection time;

the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and releasing operation.

2. The method of claim 1, wherein the target amount comprises one or more of:

measuring the quantity;

calculating the quantity;

a priority;

a period;

a delay requirement.

3. The method of claim 1, wherein performing a first operation on the first configuration and/or the second configuration in accordance with the target amount comprises:

performing a first operation on the first configuration and/or the second configuration if the value of the target quantity satisfies a first condition;

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

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

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

the value of the target quantity is lower or higher than the sum of a third threshold value and a second value.

4. The method of claim 1, wherein performing a first operation on the first configuration and/or the second configuration according to the target amount comprises:

and performing a first operation on the first configuration and/or the second configuration according to the value of the target quantity or a range to which the value of the target quantity belongs or a quantized value corresponding to the value of the target quantity.

5. The method according to claim 4, characterized in that the value of the target quantity corresponds to the first and/or second configuration, or the range to which the value of the target quantity belongs corresponds to the first and/or second configuration, or a quantized value of the target quantity corresponds to the first and/or second configuration.

6. The method of claim 5, wherein 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 an inclusion 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 first activation time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, which is different from the second activation time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity;

and/or the presence of a gas in the gas,

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 an inclusion 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 first detection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, which is different from the second detection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity;

and/or the presence of a gas in the gas,

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 an inclusion 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 first selection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity, and is different from the second selection time corresponds to a value of the target quantity, a range to which the value of the target quantity belongs, or a quantized value of the target quantity.

7. The method according to claim 5, characterized in that the first configuration for the quantized values for the values of the different target quantities or for the ranges to which the values of the different target quantities belong or for the values of the different target quantities satisfies 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.

8. The method according to claim 5, characterized in that the first configuration for the quantized values for the values of the different target quantities or for the ranges to which the values of the different target quantities belong or for the values of the different target quantities satisfies 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.

9. The method according to claim 5, characterized in that the second configuration for the quantized values for the values of the different target quantities or for the ranges to which the values of the different target quantities belong or for the values of the different target quantities 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 the selection time.

10. The method according to claim 5, characterized in that the second configuration for the quantized values for the values of the different target quantities or for the ranges to which the values of the different target quantities belong or for the values of the different target quantities 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.

11. The method according to claim 5, wherein the values of the target quantities or the ranges to which the values of the target quantities belong for different priorities or the quantized values corresponding to the values of the target quantities correspond to the same or different first and/or second configurations.

12. Method according to claim 5, wherein the activation times of the first configurations corresponding to the values of the different target quantities or ranges to which the values of the different target quantities belong or quantized values corresponding to the values of the different target quantities at least partially overlap.

13. The method according to claim 5, characterized in that the starting point in time of the activation time of the first configuration is the same for different target quantity values or ranges to which different target quantity values belong or quantized values corresponding to different target quantity values.

14. The method according to claim 12, characterized in that for the initial transmission of one transport block TB or media access control protocol data unit MAC PDU or data or packet, the detection, resource selection or resource reselection is performed during the activation time of the overlapping part;

alternatively, the first and second electrodes may be,

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.

15. Method according to claim 5, wherein the selection times of the second configurations corresponding to the values of different target quantities or ranges to which the values of different target quantities belong or quantization values corresponding to the values of different target quantities at least partially overlap.

16. The method according to claim 5, wherein the starting time points of the selection times of the second configurations corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong or the quantization values corresponding to the values of the different target amounts are the same.

17. The method of claim 15, wherein for an initial transmission of a TB or MAC PDU or data or packet, the resource selection or resource reselection is performed within the selection time of the overlapping portion;

alternatively, the first and second electrodes may be,

and when one TB or MAC PDU or data or packet is retransmitted, resource selection or resource reselection is carried out in the selection time of the overlapped part and the non-overlapped part.

18. Method according to claim 5, characterized in that the detection times of the second configurations corresponding to the values of the different target quantities or ranges to which the values of the different target quantities belong or quantized values corresponding to the values of the different target quantities at least partially overlap.

19. The method according to claim 5, wherein the starting time points of the detection times of the second configuration corresponding to the values of the different target amounts or the ranges to which the values of the different target amounts belong or the quantization values corresponding to the values of the different target amounts are the same.

20. The method of claim 18 wherein for an initial transmission of a TB or MAC PDU or data or packet, detecting is performed during the detection time of the overlap portion;

alternatively, the first and second electrodes may be,

for retransmission of one TB or MAC PDU or data or packet, detection is performed during the detection time of the overlapping and non-overlapping parts.

21. The method according to claim 5, wherein the one or more target quantity values or the range to which the one or more target quantity values belong or the quantized value to which the one or more target quantity values correspond corresponds to one or more of the first configuration restriction information and/or the second configuration restriction information.

22. The method of claim 1, further comprising:

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

23. The method according to claim 21 or 22, wherein the restriction information of the first configuration comprises one or more of:

an offset of the activation time;

a maximum duration of activation time;

the shortest duration of the activation time;

an offset of the inactivity time;

maximum duration of inactivity time;

the shortest duration of the inactivity time.

24. The method according to claim 21 or 22, wherein the restriction information of the second configuration comprises one or more of:

the maximum number of detection times;

a minimum number of detection times;

detecting the maximum duration of time;

detecting the shortest duration of time;

detecting the offset of time;

selecting the maximum number of times;

selecting a minimum number of times;

selecting a maximum duration of time;

selecting the shortest duration of time;

selecting an offset of time;

detecting a step size between times;

detecting a maximum step size between times;

detecting a minimum step between times;

a maximum step size between the detection time and the selection time;

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

25. The method according to claim 1, wherein if the number of the first information is plural, the performing a first operation on the first configuration and/or the second configuration according to the first information comprises one of:

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 inactivity 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 the smallest number of detection times;

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

the first operation is performed for selecting the second configuration with the most or least time.

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

the target quantity obtained by the terminal;

the terminal receives the target quantity;

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

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

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

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

27. A processing device applied to a terminal, comprising:

the processing module is used for carrying out first operation on a first configuration and/or a second configuration according to a target quantity and/or one or more pieces of acquired first information, wherein the first configuration comprises activation time and/or non-activation time; the second configuration includes: a detection time and/or a selection time;

the first operation comprises at least one of: enabling operation, activating operation, determining operation, switching operation, sleeping operation, waking operation, de-enabling operation, deactivating operation, and releasing operation.

28. 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 implements the steps of the method of any one of claims 1 to 26.

29. A readable storage medium, on which a program or instructions are stored which, when executed by a processor, carry out the steps of the method according to any one of claims 1 to 26.

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