CN103428873B

CN103428873B - Method, user terminal and the base station of information processing

Info

Publication number: CN103428873B
Application number: CN201210156354.6A
Authority: CN
Inventors: 权威; 张戬
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2012-05-18
Filing date: 2012-05-18
Publication date: 2018-03-09
Anticipated expiration: 2032-05-18
Also published as: WO2013170679A1; CN103428873A

Abstract

The present invention provides a kind of method of information processing, user terminal and base station.It is related to communication technical field.Solve because terminal is after information to be transmitted is sent, start Sleep Timer, be unfavorable for base station and carry out multi-user's Optimized Operation on the whole, the problem of causing the QoS and relatively low Consumer's Experience of terminal business to be transmitted.This method comprises the following steps：Send information to be transmitted；Sleep Timer are started according to the priority of the priority of information to be transmitted and/or the channel resource for transmitting information to be passed.Terminal is can apply to send in data.

Description

Information processing method, user terminal and base station

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method, a user terminal, and a base station for processing information.

Background

A certain amount of power is consumed when the receiver and the transmitter of the terminal are in an on state. In order to reduce power used by the terminal, DRX (Discontinuous Reception) is introduced. DRX is a commonly used method for saving power of a terminal, and after using the method, a receiver and a transmitter of the terminal are in an on state only at some moments and are in an off state at other moments, so as to achieve the purpose of saving power.

In one cycle of DRX, a time period in which a receiver and/or a transmitter of the terminal is in an on state is a time period in which the terminal is in an active state. When the terminal is in the active state, the terminal can acquire a channel command, a paging message, receive a system broadcast message, transmit data, and the like.

The process of the terminal receiving and transmitting data using DRX may include the steps of:

1. when the terminal has a service to be transmitted, the terminal sends information to be transmitted to the base station to which the terminal belongs, and the information to be transmitted may include: a service to be transmitted and a BSR (Buffer Status Report) or an SR (scheduling request), where the BSR is used to describe a current Buffer data volume of a terminal;

specifically, if the base station allocates a channel resource for sending the service to be transmitted within the activated time period of the terminal, the information to be transmitted may include: the BSR is used for indicating the base station to allocate channel resources for the next service transmission to the terminal according to the current buffer data volume of the terminal; if the base station does not allocate a channel resource for sending the service to be transmitted to the terminal, the information to be transmitted may include: the SR corresponding to the service to be transmitted is used for indicating the base station to distribute channel resources for transmitting the service to be transmitted for the terminal; after receiving uplink grant information containing Channel resources sent by a base station through a Physical Downlink Control Channel (PDCCH), a terminal sends information to be transmitted containing service to be transmitted and a BSR to the base station by using the Channel resources.

2. The terminal starts a Sleep Timer, does not receive the channel command within the time period of the Sleep Timer, and does not receive the channel command until the Sleep Timer is overtime; however, during the Sleep Timer period, the terminal may listen for a paging message or a broadcast message. The terminal does not receive the channel command in the SleepTimer timing time period, so that the terminal can save part of electric energy; meanwhile, the terminal starts the Sleep Timer to delay starting the Inactivity Timer (to deactivate the Timer), so that the Inactivity Timer does not time out too early after the terminal sends the information to be transmitted.

3. After the Sleep Timer is overtime, the terminal starts an Inactivity Timer, the terminal is in an active state within the Timer timing time period, the Inactivity Timer is used for prolonging the time of the terminal in the active state, and it is ensured that within the Inactivity Timer timing time, when there is a service to be transmitted in the terminal, more opportunities can be received to receive uplink authorization information containing channel resources or channel commands containing the channel resources, so that more services to be transmitted can be transmitted in time.

The Inactivity Timer and the Sleep Timer are configured by the base station, and the Inactivity Timer and the Sleep Timer are configured for different terminals according to the same parameters.

In the process of realizing the information processing, the inventor finds that at least the following problems exist in the prior art: after the terminal sends the information to be transmitted, the Sleep Timer is started, and because the Sleep Timer timing time is configured for different terminals according to the same parameter, the Sleep Timer timing time configured by the base station may not be suitable for the time delay requirement of the information to be transmitted, which is not beneficial to the base station to carry out multi-user optimized scheduling on the whole, and results in lower Quality of Service (QoS) and user experience of the terminal Service.

Disclosure of Invention

Embodiments of the present invention provide an information processing method, a user terminal, and a base station, which solve, to a certain extent, the problem that QoS of a terminal service and user experience are low because a terminal is not favorable for a base station to perform multi-user optimized scheduling as a whole after sending information to be transmitted and starting a Sleep Timer.

In order to achieve the above purpose, the embodiment of the invention adopts the following technical scheme:

in one aspect, an information processing method is provided, including:

sending information to be transmitted;

and starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, wherein the timing time length of the sleep timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted.

In addition, another information processing method is also provided, including:

configuring at least one piece of sleep timer timing time information corresponding to the priority of information to be transmitted of the terminal and/or the priority of channel resources used for transmitting the information to be transmitted for the terminal, wherein the sleep timer timing time information is used for describing the timing time length of a sleep timer;

and sending configured timing time information of the sleep timer to the terminal, so that the terminal starts the sleep timer after acquiring the timing time information of the sleep timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the configured timing time information of the sleep timer after sending the information to be transmitted.

In another aspect, a user terminal is provided, including:

a sending unit, configured to send information to be transmitted;

the processing unit is used for starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, and the timing time length of the sleep timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted;

and the sleep timer is used for timing according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after the user terminal transmitting unit transmits the information to be transmitted.

In addition, there is also provided a base station including:

the processing unit is used for configuring at least one piece of sleep timer timing time information corresponding to the priority of information to be transmitted of the terminal and/or the priority of channel resources used for transmitting the information to be transmitted for the terminal, wherein the sleep timer timing time information is used for describing the timing time length of a sleep timer;

and the sending unit is used for sending the configured timing time information of the sleep timer to the terminal, so that the terminal starts the sleep timer after acquiring the timing time information of the sleep timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from the configured timing time information of the sleep timer after sending the information to be transmitted.

After the method is adopted, the terminal starts the Sleep Timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after sending the information to be transmitted, the timing time length of the Sleep Timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the time delay requirement of the information to be transmitted is met as far as possible by considering the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted while the terminal saves electric energy, multi-user optimization scheduling is favorably carried out on the whole by the base station, and the QoS of the service to be transmitted and the user experience are improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of a method for processing information by using a terminal as an execution main body according to this embodiment;

fig. 2 is a flowchart of another method for processing information by using a terminal as an execution main body according to this embodiment;

FIG. 3 is a pulse waveform diagram of Sleep Timer when two Sleep timers are timed simultaneously in the method provided in FIG. 2;

fig. 4 is a state waveform diagram of an Inactivity Timer started after the Sleep Timer times out in the method provided in fig. 2;

fig. 5 is a flowchart of a method for processing information by using a base station as an execution subject according to this embodiment;

fig. 6 is a schematic structural diagram of a user terminal according to this embodiment;

fig. 7 is a schematic structural diagram of another user terminal provided in this embodiment;

fig. 8 is a schematic structural diagram of a base station according to this embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

The embodiment provides an information processing method, an execution subject of the method is a terminal, as shown in fig. 1, the method includes the following steps:

101. and sending the information to be transmitted.

102. And starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, wherein the timing time length of the sleep timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted.

As an implementation manner of this embodiment, the higher the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the shorter the corresponding Sleep Timer timing time is; the lower the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the longer the corresponding Sleep Timer is.

In this embodiment, the correspondence between the priority and the Sleep Timer timing time is not limited, and may be set according to actual needs, which is not described herein again.

After the method is adopted, the terminal starts the Sleep Timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after sending the information to be transmitted, the timing time length of the Sleep Timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the time delay requirement of the information to be transmitted is met as far as possible while the terminal saves electric energy, the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted are also considered, the base station is favorable for carrying out multi-user optimized scheduling integrally, and the QoS and the user experience of the service to be transmitted are improved.

As an improvement of the embodiment, the present embodiment provides another information processing method, where the execution subject of the present embodiment is a terminal, as shown in fig. 2, the method may include the following steps:

201. and sending the information to be transmitted.

As a mode of this embodiment, when the base station does not allocate a channel resource for transmitting a service to be transmitted to the terminal, the terminal sends information to be transmitted, which includes an SR corresponding to the service to be transmitted, to the base station, where the SR is used to instruct the base station to allocate the channel resource for the terminal to send the service to be transmitted.

In this embodiment, the method for configuring the channel resource by the base station according to the SR is not limited, and is a technique well known to those skilled in the art, and is not described herein again.

202. And starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, wherein the timing time length of the sleep timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted.

Further, the step of starting the sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted may include:

acquiring Sleep Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of channel resources used for transmitting the information to be transmitted from pre-stored Sleep Timer timing time information, wherein the pre-stored Sleep Timer timing time information comprises at least one Sleep Timer timing time information which is corresponding to the priority of the information to be transmitted and/or the priority of the channel resources used for transmitting the information to be transmitted and is used for describing the Sleep Timer timing time length; and starting the Sleep Timer according to the acquired Sleep Timer timing time information.

As an implementation manner of this embodiment, the pre-stored Sleep Timer timing information may be, but is not limited to, configured by the base station for the terminal, or configured by another device, and is not limited herein.

Further optionally, the step of starting the sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted may include:

acquiring Sleep Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of channel resources used for transmitting the information to be transmitted from a base station; and starting the SleepTimer according to the acquired Sleep Timer timing time information.

After the terminal sends the information to be transmitted, a Sleep Timer is started; the Sleep Timer timing time may be the timing time described in the acquired Sleep Timer timing time information.

The terminal may obtain, from the base station, before sending the information to be transmitted, Sleep Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, or may obtain, from the base station, Sleep Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after sending the information to be transmitted, which is not limited herein.

Further, the information to be transmitted may include a BSR and a service to be transmitted; alternatively, the information to be transmitted may include an SR corresponding to the service to be transmitted.

As an implementation manner of this embodiment, when the information to be transmitted includes the service to be transmitted and the BSR, the priority of the information to be transmitted is the priority of the service to be transmitted included in the information to be transmitted;

and when the information to be transmitted contains the SR corresponding to the service to be transmitted, the priority of the information to be transmitted is the priority of the SR contained in the information to be transmitted.

The step of obtaining the SR priority may include: and acquiring the SR priority corresponding to the SR according to the priority of the service to be transmitted corresponding to the SR.

If the information to be transmitted includes an SR corresponding to the service to be transmitted, the step of starting the Sleep Timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted may include:

according to the priority of the service to be transmitted corresponding to the SR, the SR priority corresponding to the SR is obtained from the pre-stored SR priorities, and the pre-stored SR priorities comprise at least one SR priority which is configured by the base station and corresponds to the priority of the service to be transmitted corresponding to the SR; or, according to the priority of the service to be transmitted corresponding to the SR, acquiring the SR priority corresponding to the SR from the base station; and starting the Sleep Timer according to the acquired SR priority.

For example, if the priority of the to-be-transmitted service corresponding to the SR is 1, the SR priority corresponding to the priority of 1 is obtained from the pre-stored SR priorities, and the obtained SR priority may be, but is not limited to: 1. or 2, if the obtained SR priority is 1, the SleepTimer timing time information corresponding to the priority being 1 may be obtained from pre-stored Sleep Timer timing time information configured by the base station, and the Sleep Timer may be started according to the obtained Sleep Timer timing time information, that is, the Sleep Timer timing time is the time described in the obtained Sleep Timer timing time information.

The terminal may obtain, before sending the information to be transmitted, the SR priority corresponding to the SR from the base station, or may obtain, after sending the information to be transmitted, the SR priority corresponding to the SR from the base station, which is not limited herein.

The method for starting the Sleep Timer is not limited in this embodiment, and may be set according to actual needs, which is not described herein again.

Further, as shown in fig. 3, if the information to be transmitted may include SRs corresponding to services to be transmitted, the terminal may send at least two pieces of information to be transmitted including the SRs in an inactive time period, after each piece of information to be transmitted is sent, the terminal respectively starts a Sleep Timer according to the Sleep Timer timing time information corresponding to each piece of information to be transmitted, that is, the terminal may simultaneously operate at least two Sleep timers, in this case, the terminal may use a Sleep Timer that is preferentially overtime as a reference, that is, when one Sleep Timer of the at least two Sleep timers is overtime, other Sleep timers terminate timing, so that the terminal may terminate timing of all Sleep timers earlier, and ensure that the terminal may receive the uplink authorization information sent by the base station earlier.

For example, as shown in fig. 3, after the terminal sends SR1 and SR2, Sleep Timer1 and Sleep Timer2 are respectively started, and since Sleep Timer1 expires earlier than the Sleep Timer, the terminal terminates the Timer of Sleep Timer2 after Sleep Timer1 expires, and enters an active state.

In the foregoing example, the specific steps of the terminal processing may include:

step one, judging whether a started Sleep Timer is overtime or not; step two, if the started Sleep Timer is overtime, judging whether a Sleep Timer which is timing currently exists or not; and thirdly, if the Sleep Timer which is currently counting time exists, stopping the Sleep Timer which is currently counting time.

Further optionally, in a Sleep Timer timing period, if the SR included in the to-be-transmitted information currently sent by the terminal is the same as the SR included in the to-be-transmitted information sent last time, the length of the timing time of the started Sleep Timer is 0 millisecond after the currently-sent to-be-transmitted information is sent.

That is to say, in the Sleep Timer timing period, the terminal sends the information to be transmitted containing the same SR, the terminal starts the Sleep Timer only after sending the information to be transmitted for the first time, and after sending the information to be transmitted containing the same SR later, the Sleep Timer is not started, so that the terminal can terminate the Sleep Timer timing earlier, and the terminal can receive the uplink authorization information sent by the base station earlier.

Further optionally, if the information to be transmitted includes a BSR and a service to be transmitted, and the BSR is a padding BSR or a periodic BSR, the length of the timing time of the Sleep Timer started after the terminal sends the information to be transmitted is 0 millisecond.

Further, the channel resources for transmitting the information to be transmitted may include, but are not limited to: a logical channel for transmitting information to be transmitted, or a group of logical channels for transmitting information to be transmitted, etc.

If the information to be transmitted includes the BSR and the service to be transmitted, execute step 207;

if the information to be transmitted includes the SR corresponding to the service to be transmitted, step 203 is executed, and after the step is completed, step 207 and step 203 may be executed at the same time, or step 207 and step 203 may be executed separately.

203. And judging whether uplink authorization information corresponding to the scheduling request is received or not, wherein the uplink authorization information comprises channel resources used for transmitting the service to be transmitted corresponding to the scheduling request by the terminal.

If the uplink authorization information corresponding to the SR is received, execute step 201; if the uplink grant information corresponding to the SR is not received, step 204 is executed.

204. And judging whether the times of the scheduling requests sent by the terminal are equal to a preset value or not.

The preset value is not limited in this embodiment, and may be set according to actual needs, for example, the preset value may be an integer greater than 0, and is not described herein again.

If the value is equal to the preset value, go to step 205; if not, go on to step 204.

205. Acquiring forbidden timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of channel resources used for transmitting the information to be transmitted from the prestored forbidden timer timing time information, wherein the prestored forbidden timer timing time information comprises at least one forbidden timer timing time information which is corresponding to the priority of the information to be transmitted and/or the priority of the channel resources used for transmitting the information to be transmitted and is used for describing the timing time length of the forbidden timer; or,

and acquiring the timing time information of the prohibition timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the base station.

The terminal may obtain, from the base station, SR-Prohibit Timer timing time information corresponding to a priority of the information to be transmitted and/or a priority of a channel resource used for transmitting the information to be transmitted before transmitting the information to be transmitted, or may obtain, from the base station, SR-Prohibit Timer timing time information corresponding to a priority of the information to be transmitted and/or a priority of a channel resource used for transmitting the information to be transmitted after transmitting the information to be transmitted.

As an implementation manner of this embodiment, the pre-stored SR-inhibit Timer timing information may be, but is not limited to, configured by the base station for the terminal, or configured by other devices, and is not limited herein.

206. And starting the prohibition timer according to the acquired time information of the prohibition timer.

In order to ensure the correctness and the integrity of the SR received by the base station, the terminal sends the same SR to the base station at least twice, that is, sends information to be transmitted containing the same SR at least twice, and when the number of times of sending the SR reaches the maximum number of times or the terminal receives uplink authorization information sent by the base station, the terminal does not send the SR identical to the SR to the base station any more.

Considering that there is a delay between the terminal sending the SR to the base station and the base station sending the uplink authorization information corresponding to the SR to the terminal, in order to reserve time for the base station sending the uplink authorization information to the terminal, the terminal sends the SR for a preset number of times to the base station and then starts the SR-inhibit Timer, and in the SR-inhibit Timer timing period, the terminal is prohibited from sending the SR to the base station, but can receive the uplink authorization information sent by the base station, so that the time interval between sending the same SRs is increased, the number of times that the terminal sends the SR to the base station before receiving the uplink authorization information is reduced, and meanwhile, electric energy can be saved.

The method includes that within a SR-Prohibit Timer timing time period, the transmitting power of a terminal can be reduced, the interference of an SR is reduced, only when the SR-Prohibit Timer is overtime, the terminal still does not receive uplink authorization information corresponding to the SR, and the maximum transmitting frequency of the SR is not reached, the terminal can send the same SR or the SR related to the SR which is sent last time to a base station again, and then the terminal can start the SR-Prohibit Timer again, so that the terminal receives the uplink authorization information until the SR reaches the maximum transmitting frequency or the terminal receives the uplink authorization information.

As an implementation manner of this embodiment, the following illustrates that the terminal starts the SR-inhibit Timer:

if the preset value is 3, the terminal starts the SR-inhibit Timer after transmitting the SR for every three times, and the terminal can start the SR-inhibit Timer after transmitting the SR for the third time and the sixth time. Optionally, the preset value may be any value greater than 0 according to actual needs.

The preset value provided by this embodiment may be configured for the terminal according to the priorities of different channel resources. Channel resources may include, but are not limited to: logical channels, groups of logical channels, etc.

For example, the terminal may configure a preset value for each logical channel group, and the preset values of different logical channel groups may be the same or different; the logical channel group may include at least one logical channel, and different logical channel groups may include the same number of logical channels or different numbers of logical channels, and each logical channel group may include logical channels of the same priority.

207. And after the Sleep Timer is overtime, the terminal starts the Inactivity Timer.

Because a certain time may be required for the information to be transmitted to reach the base station, the terminal starting the Sleep Timer is also used for delaying the starting of the Inactivity Timer, so that the Inactivity Timer is not started immediately after the terminal sends the information to be transmitted, and the Inactivity Timer is ensured not to be overtime too early.

During the time period of the Inactivity Timer, the terminal is in an active state, and the Inactivity Timer is used for prolonging the time length of the terminal in the active state, so that the terminal can send more information to be transmitted and can receive more channel commands, uplink authorization information and the like when the terminal has services to be transmitted during the time period of the Inactivity Timer, and the services can be transmitted earlier.

As shown in fig. 4, the schematic diagram is a state waveform of an Inactivity Timer started by a terminal after the Sleep Timer expires, where a time period of a higher waveform is a time period when the terminal is in an active state; the time period of the lower waveform is the time period in which the terminal is in the inactive state.

Further optionally, due to the uncertainty of the transmission scenario between the terminal and the base station, the base station may instruct the terminal not to determine the timing time of the Sleep Timer using the acquired Sleep Timer timing time information, but to separately configure another timing time for timing by the Timer, where the specific steps may include:

receiving timer indication information sent by a base station; the Timer indication information may include Sleep Timer specified timing time information and specified priority; and after the information to be transmitted with the designated priority is transmitted, starting a Sleep Timer according to the information of the Sleep Timer designated timing time, wherein the Sleep Timer timing time is the timing time described by the information of the Sleep Timer designated timing time.

In this embodiment, the content included in the designated timing information is not limited, and may be set according to actual needs, for example, the designated timing information of Inactivity Timer, the designated time information of SR-inhibit Timer, and the like may also be included, and details are not described herein again.

The embodiment provides another information processing method, where an execution subject of the method is a base station, as shown in fig. 5, the method may include the following steps:

501. configuring at least one piece of sleep timer timing time information corresponding to the priority of information to be transmitted of the terminal and/or the priority of channel resources for transmitting the information to be transmitted for the terminal, wherein the sleep timer timing time information is used for describing the timing time length of a sleep timer;

502. and sending the configured timing time information of the sleep timer to the terminal, so that the terminal starts the sleep timer after acquiring the timing time information of the sleep timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the configured timing time information of the sleep timer after sending the information to be transmitted.

After the scheme is adopted, the Sleep Timer is started according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after the terminal sends the information to be transmitted, the timing time length of the Sleep Timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the time delay requirement of the information to be transmitted is met as far as possible while the terminal saves electric energy, the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted are also considered, the base station is favorable for carrying out multi-user optimized scheduling integrally, and the QoS of the service to be transmitted and the user experience are improved.

As an improvement, the present embodiment provides another information processing method, where the main execution entity of the method is a base station, as shown in fig. 5, and the method may include the following steps:

501. and configuring at least one piece of sleep timer timing time information corresponding to the priority of the information to be transmitted of the terminal and/or the priority of the channel resource for transmitting the information to be transmitted for the terminal, wherein the sleep timer timing time information is used for describing the timing time length of the sleep timer.

After the terminal sends the information to be transmitted, a Sleep Timer is started, and the Sleep Timer timing time information is configured by the base station to which the terminal belongs.

And the base station configures at least one Sleep Timer timing time message which is corresponding to the priority of the information to be transmitted of the terminal and/or the priority of the channel resource for transmitting the information to be transmitted and is used for describing the timing time length of the Sleep Timer.

As an implementation manner of this embodiment, the higher the priority, the shorter the corresponding Sleep Timer counting time is; the lower the priority, the longer the corresponding Sleep Timer times.

For example, the priority may be represented by an integer greater than 0, with a larger value representing a lower priority; smaller values indicate higher priority. The priorities may be "0", "1" and "2", respectively, and the sleepttimer timing time corresponding to the priority of the base station configuration being "0" is "10 ms"; the Sleep Timer timing time corresponding to the priority level of 1 is 20 milliseconds; the Sleep Timer count time corresponding to the priority level of "2" is "30 msec".

Further optionally, the base station may also configure Sleep Timer timing time information for the information to be transmitted or the channel resource used for transmitting the information to be transmitted according to the time delay requirement information of the information to be transmitted.

Further optionally, the base station may also configure the Sleep Timer timing time information according to different ranges of the priority of the information to be transmitted and/or different ranges of the priority of the channel resource used for transmitting the information to be transmitted.

For example, the priority is in the range of 0 to 5, and the corresponding Sleep Timer count time is "10 ms"; the priority is in the range of 6 to 10, and the corresponding Sleep Timer counts for "20 ms".

Specifically, the following table shows:

priority level	Sleep Timer	Priority of SR
			0 to 5	10 milliseconds	0
6 to 10	20 milliseconds	6
			11 to 17	30 milliseconds	17

In this embodiment, the configuration mode of the Sleep Timer timing time and the value of the priority are not limited, and the Sleep Timer timing time may be configured according to actual needs, for example, the base station may also configure the Sleep Timer timing time according to the QoS requirement of the service to be transmitted, the network load, and the like, which is not described herein again.

Further, the information to be transmitted includes a BSR and a service to be transmitted; or, the information to be transmitted includes an SR corresponding to the service to be transmitted.

Further, if the information to be transmitted includes an SR corresponding to the service to be transmitted, the base station may also configure, for the terminal, at least one SR priority corresponding to a range in which the priority of the service to be transmitted corresponding to the SR is located.

For example, as shown in the above table, when the priority is in the range of 0 to 5, the SR priority is 0; when the priority is in the range of 6 to 10, the SR priority is 6; when the priority is in the range of 11 to 17, the SR priority is 17.

Further, the base station may also configure at least one SR priority corresponding to the priority of the to-be-transmitted service corresponding to the SR for the terminal.

As an implementation manner of this embodiment, if the priority is represented by an integer greater than 0, the correspondence between the SR priority configured by the base station and the Sleep Timer timing information is shown in the following table:

service to be transmitted	Priority level	Sleep Timer	SR priority
				Pending transmission service 1	0	10 milliseconds	0
Pending transmission service 2	1	20 milliseconds	1
				Pending transmission service 3	2	30 milliseconds	2

In this embodiment, the method for configuring the SR priority by the base station is not limited, and may be set according to actual needs, which is not described herein again.

In order to ensure the correctness and the integrity of the SR received by the base station, the terminal sends information to be transmitted containing the same SR at least twice to the base station, and when the number of times of sending the SR reaches the maximum number of times or the terminal receives uplink authorization information sent by the base station, the terminal does not send the SR which is the same as the SR to the base station any more.

Further, the base station configures at least one piece of SR-Prohibit Timer timing time information corresponding to the priority of the information to be transmitted of the terminal and/or the priority of the channel resource used for transmitting the information to be transmitted for the terminal, wherein the SR-Prohibit Timer timing time information is used for describing the timing time length of the SR-Prohibit Timer.

The function of the SR-Prohibit Timer is described in step 206 and will not be described further.

In this embodiment, the method for configuring the SR-Prohibit Timer timing information by the base station is not limited, and may be set according to actual needs, for example, the SR-Prohibit Timer timing information may be configured according to the load of the current channel resource, and the like, which is not described herein again.

502. And the base station sends the configured timing time information of the sleep timer to the terminal, so that the terminal starts the sleep timer after acquiring the timing time information of the sleep timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the configured timing time information of the sleep timer after sending the information to be transmitted.

Further, the base station sends the configured SR priority to the terminal, so that the terminal obtains the SR priority corresponding to the SR from the configured SR priority according to the priority of the service to be transmitted corresponding to the SR, and then starts the Sleep Timer according to the obtained SR priority.

Further, the base station sends the configured SR-Prohibit Timer timing time information to the terminal, so that the terminal acquires the SR-Prohibit Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from the configured SR-Prohibit Timer timing time information and then starts the SR-Prohibit Timer.

Further optionally, the Sleep Timer timing time information, and/or the SR priority, and/or the SR-Prohibit Timer timing time information configured by the base station may be actively configured and sent to the terminal before the terminal sends the information to be transmitted, or may be sent after being instructed to be configured after the terminal sends the information to be transmitted.

In this embodiment, the manner of configuring and sending the Sleep Timer timing information, and/or the SR priority, and/or the SR-Prohibit Timer timing information by the base station is not limited, and may be set according to actual needs, which is not described herein again.

The present embodiment provides a user terminal, as shown in fig. 6, which may include:

a sending unit 61, configured to send information to be transmitted;

the processing unit 62 is configured to start a Sleep Timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, where the length of the Sleep Timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted;

a Sleep Timer (Sleep Timer) 63, configured to time according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after the transmitting unit 61 transmits the information to be transmitted.

After the method is adopted, after the sending unit sends the information to be transmitted, the processing unit starts the Sleep Timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the timing time length of the Sleep Timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the terminal is ensured to save electric energy, meanwhile, the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted are also considered, the time delay requirement of the information to be transmitted is met as far as possible, the method is favorable for the base station to carry out multi-user optimized scheduling on the whole, and the QoS (quality of service) to be transmitted and the user experience are improved.

As an improvement of the embodiment, the present embodiment provides another user terminal, as shown in fig. 7, which may include:

a sending unit 71, configured to send information to be transmitted;

the processing unit 72 is configured to start a Sleep Timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, where the length of the Sleep Timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted;

a Sleep Timer (Sleep Timer) 73, configured to time according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after the sending unit sends the information to be transmitted.

Further, the processing unit 72 is further configured to acquire, from the pre-stored Sleep Timer timing information, Sleep Timer timing information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, where the pre-stored Sleep Timer timing information includes at least one Sleep Timer timing information that is corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted and is used for describing a Sleep Timer timing length; and starting the Sleep Timer according to the acquired Sleep Timer timing time information.

Further optionally, the processing unit 72 is further configured to obtain Sleep Timer timing time information, which is used for describing a Sleep Timer timing time length and corresponds to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, from the base station to which the terminal belongs; and starting the Sleep Timer according to the acquired Sleep Timer timing time information.

Further, the information to be transmitted includes the BSR and the service to be transmitted.

Further optionally, the information to be transmitted includes an SR corresponding to the service to be transmitted, where the SR is used to instruct the base station to which the terminal belongs to configure the channel resource used by the terminal to transmit the service to be transmitted corresponding to the SR.

Further, if the information to be transmitted includes an SR corresponding to the service to be transmitted, the processing unit 72 is further configured to obtain, according to the priority of the service to be transmitted corresponding to the SR, an SR priority corresponding to the SR from pre-stored SR priorities, where the pre-stored SR priority includes at least one SR priority corresponding to the priority of the service to be transmitted corresponding to the SR, configured by the base station; or, according to the priority of the service to be transmitted corresponding to the SR, acquiring the SR priority corresponding to the SR from the base station; and starting the Sleep Timer according to the acquired SR priority.

Further optionally, if the to-be-transmitted information includes an SR corresponding to the to-be-transmitted service, and in the timing period of the Sleep Timer, an SR included in the to-be-transmitted information currently sent by the terminal is the same as an SR included in the to-be-transmitted information sent last time, after the to-be-transmitted information is sent, the length of the timing time of the Sleep Timer started by the processing unit 72 is 0 millisecond.

Further optionally, if the to-be-transmitted information includes a BSR and a to-be-transmitted service, and the BSR is a padding BSR or a periodic BSR, after the terminal sends the to-be-transmitted information, the length of the timing time of the Sleep Timer started by the processing unit 72 is 0 millisecond.

Further, if the information to be transmitted includes an SR corresponding to the service to be transmitted, the processing unit 72 is further configured to determine whether uplink authorization information corresponding to the SR is received, where the uplink authorization information includes a channel resource used by the terminal to transmit the service to be transmitted corresponding to the SR;

if the terminal does not receive the uplink authorization information, the processing unit 72 determines whether the number of times of SR sent by the terminal is equal to a preset value; if the number of times is equal to the preset value, the processing unit 72 acquires SR-inhibit Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from the pre-stored SR-inhibit Timer timing time information, wherein the pre-stored SR-inhibit Timer timing time information includes at least one SR-inhibit Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted and used for describing the SR-inhibit Timer timing time length; or, acquiring SR-ProhibitTimer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the base station; and starting the SR-ProhibitTimer according to the acquired SR-Prohibit Timer timing time information.

A Prohibit Timer (SR-Prohibit Timer) 74, configured to time according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted.

Further, the processing unit 72 is further configured to determine whether a timeout occurs in the started Sleep Timer;

if the started Sleep Timer is overtime, the processing unit 72 determines whether a Sleep Timer which is currently timing exists;

if there is currently a Sleep Timer that is being timed, the processing unit 72 terminates the timing of the Sleep Timer that is currently being timed.

The present embodiment provides a base station, as shown in fig. 8, which may include:

the processing unit 81 is configured to configure at least one piece of Sleep Timer timing time information corresponding to a priority of information to be transmitted of the terminal and/or a priority of a channel resource used for transmitting the information to be transmitted for the terminal, where the Sleep Timer timing time information is used to describe a timing time length of a Sleep Timer;

a sending unit 82, configured to send the configured Sleep Timer timing time information to the terminal, so that the terminal starts a Sleep Timer timing time after acquiring the Sleep Timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from the configured Sleep Timer timing time information after sending the information to be transmitted.

Further, if the information to be transmitted includes an SR corresponding to the service to be transmitted, the processing unit 81 is further configured to configure at least one SR priority corresponding to the priority of the service to be transmitted corresponding to the SR for the terminal;

the sending unit 82 is further configured to send the configured SR priority to the terminal, so that the terminal obtains the SR priority corresponding to the SR from the configured SR priority according to the priority of the service to be transmitted corresponding to the SR, and then starts the Sleep Timer according to the obtained SR priority.

Further, the processing unit 81 is further configured to configure at least one SR-inhibit Timer timing time information corresponding to the priority of the to-be-transmitted information of the terminal and/or the priority of the channel resource used for transmitting the to-be-transmitted information for the terminal, where the SR-inhibit Timer timing time information is used to describe the timing time length of the SR-inhibit Timer;

the sending unit 82 is further configured to send the configured SR-inhibit Timer timing time information to the terminal, so that the terminal starts the SR-inhibit Timer after acquiring the SR-inhibit Timer timing time information corresponding to the priority of the to-be-transmitted information and/or the priority of the channel resource used for transmitting the to-be-transmitted information from the configured SR-inhibit Timer timing time information.

Through the above description of the embodiments, those skilled in the art will clearly understand that the present invention may be implemented by software plus necessary general hardware, and certainly may also be implemented by hardware, but in many cases, the former is a better embodiment. Based on such understanding, the technical solutions of the present invention may be substantially implemented or a part of the technical solutions contributing to the prior art may be embodied in the form of a software product, which is stored in a readable storage medium, such as a floppy disk, a hard disk, or an optical disk of a computer, and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device) to execute the methods according to the embodiments of the present invention.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A method of information processing, comprising:

the terminal sends information to be transmitted;

and the terminal starts a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the timing time length of the sleep timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, and no channel command is received within the timing time length of the sleep timer.

2. The method of claim 1, wherein the terminal starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted comprises:

the terminal acquires sleep timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of channel resources used for transmitting the information to be transmitted from prestored sleep timer timing time information, wherein the prestored sleep timer timing time information comprises at least one piece of sleep timer timing time information which is corresponding to the priority of the information to be transmitted and/or the priority of the channel resources used for transmitting the information to be transmitted and is used for describing the timing time length of a sleep timer;

and the terminal starts the sleep timer according to the acquired timing time information of the sleep timer.

3. The method according to claim 1, wherein before the terminal starts a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the method further comprises:

the terminal acquires sleep timer timing time information which is used for describing the timing time length of a sleep timer and corresponds to the priority of the information to be transmitted and/or the priority of channel resources used for transmitting the information to be transmitted from a base station to which the terminal belongs;

the terminal starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted comprises: and the terminal starts the sleep timer according to the acquired timing time information of the sleep timer.

4. The method of claim 1, wherein the information to be transmitted comprises buffer status report information and traffic to be transmitted.

5. The method according to claim 1, wherein the information to be transmitted includes a scheduling request corresponding to the service to be transmitted, and the scheduling request is used to instruct a base station to which the terminal belongs to configure channel resources used by the terminal to transmit the service to be transmitted corresponding to the scheduling request;

the terminal starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted comprises:

the terminal acquires a scheduling request priority corresponding to the scheduling request from prestored scheduling request priorities according to the priorities of the services to be transmitted corresponding to the scheduling requests, wherein the prestored scheduling request priorities comprise at least one scheduling request priority corresponding to the priority of the service to be transmitted corresponding to the scheduling request; or,

the terminal acquires the scheduling request priority corresponding to the scheduling request from the base station to which the terminal belongs according to the priority of the service to be transmitted corresponding to the scheduling request;

and the terminal starts the sleep timer according to the acquired scheduling request priority.

6. The method according to claim 5, wherein if the scheduling request included in the information to be transmitted currently sent by the terminal is the same as the scheduling request included in the information to be transmitted sent last time within the timing period of the sleep timer, the length of the timing time of the sleep timer started after the information to be transmitted currently sent is 0 ms.

7. The method according to claim 4, wherein if the buffer status report information is padding buffer status report information or periodic buffer status report information, the length of the sleep timer started after the information to be transmitted is sent is 0 ms.

8. The method according to claim 5 or 6, wherein after the terminal sends the information to be transmitted, the method further comprises:

the terminal judges whether uplink authorization information corresponding to the scheduling request is received or not, wherein the uplink authorization information comprises channel resources which are used for the terminal to transmit the service to be transmitted corresponding to the scheduling request;

if the terminal does not receive the uplink authorization information, the terminal judges whether the times of the scheduling request sent by the terminal are equal to a preset value or not;

if the times are equal to the preset value, the terminal acquires forbidden timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from prestored forbidden timer timing time information, wherein the prestored forbidden timer timing time information comprises at least one forbidden timer timing time information which is corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted and is used for describing the timing time length of the forbidden timer; or,

the terminal acquires the timing time information of a prohibition timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from the base station to which the terminal belongs;

and the terminal starts the prohibition timer according to the acquired information of the timing time of the prohibition timer.

9. The method according to any one of claims 1 to 5, wherein after the terminal starts a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted, the method further comprises:

the terminal judges whether the started sleep timer is overtime or not;

if the started sleep timer is overtime, the terminal judges whether a sleep timer which is timing currently exists or not;

and if the sleeping timer which is currently timing exists, the terminal terminates the timing of the sleeping timer which is currently timing.

10. A method of information processing, comprising:

and sending configured timing time information of the sleep timer to the terminal, so that the terminal starts the sleep timer after acquiring the timing time information of the sleep timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the configured timing time information of the sleep timer after sending the information to be transmitted, and the terminal does not receive a channel command within the timing time length of the sleep timer.

11. The method of claim 10, wherein the information to be transmitted comprises buffer status report information and traffic to be transmitted.

12. The method according to claim 10, wherein the information to be transmitted includes a scheduling request corresponding to a service to be transmitted, the method further comprising:

configuring at least one scheduling request priority corresponding to the priority of the service to be transmitted corresponding to the scheduling request for the terminal;

and sending the configured scheduling request priority to the terminal, so that the terminal can start the sleep timer according to the acquired scheduling request priority after acquiring the scheduling request priority corresponding to the scheduling request from the configured scheduling request priority according to the priority of the service to be transmitted corresponding to the scheduling request.

13. The method of information processing according to claim 10, 11 or 12, characterized by further comprising:

configuring at least one prohibit timer timing time information corresponding to the priority of information to be transmitted of the terminal and/or the priority of channel resources for transmitting the information to be transmitted for the terminal, wherein the prohibit timer timing time information is used for describing the timing time length of the prohibit timer;

and sending configured timing time information of the prohibition timer to the terminal, so that the terminal starts the prohibition timer after acquiring the timing time information of the prohibition timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the configured timing time information of the prohibition timer.

14. A user terminal, comprising:

a sending unit, configured to send information to be transmitted;

the processing unit is used for starting a sleep timer according to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted after the sending unit sends the information to be transmitted, and not receiving a channel command within the timing time length of the sleep timer, wherein the timing time length of the sleep timer is related to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted;

and the sleep timer is used for timing according to the timing time length of the sleep timer.

15. The user terminal of claim 14,

the processing unit is further configured to acquire sleep timer timing time information corresponding to the priority of the to-be-transmitted information and/or the priority of the channel resource used for transmitting the to-be-transmitted information from pre-stored sleep timer timing time information, where the pre-stored sleep timer timing time information includes at least one piece of sleep timer timing time information used for describing the length of sleep timer timing time corresponding to the priority of the to-be-transmitted information and/or the priority of the channel resource used for transmitting the to-be-transmitted information;

and starting the sleep timer according to the acquired timing time information of the sleep timer.

16. The user terminal of claim 14,

the processing unit is further configured to obtain, from the base station to which the terminal belongs, sleep timer timing time information for describing a length of sleep timer timing time corresponding to the priority of the information to be transmitted and/or the priority of a channel resource used for transmitting the information to be transmitted;

17. The ue of claim 14, wherein the information to be transmitted comprises buffer status report information and traffic to be transmitted.

18. The ue of claim 14, wherein the information to be transmitted includes a scheduling request corresponding to a service to be transmitted, and the scheduling request is used to instruct a base station to which the terminal belongs to configure channel resources used by the terminal to transmit the service to be transmitted corresponding to the scheduling request;

the processing unit is further configured to obtain a scheduling request priority corresponding to the scheduling request from pre-stored scheduling request priorities according to the priority of the service to be transmitted corresponding to the scheduling request, where the pre-stored scheduling request priorities include at least one scheduling request priority corresponding to the priority of the service to be transmitted corresponding to the scheduling request; or,

acquiring a scheduling request priority corresponding to the scheduling request from a base station to which a terminal belongs according to the priority of the service to be transmitted corresponding to the scheduling request;

and starting the sleep timer according to the acquired scheduling request priority.

19. The ue of claim 18, wherein if a scheduling request included in information to be transmitted currently sent by the terminal is the same as a scheduling request included in information to be transmitted sent last time within a timing period of the sleep timer, a timing length of the sleep timer started by the processing unit after the information to be transmitted currently sent is 0 ms.

20. The ue of claim 17, wherein if the buffer status report information is padding buffer status report information or periodic buffer status report information, the length of the sleep timer started by the processing unit after the transmission of the information to be transmitted is 0 ms.

21. The user terminal according to claim 18 or 19,

the processing unit is further configured to determine whether uplink authorization information corresponding to the scheduling request is received, where the uplink authorization information includes channel resources used by the terminal to transmit a service to be transmitted corresponding to the scheduling request;

if the terminal does not receive the uplink authorization information, judging whether the number of times of the scheduling request sent by the terminal is equal to a preset value or not;

if the times are equal to the preset value, acquiring forbidden timer timing time information corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from prestored forbidden timer timing time information, wherein the prestored forbidden timer timing time information comprises at least one forbidden timer timing time information which is corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted and is used for describing the timing time length of the forbidden timer; or,

acquiring the timing time information of a prohibition timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource for transmitting the information to be transmitted from the base station to which the terminal belongs;

starting the prohibition timer according to the acquired timing time information of the prohibition timer;

and the prohibition timer is used for timing according to the timing time information of the prohibition timer.

22. The user terminal according to any of claims 14 to 18,

the processing unit is also used for judging whether the started sleep timer is overtime or not;

if the started sleep timer is overtime, judging whether a sleep timer which is timing currently exists or not;

if the sleeping timer which is currently timing exists, the timing of the sleeping timer which is currently timing is terminated.

23. A base station, comprising:

the sending unit is used for sending configured timing time information of the sleep timer to the terminal, so that the terminal starts the sleep timer after acquiring the timing time information of the sleep timer corresponding to the priority of the information to be transmitted and/or the priority of the channel resource used for transmitting the information to be transmitted from the configured timing time information of the sleep timer after sending the information to be transmitted, and the terminal does not receive a channel command within the timing time length of the sleep timer.

24. The base station of claim 23, wherein the information to be transmitted comprises buffer status report information and traffic to be transmitted.

25. The base station of claim 23, wherein the information to be transmitted comprises a scheduling request corresponding to a service to be transmitted;

the processing unit is further configured to configure at least one scheduling request priority corresponding to the priority of the service to be transmitted corresponding to the scheduling request for the terminal;

the sending unit is further configured to send the configured scheduling request priority to the terminal, so that the terminal starts the sleep timer according to the obtained scheduling request priority after obtaining the scheduling request priority corresponding to the scheduling request from the configured scheduling request priority according to the priority of the service to be transmitted corresponding to the scheduling request.

26. The base station according to claim 23 or 24 or 25,

the processing unit is further configured to configure at least one prohibit timer timing time information corresponding to a priority of information to be transmitted of the terminal and/or a priority of a channel resource used for transmitting the information to be transmitted for the terminal, where the prohibit timer timing time information is used to describe a timing time length of a prohibit timer;

the sending unit is further configured to send configured prohibit timer timing time information to the terminal, so that the terminal starts the prohibit timer after obtaining the prohibit timer timing time information corresponding to the priority of the to-be-transmitted information and/or the priority of the channel resource used for transmitting the to-be-transmitted information from the configured prohibit timer timing time information.