CN103959864A - Signaling transmission method, and related device - Google Patents

Abstract

The present invention relates to the field of communications, and more particularly, to a signaling transmission method, and a related device. The method comprises: when a preference of a user equipment for power overhead changes to needing to reduce power overhead, determining whether a first timer for limiting transmission of a preference indication indicating reduction of power overhead times out, and if the determining result is yes, transmitting the preference indication indicating reduction of power overhead to a base station; and when the preference of the user equipment for power overhead changes to needing to increase power overhead, transmitting a preference indication indicating increase of power overhead to the base station, or determining whether a second timer for limiting transmission of a preference indication indicating increase of power overhead times out, and if the determining result is yes, transmitting the preference indication indicating increase of power overhead to the base station. The present invention can improve user experience.

Description

Signaling transmission method, and related device

Signaling method and relevant device

This application claims submit Patent Office of the People's Republic of China on August 6th, 2012, Application No. PCT/CN2012/079743, the priority of the PCT Patent Application of entitled " signaling method and relevant apparatus ", entire contents are hereby incorporated by reference in the application.Technical field

The present invention relates to the communications field, more particularly to a kind of signaling method and relevant device.Background technology

In 3GPP (3rd Generation Partnership Project, third generation partner program）EDDA (Enhancement on Diverse Data Applications, diversity data application enhancing) WI (Work Item, job）Standard discussion in, have agreed to：UE (User Equipment, user equipment）An instruction on UE power overhead preferences can be sent to eNB (evolved Node B, enode b)（power preference indication ).For example, when UE screen is closed, UE wishes that the state of more power saving can be operated in, therefore can ask to obtain the configuration of more power saving to eNB；And when UE wishes to recover default conditions, you can to ensure its QoS (Quality of Service, service quality）It is required that state when, UE can to eNB request return its default conditions, obtain guaranteed qos requirement configuration parameter.

In addition, the instruction of the power overhead preference can also be defined as asking the instruction of power overhead " high/low ".For example, when UE is to current DRX (Discontinuous Reception, discontinuous reception）When configuration is dissatisfied, UE can ask to reduce the configuration of power overhead, i.e., to the instruction that eNB sending values are " low "；Opposite, if UE wishes that UE can be to the instruction that eNB sending values are " height " when obtaining more preferable user's impression and not minding power overhead.Described " height " or " low " are a relative concept, i.e. UE can be asked continuously " height ", or continuous request " low ". For the frequent transmission of the instruction that limits the power overhead preference, cause unnecessary signaling consumption and increase UE power overhead, prior art proposes some restriction schemes, and one of which is the restriction scheme based on timer, and the mechanism includes：After UE have sent a power overhead preference instruction（It is " high to ask power overhead

/ it is low " instruction）, start a default timer, only after the timer expiry, could transmit power expense preference again instruction.

Can be the request of power optimization due to the instruction of UE power overhead preferences（Extend DRX cycle length, reduce power overhead）, or the request of performance boost（Shorten DRX cycle length, sacrifice power overhead to exchange the lifting of performance for, improve power overhead）.From both requests as can be seen that the urgency of UE request performance boosts else if the request of performance boost can not be quickly met, is then likely to result in the decline of user's impression higher than request power optimization.The content of the invention

In consideration of it, the present invention provides a kind of signaling method and relevant device, the preference for reducing power overhead is indicated and the preference of increase power overhead indicates to be handled differently, the experience of user is lifted.

First aspect present invention provides a kind of method for obtaining network information, it may include：

When user equipment is changed into the preference of power overhead to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead；

When user equipment is changed into the preference of power overhead to increase power overhead, the preference for sending increase power overhead to the base station is indicated, or judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.

With reference in a first aspect, in the first possible implementation, the user equipment includes default conditions With peak low-power expense state two states, then when user equipment is changed into the preference of power overhead to reduce power overhead, perform and judge whether first in default conditions judges user equipment, if the first judged result judged is yes, then the second whether overtime judgement of the first timer of the transmission of preference instruction of the execution judgement for limiting reduction power overhead, if the second judged result judged is yes, being sent to base station reduces the preference instruction of power overhead；

And when user equipment is changed into the preference of power overhead and need to increase power overhead, whether user equipment is judged in reduction power overhead state, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead；

And, when user equipment is changed into the preference of power overhead to increase power overhead, performing user equipment, whether the 3rd in reduction power overhead state judges, if the 3rd judged result judged is yes, perform for limit increase power overhead preference indicate transmission second timer whether time-out the 4th judgement, if the 4th judged result judged is yes, being sent to the base station increases the preference instruction of power overhead.

With reference to the first possible implementation of first aspect, in second of possible implementation, the user equipment judges that the determination methods of oneself state in which include：

The user equipment judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

Or, the user equipment judges that the determination methods of oneself state in which include：

The user equipment receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment is using drop When the corresponding noncontinuity of low-power expense state receives DRX parameters, then judge that the user equipment is in reduction power overhead state.

With reference to first aspect, the possible implementation of the first of first aspect, second of possible implementation of first aspect, in the third possible implementation, the transmission of the preference instruction for the protocol layer reduction power overhead that the protocol layer for being used for the preference instruction of transmission reduction power overhead when judging that the first timer is not overtime, in the user equipment notifies the preference for knowing the power overhead of user equipment to change is limited；Or,

When judging that the first timer is not overtime, the user equipment does not perform any operation.

With reference to first aspect, the possible implementation of the first of first aspect, second of possible implementation of first aspect, in the 4th kind of possible implementation, the transmission of the preference instruction for the protocol layer increase power overhead that the protocol layer for being used for the preference instruction of transmission increase power overhead when judging that the second timer is not overtime, in the user equipment notifies the preference for knowing the power overhead of user equipment to change is limited；Or,

When judging that the second timer is not overtime, user equipment does not perform any operation.

With reference in a first aspect, or first aspect the first possible implementation, or first aspect second of possible implementation, or the third possible implementation of first aspect, or the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation

After the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, in addition to：

When the user equipment includes first timer, start the first timer；

When the user equipment includes first timer and second timer, start the first timer and/or the second timer.

With reference to the 5th kind of possible implementation of first aspect, in the 6th kind of possible implementation, When the first timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, the user equipment can not be sent to the base station reduces the preference instruction of power overhead, until first timer time-out；

And, when the second timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, the user equipment can not be sent to the base station increases the preference instruction of power overhead, until second timer time-out.

With reference to the 5th kind of possible implementation of first aspect, in the 7th kind of possible implementation, when the first timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, the user equipment can not be sent to the base station reduces the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent；

And, when the second timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, the user equipment can not be sent to the base station increases the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent.

With reference to the 4th kind of possible implementation of first aspect to first aspect, in the 8th kind of possible implementation,

After the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, in addition to：

The user equipment receives the radio resource parameter that the base station is designated as the user device configuration according to the preference of the instruction of the preference of the reduction power overhead received or the increase power overhead. With reference to the 8th kind of possible implementation of first aspect, in the 9th kind of possible implementation, it is described be the user device configuration radio resource parameter after, in addition to：

When the user equipment includes first timer, start the first timer；

When the user equipment includes first timer and second timer, start the first timer and/or the second timer.

With reference to the 4th kind of possible implementation of first aspect to first aspect, in the tenth kind of possible implementation,

When base station judges that currently radio resource parameter configuration can not be updated as user equipment, the user equipment does not receive the response message that the base station is indicated the preference of the reduction power overhead or the preference for increasing power overhead is indicated.

With reference to the 9th kind of possible implementation of the 8th kind of possible implementation of first aspect, or first aspect, in a kind of the tenth possible implementation,

The user equipment receives the radio resource parameter that the base station is designated as the user device configuration according to the preference of the instruction of the preference of the reduction power overhead received or the increase power overhead, including：The user equipment receives the base station and passes through discontinuous reception DRX parameter and physical layer parameter of the RRM process for the user device configuration.

With reference to a kind of the tenth possible implementation of first aspect, in the 12nd kind of possible implementation, when the user equipment includes default conditions and reduction power overhead state two states, the user equipment receives the base station to be included by RRM process for the discontinuous reception DRX parameters and physical layer parameter of the user device configuration：

The user equipment receives the base station when RRM RRC connections are reconfigured, DRX parameters are received for described two sets of noncontinuities of user device configuration, and indicate user equipment configured information using the corresponding DRX parameters of reduction power overhead when carrying out RRM connection；And receive the base station DRX parameters are received according to two sets of noncontinuities, for two sets of physical layer parameters of the user device configuration, with instruction user equipment after progress RRM connection is reconfigured, the configured information of the corresponding physical layer parameter of the corresponding DRX parameters of reduction power overhead is used.

With reference to a kind of the tenth possible implementation of first aspect, in the 13rd kind of possible implementation, when the user equipment includes default conditions and reduction power overhead state two states, the user equipment receives the base station to be included by RRM process for the discontinuous reception DRX parameters and physical layer parameter of the user device configuration：

The user equipment receives the base station when RRM RRC connections are reconfigured, DRX parameters are received for described two sets of noncontinuities of user device configuration, and indicate user equipment configured information using the corresponding DRX parameters of increase power overhead when carrying out RRM connection；And the base station is received according to two sets of noncontinuities reception DRX parameters, for two sets of physical layer parameters of the user device configuration, with instruction user equipment after progress RRM connection is reconfigured, the configured information of the corresponding physical layer parameter of the corresponding DRX parameters of increase power overhead is used.

With reference to the 13rd kind of possible implementation of first aspect to first aspect, in the 14th kind of possible implementation, the length of the first timer is more than or equal to the length of the second timer.

With reference to the 5th kind of possible implementation of first aspect, or the tenth kind of possible implementation of first aspect, in the 15th kind of possible implementation, the length of the length of the first timer, the length of the second timer and the 3rd timer is set in advance in the user equipment；

Or, the length of the length of the first timer, the length of the second timer and the 3rd timer is assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.

Any in the 15th kind of possible implementation with reference to first aspect to first aspect, in the 16th kind of possible implementation, user equipment is changed into the preference of power overhead before need to reducing power overhead, Also include：

User equipment obtains the 4th timer；

During the length for the 4th timer for being then more than or equal to the user equipment when the time that the 4th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；

User equipment is changed into the preference of power overhead before need to increasing power overhead, in addition to：User equipment obtains the 5th timer；

During the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

With reference to the 16th kind of possible implementation of first aspect, in the 17th kind of possible implementation, the user equipment, which obtains the 4th timer, to be included：

The user equipment sets the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；

The user equipment, which obtains the 5th timer, to be included：

The user equipment sets the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

It is any in the 17th kind of possible implementation with reference to first aspect, in the 18th kind of possible implementation, the length of 4th timer is less than or equal to the length of the 6th timer, the user equipment is set according to the 6th timer before the 4th timer, in addition to：

The 6th timer is obtained from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, and the user sets Before standby the 5th timer according to the setting of the 7th timer, in addition to：

The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

It is any in the 18th kind of possible implementation with reference to first aspect, in the 19th kind of possible implementation, when obtaining four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When obtaining five timer from the base station, during the 5th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When obtaining six timer from the base station, during the 6th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When obtaining seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.

Second aspect of the present invention provides a kind of method for determining power overhead preference, and it may include：

User equipment obtains at least one of the 4th timer and the 5th timer；

When the 4th timer expiry of the user equipment or the user equipment predict the user equipment be in idle condition time be more than or equal to the user equipment the 4th timer length when, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；

During the length for the 5th timer for being less than or equal to the user equipment when the time that the estimated user equipment of the 5th timer expiry of the user equipment or the user equipment is in idle condition, the user is determined Equipment is changed into the preference of power overhead need to increase power overhead.

With reference to second aspect, in the first possible implementation, the user equipment, which obtains the 4th timer, to be included：

The user equipment sets the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；

The user equipment, which obtains the 5th timer, to be included：

The user equipment sets the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

With reference to the first possible implementation of second aspect, in second of possible implementation, the length of 4th timer is less than or equal to the length of the 6th timer, and the user equipment is set according to the 6th timer before the 4th timer, in addition to：

The 6th timer is obtained from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, and the user equipment is set according to the 7th timer before the 5th timer, in addition to：

The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

With reference to second of possible implementation of second aspect, in the third possible implementation, when obtaining four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When obtaining five timer from the base station, the 5th timer is carried in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information In any；

When obtaining six timer from the base station, during the 6th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When obtaining seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.

Third aspect present invention provides a kind of user equipment, and the user equipment is on the basis of including instruction sending module and the first control module, in addition at least one in the second control module and the 3rd control module：The instruction sending module, for being indicated to base-station transmitting-power expense preference, the power overhead indicates that the preference for including reducing power overhead indicates or increased that the preference of power overhead is indicated；

First control module, for when user equipment is changed into the preference of power overhead and need to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to base station to reduce the preference instruction of power overhead；

Second control module, the preference for increasing power overhead for when user equipment is changed into the preference of power overhead and need to increase power overhead, notifying the instruction sending module to be sent to the base station is indicated；Or, 3rd control module, for when user equipment is changed into the preference of power overhead and need to increase power overhead, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to the base station to increase the preference instruction of power overhead.

With reference to the third aspect, in the first possible implementation, the acquisition module sends external network information inquiring request specifically for the data-interface by being set up with second network equipment to second network equipment, And receive the Query Result information that second network equipment is returned according to the inquiry request.The user equipment includes default conditions and reduction power overhead state two states；The user equipment also includes the condition judgment module for being used to judge the user equipment state in which；

Then, first control module when user equipment is changed into the preference of power overhead specifically for that need to reduce power overhead, and the condition judgment module is when indicating that the user equipment is in default conditions, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to base station to reduce the preference instruction of power overhead；

And, second control module is specifically for when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module is when indicating the user equipment reduction power overhead state, notify the instruction sending module is sent to the base station to increase the preference of power overhead and indicate；

And, 3rd control module is specifically for when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module is when indicating the user equipment reduction power overhead state, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to the base station to increase the preference instruction of power overhead.

With reference to the first possible implementation of the third aspect, in second of possible implementation, the condition judgment module judges that the user equipment state in which includes：

The condition judgment module judges the user equipment state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

Or, the condition judgment module judges that the user equipment state in which includes：

The condition judgment module receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment uses the corresponding noncontinuity of default conditions When receiving DRX parameters, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in peak low-power expense state.

With reference to second of possible implementation of the third aspect to the third aspect, in the third possible implementation, first control module is additionally operable to when judging that the first timer is not overtime, indicates that the instruction sending module that the protocol layer that the preference for reducing power overhead is indicated is sent in the user equipment notifies the transmission for being used for the preference instruction for knowing the protocol layer reduction power overhead that the preference of the power overhead of user equipment changes in the user equipment to be limited；Or, when judging that the first timer is not overtime, indicate that the user equipment does not perform any operation.

With reference to second of possible implementation of the third aspect to the third aspect, in the 4th kind of possible implementation, 3rd control module is additionally operable to when judging that the second timer is not overtime, indicates that the transmission that the preference for the protocol layer increase power overhead that the protocol layer that the preference that increase power overhead is sent in the user equipment is indicated notifies the preference for knowing the power overhead of user equipment to change is indicated is limited；Or, when judging that the second timer is not overtime, indicate that the user equipment does not perform any operation.

With reference to the 4th kind of possible implementation of the third aspect to the third aspect, in the 5th kind of possible implementation, first timer management module, for including first timer when the user equipment, and after the instruction sending module have sent the instruction of power overhead preference to base station, start the first timer；And when the user equipment includes first timer and second timer, and the instruction sending module have sent after power overhead preference indicates to base station, start the first timer and/or the second timer.

With reference to the 5th kind of possible implementation of the third aspect, in the 6th kind of possible implementation, receiving module is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration；On the basis of including configuration receiving module, the user equipment also includes at least one in the 6th control module, the 7th control module, wherein； 6th control module, for when the first timer in the user equipment has not timed out, but the configuration receiving module receives radio resource parameter configuration result, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, notify the instruction sending module can not be sent before first timer time-out to the base station to reduce the preference of power overhead and indicate；

7th control module, for when the second timer in the user equipment has not timed out, but the configuration receiving module receives the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, notify the instruction sending module can not be sent before second timer time-out to the base station to increase the preference of power overhead and indicate.

With reference to the 5th kind of possible implementation of the third aspect, in the 7th kind of possible implementation, receiving module is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration；On the basis of including configuration receiving module, the user equipment also includes at least one in the 8th control module, the 9th control module, wherein；

8th control module, for being had timed out when the first timer in the user equipment, but the configuration receiving module does not receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, notify the instruction sending module can not be sent before the radio resource parameter configuration result that the base station is sent is received to the base station to reduce the preference of power overhead and indicate；

9th control module, for being had timed out when the second timer in the user equipment, but the configuration receiving module does not receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, notify the instruction sending module can not be sent before the radio resource parameter configuration result that the base station is sent is received to the base station to increase the preference of power overhead and indicate.

, should in the tenth kind of possible implementation with reference to the 5th kind of possible implementation of the third aspect User equipment also includes：Setup module, length, the length of the second timer for setting the first timer in the user equipment in advance.

With reference to the 5th kind of possible implementation of the third aspect, in a kind of the tenth possible implementation, the user equipment also includes：Length receiving module, for receiving the length that the base station is assigned to the length of the first timer, the length of the second timer and the 3rd timer of the user equipment.

Any in the tenth a kind of possible implementation with reference to the third aspect to the third aspect, in possible implementation in the 12nd, the user equipment also includes：

Timer acquisition module, for obtaining at least one of the 4th timer and the 5th timer；Indicate determining module, when being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

With reference to the 12nd kind of possible implementation of the third aspect, in possible implementation in the 13rd, the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

With reference to the 13rd kind of possible implementation of the third aspect, in possible implementation in the 14th, the length of the 4th timer is less than or equal to the length of the 6th timer, and described first obtains son Module is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

With reference to the 14th kind of possible implementation of the third aspect, in possible implementation in the 15th, the length of 4th timer is less than or equal to the 6th timer, second setup module is before the 4th timer is set, the timer receiving module obtains the 6th timer from the base station, or second setup module estimates the length of the 6th timer before the 4th timer is set by the message obtained from the base station；

The length of 5th timer is less than or equal to the 7th timer, second setup module is before the 5th timer is set, the timer receiving module obtains the 7th timer from the base station, or second setup module estimates the length of the 7th timer before the 5th timer is set by the message obtained from the base station.

With reference to the 15th kind of possible implementation of the third aspect, in possible implementation in the 16th, when first acquisition submodule obtains four timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 4th timer；

When second acquisition submodule obtains five timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 5th timer；

When first acquisition submodule obtains six timer from the base station, from the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information Any middle acquisition the 6th timer；

When second acquisition submodule obtains seven timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 7th timer.

Fourth aspect present invention provides a kind of user equipment, and it may include：

Timer acquisition module, for obtaining at least one of the 4th timer and the 5th timer；Indicate determining module, when being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

With reference to fourth aspect, in the first possible implementation, the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：

First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

With reference to the first possible implementation of fourth aspect, in second of possible implementation, the length of 4th timer is less than or equal to the length of the 6th timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station； The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

With reference to second of possible implementation of fourth aspect, in the third possible implementation, the length of 4th timer is less than or equal to the 6th timer, second setup module is before the 4th timer is set, the timer receiving module obtains the 6th timer from the base station, or second setup module estimates the length of the 6th timer before the 4th timer is set by the message obtained from the base station；

The length of 5th timer is less than or equal to the 7th timer, second setup module is before the 5th timer is set, the timer receiving module obtains the 7th timer from the base station, or second setup module estimates the length of the 7th timer before the 5th timer is set by the message obtained from the base station.

With reference to the third possible implementation of fourth aspect, in the 4th kind of possible implementation, when first acquisition submodule obtains four timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 4th timer；

When second acquisition submodule obtains five timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 5th timer；

When first acquisition submodule obtains six timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 6th timer；

When second acquisition submodule obtains seven timer from the base station, from base station hair It is any in the radio resource control message sent, physical layer message, data-link layer message, cell switching information middle to obtain the 7th timer.Fifth aspect present invention provides a kind of signaling sending control system, it may include any of above-mentioned user equipment of the present invention and base station, the base station is used to receive the power overhead preference instruction that the user equipment is sent, and be that the user equipment carries out radio resource parameter configuration by RRM process, the power overhead preference indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated.

With reference to the 5th aspect, in the first possible implementation, the base station is additionally operable to send at least one of the 4th timer, the 5th timer, the 6th timer, the 7th timer to the user equipment.

With reference to the first possible implementation of the 5th aspect to the 5th aspect, in second of possible implementation, when the user equipment includes default conditions and reduction power overhead state two states,

The base station is that the user equipment carries out radio resource parameter configuration by RRM process, and it includes：When RRM connection is set up, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicate the DRX parameters that the user equipment is used when carrying out RRM connection, wherein set of parameter is used to indicate that the user equipment is in default conditions, and another set of parameter is used to indicate that the user equipment is in reduction power overhead state；The base station receives DRX parameters according to different noncontinuities, is the corresponding two sets of physical layers of the user device configuration；

Or,

The base station is that the user equipment carries out radio resource parameter configuration by RRM process, and it includes：When RRM reconfiguration course is carried out, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicate the user equipment in the DRX parameters used after the completion of RRM is reconfigured, wherein set of parameter is used to indicate that the user equipment is in default conditions, and another set of parameter is used to indicate that the user equipment is in reduction power overhead state；The base station is according to different Noncontinuity receives DRX parameters, is the corresponding two sets of physical layers of the user device configuration.

Sixth aspect present invention provides a kind of computer-readable storage medium, and the computer-readable storage medium can have program stored therein, and the part or all of step for the signaling method that the present invention is provided is may include when being performed to program.

Seventh aspect present invention provides a kind of computer-readable storage medium, the computer-readable storage medium can have program stored therein, it may include that the part or all of step eighth aspect present invention for the determination power overhead preference that the present invention is provided provides a kind of user equipment when being performed to program, including：Input unit, output device and processor, wherein, the computing device following steps：

When user equipment is changed into the preference of power overhead to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, it indicates that the output device is sent to base station reduces the preference instruction of power overhead；

When user equipment is changed into the preference of power overhead to increase power overhead, indicating that the output device is sent to the base station increases the preference instruction of power overhead, or, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, indicating that the output device is sent to the base station increases the preference instruction of power overhead.

With reference to eighth aspect, in the first possible implementation, the user equipment includes default conditions and reduction power overhead state two states, then the processor is also executed the following steps：

When user equipment is changed into the preference of power overhead to reduce power overhead, perform and judge whether first in default conditions judges user equipment, if the first judged result judged is yes, then the second whether overtime judgement of the first timer of the transmission of preference instruction of the execution judgement for limiting reduction power overhead, if the second judged result judged is yes, indicating that the output device is sent to base station reduces the preference instruction of power overhead；

And when user equipment is changed into the preference of power overhead and need to increase power overhead, whether user equipment is judged in reduction power overhead state, if it is judged that be yes, the instruction output device is to described The preference that base station sends increase power overhead is indicated；

Or, when user equipment is changed into the preference of power overhead to increase power overhead, performing user equipment, whether the 3rd in reduction power overhead state judges, if the 3rd judged result judged is yes, perform for limit increase power overhead preference indicate transmission second timer whether time-out the 4th judgement, if the 4th judged result judged is yes, indicating that the output device is sent to the base station increases the preference instruction of power overhead.

With reference to the first possible implementation of eighth aspect, in second of possible implementation, the processor judges that the determination methods of the user equipment state in which include：

The processor judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

Or, the processor judges that the determination methods of the user equipment state in which include：The processor receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges the user equipment state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

With reference to second of possible implementation of eighth aspect to eighth aspect, in the third possible implementation, the processor is also executed the following steps：

When judging that the first timer is not overtime, the transmission that the preference for reducing power overhead in the user equipment for sending the protocol layer that the protocol layer that the preference of reduction power overhead is indicated notifies that the preference for knowing the power overhead of user equipment changes is indicated is notified to be limited； Or, when judging that the first timer is not overtime, notify the user equipment not perform any operation.

With reference to second of possible implementation of eighth aspect to eighth aspect, in the 4th kind of possible implementation, the processor is also executed the following steps：

When judging that the second timer is not overtime, the transmission that the preference for increasing power overhead in the user equipment for sending the protocol layer that the protocol layer that the preference of increase power overhead is indicated notifies that the preference for knowing the power overhead of user equipment changes is indicated is notified to be limited；

Or,

When judging that the second timer is not overtime, notifying user equipment does not perform any operation.

With reference to the 4th kind of possible implementation of eighth aspect to eighth aspect, in the 5th kind of possible implementation, after the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, the processor is also executed the following steps：

When the user equipment includes first timer, start the first timer；

When the user equipment includes first timer and second timer, start the first timer and the second timer.

With reference to the 5th kind of possible implementation of eighth aspect, in the 6th kind of possible implementation, the processor is also executed the following steps：

When the first timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, indicating that the output device can not be sent to the base station reduces the preference instruction of power overhead, until first timer time-out；

When the second timer in the user equipment has not timed out, the radio resource parameter configuration result that the base station is sent is received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, Indicating that the output device can not be sent to the base station increases the preference instruction of power overhead, until second timer time-out.

With reference to the 5th kind of possible implementation of eighth aspect, in the 7th kind of possible implementation, the processor is also executed the following steps：When the first timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, indicating that the output device can not be sent to the base station reduces the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent；

When the second timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, indicating that the output device can not be sent to the base station increases the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent.

With reference to the 7th kind of possible implementation of eighth aspect, in the 8th kind of possible implementation, the processor is also executed the following steps：

Receive the radio resource parameter configuration result that the base station is sent；

When the user equipment includes first timer, start the first timer；

When the user equipment includes first timer and second timer, start the first timer and the second timer.

With reference to the 8th kind of possible implementation of eighth aspect to eighth aspect, in the 9th kind of possible implementation, the length of the first timer is more than or equal to the length of the second timer.

With reference to the 5th kind of possible implementation of eighth aspect, in the tenth kind of possible implementation, the processor is also executed the following steps：

Length, the length of the second timer of the first timer are set in the user equipment in advance； Or, receive length, the length of the second timer that the first timer that is assigned to the user equipment is set up in process or RRM connection reconfiguration course by the base station in RRM connection.

In the tenth kind of possible implementation with reference to eighth aspect to eighth aspect, in a kind of the tenth possible implementation, the processor is also executed the following steps：Obtain the 4th timer；

During the length for the 4th timer for being then more than or equal to the acquisition when the time that the 4th timer expiry of the acquisition or the estimated user equipment of the user equipment are in idle condition, the processor, which determines that the user equipment is changed into the preference of power overhead, need to reduce power overhead；

Obtain the 5th timer；

During the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, the processor, which determines that the user equipment is changed into the preference of power overhead, need to increase power overhead.

In the tenth a kind of possible implementation with reference to eighth aspect, in the 12nd kind of possible implementation, the processor obtains the 4th timer the 4th timer of acquisition and specifically included：

The processor sets the 4th timer according to the 6th timer；Or, the processor obtains the 4th timer from the base station, the 6th timer is the timer set in the base station；

The processor obtains the 5th timer and specifically included：

The processor sets the 5th timer according to the 7th timer；Or, the processor obtains the 5th timer from the base station, the 7th timer is the timer set in the base station.

In the 12nd kind of possible implementation with reference to eighth aspect, in the 13rd kind of possible implementation, the length of 4th timer is less than or equal to the length of the 6th timer, the processor is set according to the 6th timer before the 4th timer, is also executed the following steps：

The 6th timer is obtained from the base station, or, estimated according to the message obtained from the base station The length of the 6th timer set in the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, and the processor sets before the 5th timer according to the 7th timer, also executed the following steps：

The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

In the 12nd kind of possible implementation with reference to eighth aspect, in the 13rd kind of possible implementation, when the processor obtains four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When the processor obtains five timer from the base station, during the 5th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When the processor obtains six timer from the base station, during the 6th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When the processor obtains seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead are limited respectively, compared with prior art is limited by same timer, more flexibly, the experience of user is improved. Brief description of the drawings

Fig. 1 is the schematic flow sheet of the first embodiment of the signaling method of the present invention；

Fig. 2 is the schematic flow sheet of the second embodiment of the signaling method of the present invention；

Fig. 3 is the schematic flow sheet of the 3rd embodiment of the signaling method of the present invention；

Fig. 4 is the schematic flow sheet of the fourth embodiment of the signaling method of the present invention；

Fig. 5 is the structure composition schematic diagram of the first embodiment of the user equipment of the present invention；

Fig. 6 is the structure composition schematic diagram of the second embodiment of the user equipment of the present invention；

Fig. 7 is the structure composition schematic diagram of the 3rd embodiment of the user equipment of the present invention；

Fig. 8 is the structure composition schematic diagram of the fourth embodiment of the user equipment of the present invention；

Fig. 9 sends an example structure composition schematic diagram of system for the signaling of the present invention；

Figure 10 is the structure composition schematic diagram of the 7th embodiment of the user equipment of the present invention.Specific embodiment

In some feasible embodiments of the present invention, when user equipment is changed into the preference of power overhead needs peak low-power expense, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead；When user equipment is changed into the preference of power overhead to increase power overhead, then being sent to the base station increases the preference instruction of power overhead；Or, when user equipment is changed into the preference of power overhead to increase power overhead, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.Limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, improve the experience of user. The embodiment of the present invention is described in further detail below in conjunction with accompanying drawing.

Fig. 1 is the schematic flow sheet of the first embodiment of the signaling method of the present invention.As shown in figure 1, it may include：

Step S10, when user equipment is changed into the preference of power overhead to reduce power overhead, judges whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, performs step Sll.

Step S11, the user equipment is sent to base station reduces the preference instruction of power overhead.

Step S12, when user equipment is changed into the preference of power overhead to increase power overhead, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, step sio and step S12 can be without sequencing, i.e. user equipment and are first changed into the preference of power overhead to need to increase power overhead, after be changed into and need to reduce power overhead.

In some feasible embodiments, before step S10, it may also include determining that user equipment need to reduce the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 4th timer；During the length for the 4th timer for being then more than or equal to the user equipment when the time that the 4th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；In some feasible embodiments, before step S12, it may also include determining that user equipment need to increase the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 5th timer, during the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 4th timer from the base station, User equipment can obtain the 5th timer from the base station, and the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when four timer expiry obtained in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 6th timer from the base station, user equipment can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In implementing, when user equipment obtains the length of the 6th timer length and the 7th timer from base station, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment oneself can estimate the length of the 6th timer and/or the 7th timer according to the message obtained from base station.Such as, UE, which has been performed, starts a timer after a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, Assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then user equipment can decide whether to record length of the length of above-mentioned timer for the 6th timer and the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release is either set up, length of the length of above-mentioned timer for the 6th timer and the 7th timer will not be recorded Deng, user equipment；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, user equipment can record length of the length of above-mentioned timer for the 6th timer and the 7th timer.

In implementing, when user equipment records the length of the 6th timer length and the 7th timer, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, and therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, it is assumed that the Six timers are 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In implementing, user equipment is changed into the preference of power overhead described in the foregoing determination of the embodiment of the present invention need to reduce power overhead, and/or determine that the user equipment can exist to the Preference Conversion of power overhead for that need to increase the flow of power overhead independently of the flow shown in Fig. 1.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission be to be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions (" default " state）With reduction power overhead state（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, in step S10, when user equipment is changed into the preference of power overhead to reduce power overhead, user equipment first determines whether whether oneself is in default conditions, if it is judged that being yes, then the first timer for limiting the transmission that the preference of reduction power overhead is indicated is determined whether（Can record as " T-Default ") it is whether overtime（I.e. timer is not run）, if it is judged that being yes, perform step Sl l.And in step S12, when user equipment is changed into the preference of power overhead to increase power overhead, judge oneself whether in reduction work( Rate expense state, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.In some feasible embodiments, user equipment judges that the determination methods of oneself state in which may include：

The user equipment judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the cycle can be received with the noncontinuity in user equipment（DRX cycle) length judge oneself state in which, when the presently configured DRX cycle of user equipment length be less than free time（IDLE) during state during DRX cycle length, then judge to lay oneself open to " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " ^ husband's states as threshold value, is only only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, in step S10, when user equipment uses the corresponding DRX cycle of " default " state length, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S12, when user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then user equipment is sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the user equipment judges the determination methods of oneself state in which It may include：

The user equipment receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

In some feasible embodiments, the corresponding noncontinuity of default conditions can be received DRX parameters noncontinuity corresponding with reduction power overhead state simultaneously and receive DRX parameters while being allocated to user equipment by base station, and be prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate which set DRX parameter UE uses when entering RRC connection status by explicit mode（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters and user equipment are current The DRX parameters used are identical, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, in step S10, when user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, it would be desirable to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S12, when user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, that is reinforcement mouthful power overhead, then user equipment sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, in step S10, when user equipment is changed into the preference of power overhead to reduce power overhead, directly judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead.And in step S12, when user equipment is changed into the preference of power overhead to increase power overhead, then directly being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, optionally, when step S10 judge the first timer whether time-out judged result to be no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " send and timer management operation protocol layer be called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, the length of the first timer is set in advance in the user equipment.

In some feasible embodiments, the length of the first timer is assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.

In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

Therefore, in some feasible embodiments of the present invention, user is limited by first timer The transmission that equipment is indicated the preference for reducing power overhead, and the transmission indicated the preference for increasing power overhead is not limited, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.And, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, demand of the user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.

Fig. 2 is the schematic flow sheet of the second embodiment of the signaling method of the present invention.It is the extension of first embodiment, as shown in Fig. 2 it may include：

Step S20, when user equipment is changed into the preference of power overhead to reduce power overhead, judges whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, performs step S21.

Step S21, the user equipment is sent to base station reduces the preference instruction of power overhead.

Step S22, when user equipment is changed into the preference of power overhead to increase power overhead, judges whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, performs step S23.

Step S23, the user equipment is sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, step S20 and step S22 can be without sequencing, i.e. user Equipment the preference of power overhead is first changed into need increase power overhead, after be changed into need reduce power overhead.

In some feasible embodiments, before step S20, it may also include determining that user equipment need to reduce the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 4th timer；During the length for the 4th timer for being then more than or equal to the user equipment when the time that the 4th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；In some feasible embodiments, before step S22, it may also include determining that user equipment need to increase the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 5th timer, during the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 4th timer from the base station, user equipment can obtain the 5th timer from the base station, and the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when four timer expiry obtained in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead. In some feasible embodiments, user equipment can obtain the 6th timer from the base station, user equipment can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In implementing, when user equipment obtains the length of the 6th timer length and the 7th timer from base station, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment oneself can estimate the length of the 6th timer and/or the 7th timer according to the message obtained from base station.Such as, UE starts a timer after having performed a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then user equipment can decide whether to record length of the length of above-mentioned timer for the 6th timer and the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release is either set up, length of the length of above-mentioned timer for the 6th timer and the 7th timer will not be recorded Deng, user equipment；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, user equipment can record length of the length of above-mentioned timer for the 6th timer and the 7th timer.

In implementing, when user equipment records the length of the 6th timer length and the 7th timer, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, institute The length of 5th timer of setting is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, and therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In implementing, user equipment is changed into the preference of power overhead described in the foregoing determination of the embodiment of the present invention need to reduce power overhead, and/or determine that the user equipment can exist to the Preference Conversion of power overhead for that need to increase the flow of power overhead independently of the flow shown in Fig. 2. In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission be to be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions (" default " state）With reduction power overhead state（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, in step S20, when user equipment is changed into the preference of power overhead to reduce power overhead, user equipment first determines whether whether oneself is in default conditions, if it is judged that being yes, then the first timer for limiting the transmission that the preference of reduction power overhead is indicated is determined whether（Can record as " T-Default ") it is whether overtime（I.e. timer is not run）, if it is judged that being yes, perform step S21.And in step S22, when user equipment is changed into the preference of power overhead to increase power overhead, whether oneself is judged in reduction power overhead state, if it is judged that being yes, is then determined whether for limiting the second timer that the preference of increase power overhead is indicated（Can record as " T-LowerPower ") it is whether overtime, if the judgment is Yes, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, user equipment judges that the determination methods of oneself state in which may include：

The user equipment judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the cycle can be received with the noncontinuity in user equipment（DRX cycle) length judge oneself state in which, when the presently configured DRX cycle of user equipment length is less than It is idle（IDLE) during state during DRX cycle length, then judge to lay oneself open to " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " ^ husband's states as threshold value, is only only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, in step S20, when user equipment uses the corresponding DRX cycle of " default " state length, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S22, when user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then user equipment is sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the user equipment judges that the determination methods of oneself state in which may include：

The user equipment receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

In some feasible embodiments, the corresponding noncontinuity of default conditions can be received DRX parameters noncontinuity corresponding with reduction power overhead state simultaneously and receive DRX parameters while being allocated to user by base station Equipment, and the corresponding state of parameter described in user is prompted to either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate which set DRX parameter UE uses when entering RRC connection status by explicit mode（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters are identical with the DRX parameters that user equipment is currently used, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, in step S20, when user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, it would be desirable to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S22, when user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, improving performance is wished to, that is, is increased Plus power overhead, then on the premise of second timer time-out is met, user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, in step S20, when user equipment is changed into the preference of power overhead to reduce power overhead, directly judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead.And in step S22, when user equipment is changed into the preference of power overhead to increase power overhead, directly judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, optionally, when step S20 judge the first timer whether time-out judged result to be no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If user equipment is for power The judgement of preference performs " power preference indication " transmission and the operation of timer management in same protocol layer with user equipment,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, optionally, when step S22 judge the second timer whether time-out judged result to be no when, i.e. second timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after second timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of increase power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send increase power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer, (protocol layer is just no longer specifically defined herein, executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, the length of the first timer and the second timer can be set in advance in the user equipment.

In some feasible embodiments, the length of the length of the first timer and the second timer can be assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course. In some feasible embodiments, the length of the first timer is longer than or equal to the length of the second timer.

In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, the transmission that user is indicated the preference for increasing power overhead is limited by second timer, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.And, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, and has more effectively coordinated user equipment To the demand of power preference, it is ensured that user equipment is adjusted within the most short time to power preference.Fig. 3 is the schematic flow sheet of the 3rd embodiment of the signaling method of the present invention, and the embodiment is the extension carried out on the basis of second embodiment.As shown in figure 3, it may include：

Step S30, when user equipment is changed into the preference of power overhead to reduce power overhead, judges whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, performs step S31.

Step S31, the user equipment is sent to base station reduces the preference instruction of power overhead.

Step S32, when user equipment is changed into the preference of power overhead to increase power overhead, judges whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, performs step S33.

Step S33, the user equipment is sent to the base station increases the preference instruction of power overhead.

Step S34, the user equipment starts the first timer and/or the second timer.

In some feasible embodiments, step o and step S32 can be without sequencing, i.e. user equipment and are first changed into the preference of power overhead to need to increase power overhead, after be changed into and need to reduce power overhead.Wherein step 34 and step 30, step 31, the order of step 32 and step 33 is：Step 31, step 30, step 34;Or step 32, step 33, step 34.After i.e. each user equipment is indicated to the base-station transmitting-power expense preference, it is required for performing step 34, the power overhead preference but regardless of the transmission is designated as reduction or increased.

In some feasible embodiments, before step S30, it may also include determining that user equipment need to reduce the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 4th timer；During the length for the 4th timer for being then more than or equal to the user equipment when the time that the 4th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead； In some feasible embodiments, before step S32, it may also include determining that user equipment need to increase the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 5th timer, during the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 4th timer from the base station, user equipment can obtain the 5th timer from the base station, and the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when four timer expiry obtained in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 6th timer from the base station, user equipment can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In implementing, when user equipment obtains the length of the 6th timer length and the 7th timer from base station, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than being equal to The length of 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment oneself can estimate the length of the 6th timer and/or the 7th timer according to the message obtained from base station.Such as, UE starts a timer after having performed a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then user equipment can decide whether to record length of the length of above-mentioned timer for the 6th timer and the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release is either set up, length of the length of above-mentioned timer for the 6th timer and the 7th timer will not be recorded Deng, user equipment；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, user equipment can record length of the length of above-mentioned timer for the 6th timer and the 7th timer.

In implementing, when user equipment records the length of the 6th timer length and the 7th timer, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, herein not Repeat, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In implementing, user equipment is changed into the preference of power overhead described in the foregoing determination of the embodiment of the present invention need to reduce power overhead, and/or determine that the user equipment can exist to the Preference Conversion of power overhead for that need to increase the flow of power overhead independently of the flow shown in Fig. 3.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission be to be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions (" default " state）With reduction power overhead state（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, be only capable of " default " state of return is sent to base station（Increase power overhead）Preference indicate.Now, in step S30, when user equipment is changed into the preference of power overhead to reduce power overhead, user equipment first determines whether whether oneself is in default conditions, if it is judged that being yes, then the first timer for limiting the transmission that the preference of reduction power overhead is indicated is determined whether（Can record as " T-Default ") it is whether overtime（I.e. timer is not run）, if it is judged that being yes, perform step S31.And in step S32, when user equipment is changed into the preference of power overhead to increase power overhead, whether oneself is judged in reduction power overhead state, if it is judged that being yes, is then determined whether for limiting the second timer that the preference of increase power overhead is indicated（Can record as " T-LowerPower ") it is whether overtime, if the judgment is Yes, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, user equipment judges that the determination methods of oneself state in which may include：

The user equipment judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the cycle can be received with the noncontinuity in user equipment（DRX cycle) length judge oneself state in which, when the presently configured DRX cycle of user equipment length be less than free time（IDLE) during state during DRX cycle length, then judge to lay oneself open to " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " ^ husband's states as threshold value, is only only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, in step S30, when user equipment uses the corresponding DRX cycle of " default " state length, i.e., when user equipment is in " default " state, if the power preference of user equipment changes, it would be desirable to drop Low-power expense, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S32, when user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then user equipment is sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the user equipment judges that the determination methods of oneself state in which may include：

The user equipment receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

In some feasible embodiments, the corresponding noncontinuity of default conditions can be received DRX parameters noncontinuity corresponding with reduction power overhead state simultaneously and receive DRX parameters while being allocated to user equipment by base station, and be prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate which set DRX parameter UE uses when entering RRC connection status by explicit mode（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, used " default " when entering RRC connection status The corresponding DRX parameters of state.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters are identical with the DRX parameters that user equipment is currently used, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, in step S310, when user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, it would be desirable to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " ower preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S32, when user equipment is being used

During the corresponding DRX parameters of " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then on the premise of second timer time-out is met, user equipment is sent to base station

" power preference indication ", request uses the corresponding DRX parameter configurations of " default " ^ husband's states.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, in step S30, when user equipment is changed into the preference of power overhead to reduce power overhead, directly judge for limiting the inclined of reduction power overhead Whether the first timer of the transmission indicated well is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead.And in step S32, when user equipment is changed into the preference of power overhead to increase power overhead, directly judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, optionally, when step S30 judge the first timer whether time-out judged result to be no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, optionally, when step S32 judge the second timer whether time-out judged result to be no when, i.e. second timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, the user equipment can be claimed to perform " power preference The protocol layer of indication " transmissions and the operation of timer management is AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after second timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of increase power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send increase power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer, (protocol layer is just no longer specifically defined herein, executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, the length of the first timer and the second timer can be set in advance in the user equipment.

In some feasible embodiments, the length of the length of the first timer and the second timer can be assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.

In some feasible embodiments, the length of the first timer is longer than or equal to the length of the second timer.

In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, power is reduced when the user equipment is sent to base station After the preference instruction of expense, the base station judges whether current can be that the user equipment updates radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

, can be with some feasible embodiments " when user equipment is changed into the preference of power overhead to increase power overhead, sent to the base station increase the preference of power overhead indicate " step replacement step

S32 and step S33.Now, step S34 can be replaced：The user equipment starts the first timer.

In some feasible embodiments, when user equipment includes two kinds of clear states, in step S34, when user equipment is in default conditions, it can only start first timer；When user equipment is in reduction power overhead state, it can only start second timer.If the user equipment only includes first timer, when judging that user is in reduction power overhead state in step S34, without starting timer.If user equipment is not by state limit, first timer and second timer can be started simultaneously in step S34；If the user equipment only includes first timer, first timer is only started in step S34.When user equipment starts two timers simultaneously, if user equipment requests send new power overhead preference and met after the transmission of transmission condition, if there is a timer still after operation is, it is necessary to stop the timer in two timers, then start first timer and second timer simultaneously.In the present embodiment and follow-up each embodiment, the present invention signified " startups " include the startup of first time and subsequently timer be zeroed out after restarting.

In some feasible embodiments, optionally, after step S34 is being performed, the first timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, the user equipment can not send to the base station and reduce the preference of power overhead and indicate, until receiving the radio resource parameter configuration result that the base station is sent.

In some feasible embodiments, optionally, after step S34 is being performed, the second timer in the user equipment has timed out, but does not receive the radio resource parameter configuration that the base station is sent As a result, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, the user equipment can not be sent to the base station increases the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent.

In some feasible embodiments, optionally, after step S34 is being performed, when the first timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, the user equipment can not send to the base station and reduce the preference of power overhead and indicate, until first timer time-out.

In some feasible embodiments, optionally, after step S34 is being performed, when the second timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, the user equipment can not be sent to the base station to be increased the preference of power overhead and indicates, until second timer time-out.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, the transmission that user is indicated the preference for increasing power overhead is limited by second timer, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.And, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, and has more effectively coordinated user equipment To the demand of power preference, it is ensured that user equipment is adjusted within the most short time to power preference.Fig. 4 is the schematic flow sheet of the fourth embodiment of the signaling method of the present invention, and the embodiment is the extension carried out on the basis of second embodiment.As shown in figure 4, it may include：

Step S40, when user equipment is changed into the preference of power overhead to reduce power overhead, judges whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, performs step S41.

Step S41, the user equipment is sent to base station reduces the preference instruction of power overhead.

Step S42, when user equipment is changed into the preference of power overhead to increase power overhead, judges whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, performs step S43.

Step S43, the user equipment is sent to the base station increases the preference instruction of power overhead.

Step S44, the base station is indicated according to the preference of the reduction power overhead received or the preference of the increase power overhead is indicated, is the user device configuration radio resource parameter.

Step S45, the user equipment receives the radio resource parameter configuration result that the base station is sent.Step S46, the user equipment starts the first timer and/or the second timer.

In some feasible embodiments, step S40 and step S42 can be without sequencing, i.e. user equipment and are first changed into the preference of power overhead to need to increase power overhead, after be changed into and need to reduce power overhead.Wherein step 44 step 46 and step 40, step 41, the order of step 42 and step 43 is：Step 41, step 40, step 44 step 46;Or step 42, step 43, step 44 step 46.I.e. each user equipment is received after the radio resource parameter configuration result that the base station is sent, and is required for performing step 44 step 46, and the power overhead preference but regardless of the transmission is designated as reduction or increased.

In some feasible embodiments, before step S40, it may also include determining that user equipment need to reduce the flow of power overhead to whether the preference of power overhead is changed into, it may include： User equipment obtains the 4th timer；During the length for the 4th timer for being then more than or equal to the user equipment when the time that the 4th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；In some feasible embodiments, before step S42, it may also include determining that user equipment need to increase the flow of power overhead to whether the preference of power overhead is changed into, it may include：

User equipment obtains the 5th timer, during the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 4th timer from the base station, user equipment can obtain the 5th timer from the base station, and the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when four timer expiry obtained in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the 6th timer from the base station, user equipment can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, when user equipment from base station obtains the During the length of six timer lengths and the 7th timer, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment oneself can estimate the length of the 6th timer and/or the 7th timer according to the message obtained from base station.Such as, UE starts a timer after having performed a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then user equipment can decide whether to record length of the length of above-mentioned timer for the 6th timer and the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release is either set up, length of the length of above-mentioned timer for the 6th timer and the 7th timer will not be recorded Deng, user equipment；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, user equipment can record length of the length of above-mentioned timer for the 6th timer and the 7th timer.

In implementing, when user equipment records the length of the 6th timer length and the 7th timer, 4th timer can be set in a user device according to the 6th timer, and the 5th timer is set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when four timer expiry set in user equipment, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when five timer expiry that user equipment is set, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead. In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, and therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In implementing, user equipment is changed into the preference of power overhead described in the foregoing determination of the embodiment of the present invention need to reduce power overhead, and/or determine that the user equipment can exist to the Preference Conversion of power overhead for that need to increase the flow of power overhead independently of the flow shown in Fig. 4.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission be to be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions (" default " state）With reduction power overhead state（" lower power consumption " state）Two The state of kind, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）, preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, in step S40, when user equipment is changed into the preference of power overhead to reduce power overhead, user equipment first determines whether whether oneself is in default conditions, if it is judged that being yes, then the first timer for limiting the transmission that the preference of reduction power overhead is indicated is determined whether（Can record as " T-Default ") it is whether overtime（I.e. timer is not run）, if it is judged that being yes, perform step S41.And in step S42, when user equipment is changed into the preference of power overhead to increase power overhead, whether oneself is judged in reduction power overhead state, if it is judged that being yes, is then determined whether for limiting the second timer that the preference of increase power overhead is indicated（Can record as " T-LowerPower ") it is whether overtime, if the judgment is Yes, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, user equipment judges that the determination methods of oneself state in which may include：

The user equipment judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the cycle can be received with the noncontinuity in user equipment（DRX cycle) length judge oneself state in which, when the presently configured DRX cycle of user equipment length be less than free time（IDLE) during state during DRX cycle length, then judge to lay oneself open to " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " ^ husband's states as threshold value, only It is only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, in step S40, when user equipment uses the corresponding DRX cycle of " default " state length, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S42, when user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then user equipment is sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the user equipment judges that the determination methods of oneself state in which may include：

The user equipment receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

In some feasible embodiments, the corresponding noncontinuity of default conditions can be received DRX parameters noncontinuity corresponding with reduction power overhead state simultaneously and receive DRX parameters while being allocated to user equipment by base station, and be prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate that UE is entering RRC by explicit mode Any set DRX parameter is used during connection status（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters are identical with the DRX parameters that user equipment is currently used, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, in step S40, when user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, it would be desirable to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.And in step S42, when user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then on the premise of second timer time-out is met, user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication "), include the preference instruction and the preference instruction of increase power overhead of reduction power overhead）Hair Sending can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, and the preference that power overhead can be transmitted is indicated to base station.Now, in step S40, when user equipment is changed into the preference of power overhead to reduce power overhead, directly judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead.And in step S42, when user equipment is changed into the preference of power overhead to increase power overhead, directly judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, optionally, when step S40 judge the first timer whether time-out judged result to be no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, optionally, when step S42 judges whether the second timer surpasses When judged result for it is no when, i.e. second timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the AS layers of user equipment can notify upper layer, " power preference indication " sends limited.And after second timer is overtime, the AS layers of user equipment can also notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of increase power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send increase power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer, (protocol layer is just no longer specifically defined herein, executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, in step_S44, after the preference that base station receives reduction power overhead is indicated, power overhead will be reduced（" lower power consumption ") the corresponding DRX parameters of state and physical layer parameter configuration（Such as CQI, Sounding) user equipment is given, its way can be as follows：

When RRC connections are reconfigured, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicates that the user equipment uses " lower power consumption " corresponding DRX parameters when carrying out RRM connection；And the base station receives DRX parameters according to two sets of noncontinuities, for described two sets of physical layer parameters of user device configuration, and instruction user equipment uses the corresponding physical layer parameter of " lower power consumption " corresponding DRX parameters when carrying out RRM connection.

In some feasible embodiments, in step_S44, after the preference that base station receives increase power overhead is indicated, power overhead will be increased（" default ") the corresponding DRX parameters of state and physical layer parameter configuration (such as CQI, Sounding) gives user equipment, and its way can be as follows：

When RRC connections are reconfigured, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicates that the user equipment uses " default " corresponding DRX parameters when carrying out RRM connection；And the base station receives DRX parameters according to two sets of noncontinuities, for described two sets of physical layer parameters of user device configuration, and instruction user equipment uses the corresponding physical layer parameter of " default " corresponding DRX parameters when carrying out RRM connection.

In some feasible embodiments, setting of the base station to DRX parameters includes the setting of DRX cycle length, after the preference for receiving reduction power overhead is indicated, DRX cycle length can be set smaller than in IDLE state DRX cycle length.After the preference for receiving increase power overhead is indicated, DRX cycle length can be set greater than or equal to IDLE state DRX cycle length.

In some feasible embodiments, the state that user equipment can also be presently in by judgement is come DRX parameters used in implicit determination：Current user equipment is in " default " state, if base station is not explicitly indicated user equipment transition state, user equipment uses the DRX parameters of new correspondence " default " state；Otherwise, current user equipment is in " lower power consumption " state, if base station is not explicitly indicated user equipment transition state, user equipment uses the DRX parameters of new correspondence " lower power consumption " state.

In some feasible embodiments, the length of the first timer and the second timer can be set in advance in the user equipment.

In some feasible embodiments, the length of the length of the first timer and the second timer can be assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.

In some feasible embodiments, the length of the first timer is longer than or equal to the length of the second timer. In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

, can be with some feasible embodiments " when user equipment is changed into the preference of power overhead to increase power overhead, sent to the base station increase the preference of power overhead indicate " step replacement step

S42 and step S43.Now, step S46 can be replaced：The user equipment starts the first timer.

In some feasible embodiments, when user equipment includes two kinds of clear states, in step S46, when user equipment is in default conditions, it can only start first timer；When user equipment is in reduction power overhead state, it can only start second timer.If the user equipment only includes first timer, when judging that user is in reduction power overhead state in step S46, without starting timer.If user equipment is not by state limit, first timer and second timer can be started simultaneously in step S46；If the user equipment only includes first timer, first timer is only started in step S46.When user equipment starts two timers simultaneously, if user equipment requests send new power overhead preference and met after the transmission of transmission condition, if there is a timer still after operation is, it is necessary to stop the timer in two timers, then start first timer and second timer simultaneously.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, user is limited to increase power by second timer The transmission that the preference of expense is indicated, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.And, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, demand of the user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.

For each scheme for the embodiment of the method for more preferably implementing the present invention, the embodiment of the present invention additionally provides relevant apparatus.Structure composition schematic diagram, as shown in figure 5, the present invention user equipment may include indicate sending module 700, the first control module 701, the second control module 702, wherein：

Sending module 700 is indicated, for being indicated to base-station transmitting-power expense preference, the power overhead indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated.

First control module 701, for when user equipment is changed into the preference of power overhead and need to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 700 is sent to base station to reduce the preference instruction of power overhead.

Second control module 702, for work(need to be increased when user equipment is changed into the preference of power overhead During rate expense, notify the instruction sending module is sent to the base station to increase the preference instruction of power overhead.In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions（" default " ^ dog states）With peak [third constellations power overhead ^ dog states（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, the user equipment of the optional present invention also includes condition judgment module 704, for judging the user equipment state in which.First control module 701 is when user equipment is changed into the preference of power overhead and need to reduce power overhead, and the condition judgment module 704 indicate the user equipment be in default conditions when, judge for limit reduction power overhead preference instruction transmission first timer（Can record as " T-Default ") whether time-out (i.e. timer is not run）, if it is judged that being yes, then notify the instruction sending module 700 is sent to base station to reduce the preference instruction of power overhead.And second control module 702 when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module 704 is when indicating user equipment reduction power overhead state, notify the instruction sending module 700 is sent to the base station to increase the preference of power overhead and indicate.

In some feasible embodiments, condition judgment module 704 judges that the determination methods of user equipment state in which may include：

The condition judgment module 704 judges user equipment state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then the use is judged Family equipment is in reduction power overhead state.Such as, condition judgment module 704 can receive the cycle with the noncontinuity in user equipment（DRX cycle) length judge the user equipment state in which, when the presently configured DRX cycle of user equipment length be less than free time（IDLE) during state during DRX cycle length, then judge to lay oneself open to " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " state as threshold value, is only only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, when condition judgment module 704 judges that user equipment is using the corresponding DRX cycle of " default " state length, when judging that user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then indicate that sending module 700 can be sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " lower power consumption " state.When condition judgment module 704 judges that user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, when increasing power overhead, indicate that sending module 700 can be sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the condition judgment module 704 judges that the determination methods of user equipment state in which may include：

The condition judgment module 704 receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges user equipment state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then the use is judged Family equipment is in reduction power overhead state.

In some feasible embodiments, base station simultaneously can receive the corresponding noncontinuity of default conditions

DRX parameters noncontinuity corresponding with reduction power overhead state receives DRX parameters and is allocated to user equipment simultaneously, and is prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate which set DRX parameter UE uses when entering RRC connection status by explicit mode（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters are identical with the DRX parameters that user equipment is currently used, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, when condition judgment module 704 judges user equipment using " default " state corresponding DRX parameters, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then user equipment can be sent " power preference indication " to base station, and request uses " lower power The corresponding DRX parameter configurations of consumption " states.When condition judgment module 704 judges user equipment using " lower power consumption " state corresponding DRX parameters, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then user equipment can be sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, user equipment may not include condition judgment module 704.When user equipment is changed into the preference of power overhead to reduce power overhead, first control module 701 directly judges whether the first timer of the transmission of the preference instruction for limiting reduction power overhead is overtime, if it is judged that being yes, then notify that indicating that sending module 700 is sent to base station reduces the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, the second control module 702 then directly notifies that indicating that sending module 700 is sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, optionally, first control module 701 judge the first timer whether time-out judged result to be no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the first control module 701 be additionally operable to indicate AS layer port upper layer, " power preference indication " send be limited.And after corresponding first timer is overtime, the first control module 701 is additionally operable to indicate AS layers also Upper layer can be notified, are sent unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then user equipment can not perform any operation.

In some feasible embodiments, the length of the first timer is set in advance in the user equipment, now, and optionally, user equipment may also include setup module（It is not shown）, the length for setting the first timer in a user device in advance.

In some feasible embodiments, the length of the first timer is assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.Now, optionally, user equipment may also include length receiving module（It is not shown）, for receiving the length that the base station is assigned to the first timer of the user equipment.

In some feasible embodiments, user equipment may also include timer acquisition module（It is not shown）, for obtaining at least one of the 4th timer and the 5th timer；

Indicate determining module（It is not shown）When being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the timer acquisition module includes the first acquisition submodule and the At least one of two acquisition submodules, wherein：

First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

In some feasible embodiments, the length of 4th timer is less than or equal to the length of the 6th timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

In some feasible embodiments, first acquisition submodule can obtain the 4th timer from the base station, second acquisition submodule can obtain the 5th timer from the base station, specifically, the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when indicating that determining module knows four timer expiry that the first acquisition submodule is obtained, it can determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry that the second acquisition submodule is obtained, power need to be increased by determining that the user equipment is changed into the preference of power overhead Expense.

In some feasible embodiments, first acquisition submodule can obtain the 6th timer from the base station, second acquisition submodule can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In implementing, when the first acquisition submodule obtains six timers from base station, 4th timer can be set in a user device according to the 6th timer, and when the second acquisition submodule obtains seven timers from base station, 5th timer can be set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the message that user equipment oneself can be obtained according to the first acquisition submodule from base station estimates the length of the 6th timer and/or message estimation the 7th timer obtained according to the second acquisition submodule from base station.Such as, UE starts a timer after having performed a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then the first acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 6th timer according to the content of reconfiguration message/RRC connection release message；Second acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release etc. are either set up, it is the 6th timer that the first acquisition submodule or the second acquisition submodule, which will not record the length of above-mentioned timer, Length；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, the length that the first acquisition submodule can record above-mentioned timer is the length of the 6th timer.

In implementing, when recording the length of the 6th timer length and the 7th timer, first acquisition submodule can set the 4th timer in a user device according to the 6th timer, and second acquisition submodule can according to the 7th timer set the 5th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, and therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is lis), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if When the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In the specific implementation, the user equipment of the embodiment of the present invention can only include timer acquisition module and indicate determining module, such user equipment can be exclusively used in determining the power overhead preference of user equipment.

In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, and the transmission indicated the preference for increasing power overhead is not limited, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause power preference to be adjusted Whole defect not in time.And, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, demand of the user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.

Fig. 6 is the structure composition schematic diagram of the second embodiment of the user equipment of the present invention.As shown in fig. 6, the user equipment of the present invention may include to indicate sending module 800, the first control module 801 and the 3rd control module 803:Wherein：

Sending module 800 is indicated, for being indicated to base-station transmitting-power expense preference, the power overhead indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated.

First control module 801, for when user equipment is changed into the preference of power overhead and need to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 800 is sent to base station to reduce the preference instruction of power overhead.

3rd control module 803, for when user equipment is changed into the preference of power overhead and need to increase power overhead, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 800 is sent to the base station to increase the preference instruction of power overhead.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission be to be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions (" default " state）With reduction power overhead state（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference Indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, optionally, user equipment also includes condition judgment module 804, when user equipment is changed into the preference of power overhead to reduce power overhead, and the condition judgment module 804 indicate the user equipment be in default conditions when, the first control module 801 judge for limit reduction power overhead preference instruction transmission first timer（Can record as " T-Default ") it is whether overtime（I.e. timer is not run), if it is judged that being yes, notify the instruction sending module 800 is sent to base station to reduce the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module 804 indicates the user equipment in when reducing power overhead state, the 3rd control module 803 is judged for limiting the second timer that the preference of increase power overhead is indicated（Can record as " T-LowerPower ") it is whether overtime, if it is judged that being yes, notify the instruction sending module 800 is sent to the base station to increase the preference instruction of power overhead.

In some feasible embodiments, condition judgment module 804 judges that the determination methods of user equipment state in which may include：

The condition judgment module 804 judges user equipment state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the length that can receive the cycle (DRX cycle) with the noncontinuity in user equipment judges user equipment state in which, when the presently configured DRX cycle of user equipment length is less than the free time（IDLE) during state during DRX cycle length, then condition judgment module 84 judges that user equipment is in " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE ^ dog state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower as threshold value Power consumption " states, are only only one examples, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, when condition judgment module 804 judges that user equipment is using the corresponding DRX cycle of " default " state length, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, shellfish¹J is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.When condition judgment module 804 judges that user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the condition judgment module 804 judges that the determination methods of user equipment state in which may include：

The condition judgment module 804 receives DRX parameters for the noncontinuity of the user device configuration according to base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in peak low-power expense state.

In some feasible embodiments, the corresponding noncontinuity of default conditions can be received DRX parameters noncontinuity corresponding with reduction power overhead state simultaneously and receive DRX parameters while being allocated to user equipment by base station, and be prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate that UE is entering RRC by explicit mode Any set DRX parameter is used during connection status（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters are identical with the DRX parameters that user equipment is currently used, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, when condition judgment module 804 judges user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.When condition judgment module 804 judges user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then on the premise of second timer time-out is met, user equipment is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " default " state. In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, user equipment may not include condition judgment module 804.When user equipment is changed into the preference of power overhead to reduce power overhead, first control module 801 directly judges whether the first timer of the transmission of the preference instruction for limiting reduction power overhead is overtime, if it is judged that being yes, notify the instruction sending module 800 is sent to base station to reduce the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, 3rd control module 803 directly judges whether the second timer of the transmission of the preference instruction for limiting increase power overhead is overtime, if it is judged that being yes, notify the instruction sending module 800 is sent to the base station to increase the preference instruction of power overhead.

In some feasible embodiments, optionally, when the first control module 801 judge the first timer whether time-out judged result to be no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the first controller 801 may further indicate that the AS layers of user equipment notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the first controller 801 may further indicate that AS layers of notice upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment execution " power of the user equipment for power preference Preference indication " send and timer management operation in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then the instruction user equipment of the first control module 801 can not perform any operation.

In some feasible embodiments, optionally, when the 3rd control module 803 judge the second timer whether time-out judged result to be no when, i.e. second timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the 3rd control module 803 may indicate that the AS layers of user equipment notify upper layer, " power preference indication " sends limited.And after second timer is overtime, the 3rd control module 803 may indicate that the AS layers of user equipment notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of increase power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send increase power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then the instruction user equipment of the 3rd control module 803 can not perform any operation.

In some feasible embodiments, the length of the length of the first timer and the second timer can be set in advance in the user equipment, now, and optionally, it is (not shown that user equipment may also include setup module）, for setting the length of the first timer and the length of the second timer in a user device in advance. In some feasible embodiments, the length of the length of the first timer and the second timer is assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.Now, optionally, user equipment may also include length receiving module（It is not shown）, for receiving length and the length of the second timer that the base station is assigned to the first timer of the user equipment.

In some feasible embodiments, the length of the first timer is longer than or equal to the length of the second timer.

In some feasible embodiments, user equipment may also include timer acquisition module（It is not shown）, for obtaining at least one of the 4th timer and the 5th timer；

Indicate determining module（It is not shown）When being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：

First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

In some feasible embodiments, the length of the 4th timer is less than or equal to the described 6th The length of timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

In some feasible embodiments, first acquisition submodule can obtain the 4th timer from the base station, second acquisition submodule can obtain the 5th timer from the base station, specifically, the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when indicating that determining module knows four timer expiry that the first acquisition submodule is obtained, it can determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry that the second acquisition submodule is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, first acquisition submodule can obtain the 6th timer from the base station, second acquisition submodule can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, when the first acquisition submodule obtains six timers from base station, can be set in a user device according to the 6th timer Four timers, and when the second acquisition submodule obtains seven timers from base station, 5th timer can be set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the message that user equipment oneself can be obtained according to the first acquisition submodule from base station estimates the length of the 6th timer and/or message estimation the 7th timer obtained according to the second acquisition submodule from base station.Such as, UE starts a timer after having performed a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then the first acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 6th timer according to the content of reconfiguration message/RRC connection release message；Second acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release etc. are either set up, the length that the first acquisition submodule or the second acquisition submodule will not record above-mentioned timer is the length of the 6th timer；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, the length that the first acquisition submodule can record above-mentioned timer is the length of the 6th timer.

In implementing, when recording the length of the 6th timer length and the 7th timer, first acquisition submodule can set the 4th timer in a user device according to the 6th timer, and second acquisition submodule can according to the 7th timer set the 5th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than being equal to the 7th timer Length.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, and therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In the specific implementation, the user equipment of the embodiment of the present invention can only include timer acquisition module and indicate determining module, such user equipment can be exclusively used in determining the power overhead preference of user equipment.

In some feasible embodiments, optionally, power overhead is reduced when user equipment is sent to base station Preference indicate or it is described to the base station send increase power overhead preference indicate after, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, the transmission that user is indicated the preference for increasing power overhead is limited by second timer, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.And, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, demand of the user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.

Fig. 7 is the structure composition schematic diagram of the 3rd embodiment of the user equipment of the present invention, and the embodiment is the extension carried out on the basis of second embodiment.As shown in fig. 7, the user equipment may include to indicate to send mould Block 900, the first control module 901, the second control module 902, the 3rd control module 903, first timer management module 904, wherein in the user equipment of the second control module 902 and the 3rd control module 903 at least one presence present invention：

The instruction sending module 900, for being indicated to base-station transmitting-power expense preference, the power overhead indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated；

First control module 901, for when user equipment is changed into the preference of power overhead and need to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 900 is sent to base station to reduce the preference instruction of power overhead.

Second control module 902, the preference for increasing power overhead for when user equipment is changed into the preference of power overhead and need to increase power overhead, notifying the instruction sending module 900 to be sent to the base station is indicated.

3rd control module 903, for when user equipment is changed into the preference of power overhead and need to increase power overhead, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 900 is sent to the base station to increase the preference instruction of power overhead.

First timer management module 904, for including first timer when the user equipment, and the instruction sending module 900 have sent after power overhead preference indicates to base station, start the first timer；And when the user equipment includes first timer and second timer, and the instruction sending module 900 have sent after power overhead preference indicates to base station, start the first timer and/or the second timer.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission It is to be carried out based on two kinds of clear states residing for user equipment, now, user equipment includes default conditions

(" default " state）With reduction power overhead state（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, the user equipment of the optional present invention also includes condition judgment module 905, for judging the user equipment state in which.First control module 901 is when user equipment is changed into the preference of power overhead and need to reduce power overhead, and the condition judgment module 905 indicate the user equipment be in default conditions when, judge for limit reduction power overhead preference instruction transmission first timer（Can record as " T-Default ") it is whether overtime

(i.e. timer is not run）, if it is judged that being yes, then notify the instruction sending module 900 is sent to base station to reduce the preference instruction of power overhead.And second control module 902 when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module 905 is when indicating user equipment reduction power overhead state, notify the instruction sending module 900 is sent to the base station to increase the preference of power overhead and indicate.And when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module 905 indicates the user equipment in when reducing power overhead state, the 3rd control module 903 is judged for limiting the second timer that the preference of increase power overhead is indicated（Can record as " T-LowerPower ") it is whether overtime, if it is judged that being yes, notify the instruction sending module 90 is sent to the base station to increase the preference instruction of power overhead.

In some feasible embodiments, condition judgment module 905 judges that the determination methods of user equipment state in which may include：

The condition judgment module 905 judges user equipment state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in acquiescence State；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the cycle can be received with the noncontinuity in user equipment

The length of (DRX cycle) judges user equipment state in which, when the presently configured DRX cycle of user equipment length is less than the free time（IDLE) during state during DRX cycle length, then condition judgment module 905 judges that user equipment is in " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE ^ dog state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " state as threshold value, is only only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, when condition judgment module 905 judges that user equipment is being used

During the corresponding DRX cycle of " default " state length, i.e., when user equipment is in " default " state, if the power preference of user equipment changes, it would be desirable to reduce power overhead, on the premise of first timer time-out is met, shellfish¹J is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.When condition judgment module 905 judges that user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the condition judgment module 905 judges that the determination methods of user equipment state in which may include：

The condition judgment module 905 can receive DRX parameters for the noncontinuity of the user device configuration according to base station and judge oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user sets It is standby to be in reduction power overhead state.

In some feasible embodiments, base station simultaneously can receive the corresponding noncontinuity of default conditions

DRX parameters noncontinuity corresponding with reduction power overhead state receives DRX parameters and is allocated to user equipment simultaneously, and is prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate which set DRX parameter UE uses when entering RRC connection status by explicit mode（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters are identical with the DRX parameters that user equipment is currently used, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, when condition judgment module 905 judges user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, it indicates that sending module 900 can be sent " power preference indication " to base station, request Use the corresponding DRX parameter configurations of " lower power consumption " state.And when condition judgment module 905 judges user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then on the premise of second timer time-out is met（On the premise of user equipment includes the 3rd control module 903）, indicate that sending module 900 can be sent " power preference indication " to base station, request uses " default " ^ husband's states ^] and " the DRX parameter configurations answered.And when condition judgment module 904 judges user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, indicate that sending module 900 can send " power preference indication " (on the premise of user equipment includes the second control module 902 to base station）, ask using the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, user equipment may not include condition judgment module 905 when user equipment is changed into the preference of power overhead and need to reduce power overhead, first control module 901 directly judges whether the first timer of the transmission of the preference instruction for limiting reduction power overhead is overtime, if it is judged that being yes, then notify the instruction sending module 900 is sent to base station to reduce the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, the second control module 902 directly notifies that indicating that sending module 900 is sent to the base station increases the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, the 3rd control module 903 directly judges the second timer for limiting the transmission that the preference of increase power overhead is indicated It is whether overtime, if it is judged that being yes, notify the instruction sending module 900 is sent to the base station to increase the preference instruction of power overhead.

In some feasible embodiments, optionally, when the first control module 901 judge the first timer whether time-out judged result for it is no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, the user equipment can be claimed to perform

The protocol layer of " power preference indication " transmission and the operation of timer management is AS (Access

Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the first control module 901 may indicate that the AS layers of user equipment notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the AS layers of instruction user equipment notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then the first control module 901 can notify the user that equipment does not perform any operation.

In some feasible embodiments, optionally, when the 3rd control module 903 judge the second timer whether time-out judged result to be no when, i.e. second timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the 3rd control Molding block 903 may indicate that the AS layers of user equipment notify upper layer, and " power preference indication " sends limited.And after second timer is overtime, the 3rd control module 903 may indicate that the AS layers of user equipment notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of increase power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send increase power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then the instruction user equipment of the 3rd control module 903 can not perform any operation.

In some feasible embodiments, the length of the length of the first timer and the second timer can be set in advance in the user equipment, now, and optionally, it is (not shown that user equipment may also include setup module）, for setting the length of the first timer and the length of the second timer in a user device in advance.

In some feasible embodiments, the length of the length of the first timer and the second timer is assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.Now, optionally, user equipment may also include length receiving module（It is not shown）, for receiving length and the length of the second timer that the base station is assigned to the first timer of the user equipment.

In some feasible embodiments, the length of the first timer is longer than or equal to the length of the second timer.

In some feasible embodiments, user equipment may also include timer acquisition module（It is not shown）, for obtaining at least one of the 4th timer and the 5th timer；

Indicate determining module（It is not shown）, for surpassing when the 4th timer that the timer acquisition module is obtained When or the user equipment estimated user equipment when being in time of idle condition and being more than or equal to the length for the 4th timer that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：

First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

In some feasible embodiments, the length of 4th timer is less than or equal to the length of the 6th timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

In some feasible embodiments, first acquisition submodule can obtain the 4th timer from the base station, second acquisition submodule can obtain the 5th timer from the base station, specifically, the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, The length for the 6th timer that the length of 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when indicating that determining module knows four timer expiry that the first acquisition submodule is obtained, it can determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry that the second acquisition submodule is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, first acquisition submodule can obtain the 6th timer from the base station, second acquisition submodule can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In implementing, when the first acquisition submodule obtains six timers from base station, 4th timer can be set in a user device according to the 6th timer, and when the second acquisition submodule obtains seven timers from base station, 5th timer can be set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the message that user equipment oneself can be obtained according to the first acquisition submodule from base station estimates the length of the 6th timer and/or message estimation the 7th timer obtained according to the second acquisition submodule from base station.Such as, UE starts a timing after having performed a data transmit-receive operation Device, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then the first acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 6th timer according to the content of reconfiguration message/RRC connection release message；Second acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release etc. are either set up, the length that the first acquisition submodule or the second acquisition submodule will not record above-mentioned timer is the length of the 6th timer；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, the length that the first acquisition submodule can record above-mentioned timer is the length of the 6th timer.

In implementing, when recording the length of the 6th timer length and the 7th timer, first acquisition submodule can set the 4th timer in a user device according to the 6th timer, and second acquisition submodule can according to the 7th timer set the 5th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the length of the 6th timer and/or the 7th timer by repeatedly estimating, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, and therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（Specifically In realization, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as the situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In the specific implementation, the user equipment of the embodiment of the present invention can only include timer acquisition module and indicate determining module, such user equipment can be exclusively used in determining the power overhead preference of user equipment.

In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

In some feasible embodiments, when user equipment includes two kinds of clear states, when user equipment is in default conditions, first timer management module 904 can only start first timer；When user equipment is in Peak low-power expense state, first timer management module 904 can only start second timer.If the user equipment only includes first timer, when user is in reduction power overhead state, first timer management module 904 need not start timer.If user equipment is not by state limit, first timer management module 904 can start first timer and second timer simultaneously；If the user equipment only includes first timer, first timer management module 904 only starts first timer.

In some feasible embodiments, optionally, user equipment may also include configuration receiving module 908, on the basis of including configuration receiving module 908, may also include at least one in the 6th control module 909 and the 7th control module 910.（Now, user equipment may not include the 8th control module 911, the 9th control module 912), wherein：

Receiving module 908 is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration.

6th control module 909, for when the first timer in the user equipment has not timed out, but the configuration receiving module 908 receives radio resource parameter configuration result, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, notify the instruction sending module 900 can not be sent before first timer time-out to the base station to reduce the preference of power overhead and indicate.

7th control module 910, for when the second timer in the user equipment has not timed out, but the configuration receiving module 908 receives the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, notify the instruction sending module 900 can not be sent before second timer time-out to the base station to increase the preference of power overhead and indicate.

In some feasible embodiments, optionally, user equipment may also include configuration receiving module 908, on the basis of including configuration receiving module 908, may also include the 8th control module 911 and the 9th control module 912 at least one（Now, user equipment may not include the 6th control module 909, the 7th control module 910), wherein： Receiving module 908 is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration.

8th control module 911, for being had timed out when the first timer in the user equipment, but the configuration receiving module 908 does not receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, notify the instruction sending module 900 can not be sent before configuration receiving module 908 receives the radio resource parameter configuration result that the base station is sent to the base station to reduce the preference of power overhead and indicate.

9th control module 912, for being had timed out when the second timer in the user equipment, but the configuration receiving module 908 does not receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, notify the instruction sending module 900 can not be sent before configuration receiving module 908 receives the radio resource parameter configuration result that the base station is sent to the base station to increase the preference of power overhead and indicate.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, the transmission that user is indicated the preference for increasing power overhead is limited by second timer, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.Also, the time that the embodiment of the present invention is in idle condition by the estimated user equipment of user equipment combines the 4th timer and the 5th timer is combined to whether user equipment enters Reduction power overhead increases the preference of power overhead and is controlled, and has more effectively coordinated demand of the user equipment to power preference, it is ensured that user equipment is adjusted within the most short time to power preference.

Fig. 8 is the structure composition schematic diagram of the fourth embodiment of the user equipment of the present invention.As shown in Figure 8, the user equipment of the present embodiment may include to indicate sending module 1000, the first control module 1001, the second control module 1002, the 3rd control module 1003, the configuration management module of timer 1005 of receiving module 1004 and the 3rd, wherein in the user equipment of the second control module 1002 and the 3rd control module 1003 at least one presence present invention：

The instruction sending module 1000, for being indicated to base-station transmitting-power expense preference, the power overhead indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated.

First control module 1001, for when user equipment is changed into the preference of power overhead and need to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 1000 is sent to base station to reduce the preference instruction of power overhead.

Second control module 1002, the preference for increasing power overhead for when user equipment is changed into the preference of power overhead and need to increase power overhead, notifying the instruction sending module 1000 to be sent to the base station is indicated.

3rd control module 1003, for when user equipment is changed into the preference of power overhead and need to increase power overhead, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module 1000 is sent to the base station to increase the preference instruction of power overhead.

Receiving module 1004 is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration.

3rd management module of timer 1005, for when the configuration receiving module 1004 receive it is described wireless After resource parameters configuration result, when the user equipment includes first timer, start the first timer；When the user equipment includes first timer and second timer, start the first timer and/or the second timer.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission be to be carried out based on two kinds of clear states residing for user equipment, now, user equipment include default conditions

(" default " state）With reduction power overhead state（" lower power consumption " state）Two states, when user equipment judges to lay oneself open to " default (acquiescences）" during state, can only be to base station（Such as, evolution base station eNB) send " lower power consumption (reduction power overheads）" preference indicate；If on the contrary, user judges to lay oneself open to " lower power consumption " state, being only capable of sending " default " state of return to base station（Increase power overhead）Preference indicate.Now, the user equipment of the optional present invention also includes condition judgment module 1006, for judging the user equipment state in which.First control module 1001 is when user equipment is changed into the preference of power overhead and need to reduce power overhead, and the condition judgment module 1006 indicate the user equipment be in default conditions when, judge for limit reduction power overhead preference instruction transmission first timer（Can record as " T-Default ") it is whether overtime

(i.e. timer is not run), if it is judged that being yes, then notifies the instruction sending module 1000 is sent to base station to reduce the preference instruction of power overhead.And second control module 1002 when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module 1006 is when indicating user equipment reduction power overhead state, notify the instruction sending module 1000 is sent to the base station to increase the preference of power overhead and indicate.And when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module 1006 indicates the user equipment in when reducing power overhead state, the 3rd control module 1003 is judged for limiting the second timer that the preference of increase power overhead is indicated（Can record as " T LowerPower ") it is whether overtime, if it is judged that being yes, notify the instruction sending module 90 preferences for sending increase power overhead to the base station are indicated.

In some feasible embodiments, condition judgment module 1006 judges that the determination methods of user equipment state in which may include：

The condition judgment module 1006 judges user equipment state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state.Such as, the length that can receive the cycle (DRX cycle) with the noncontinuity in user equipment judges user equipment state in which, when the presently configured DRX cycle of user equipment length is less than the free time（IDLE) during state during DRX cycle length, then condition judgment module 84 judges that user equipment is in " default " state, when the presently configured DRX cycle length of user equipment is equal to or more than IDLE ^ dog state DRX cycle length, then it is assumed that UE is in " lower power consumption " state.The above-mentioned length using DRX cycle during idle condition distinguishes " default " and " lower power consumption " state as threshold value, is only only one example, in the specific implementation, the length of other specification can be used to be used as threshold decision.So, when condition judgment module 1006 judges that user equipment is using the corresponding DRX cycle of " default " state length, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, shellfish¹J is sent " power preference indication " to base station, and request uses the corresponding DRX parameter configurations of " lower power consumption " state.When condition judgment module 1006 judges that user equipment is using the corresponding DRX cycle of " lower power consumption " state length, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the condition judgment module 1006 judges the shape residing for user equipment The determination methods of state may include：

The condition judgment module 1006 can receive DRX parameters for the noncontinuity of the user device configuration according to base station and judge oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

In some feasible embodiments, base station simultaneously can receive the corresponding noncontinuity of default conditions

DRX parameters noncontinuity corresponding with reduction power overhead state receives DRX parameters and is allocated to user equipment simultaneously, and is prompted to the corresponding state of parameter described in user either explicitly or implicitly.Or, base station also can only configure a set of DRX parameters and indicate the corresponding state of the DRX parameters to user equipment, and by explicit mode every time.Such as, it is the different DRX parameters of two sets of user device configuration when base station can be set up with RRM RRC connections.And base station can indicate which set DRX parameter UE uses when entering RRC connection status by explicit mode（Using " default " corresponding DRX parameters, or use " lower power consumption " corresponding DRX parameters）, i.e., in which state；Regulation can also be given tacit consent to, user equipment is directly entered " default " state, uses the corresponding DRX parameters of " default " state when entering RRC connection status.Or, regulation can be given tacit consent to, user equipment is directly entered " lower power consumption " state, uses the corresponding DRX parameters of " lower power consumption " state when entering RRC connection status.For another example, base station can be carried out in RRC connections reconfiguration course, i.e., in RRC connection reconfiguration courses, and base station is the different DRX parameters of two sets of user device configuration.So base station can be by the instruction of display, and instruction user equipment is after RRC reconfiguration courses, using which set DRX parameter, i.e., in which state.For another example, base station is by implicit mode instruction user equipment state in which, and its way is that user equipment judges oneself state in which by judging presently used DRX parameters：If user equipment finds two sets of DRX parameters that base station is newly configured, wherein a set of DRX parameters and user equipment are current The DRX parameters used are identical, then UE determines oneself state in which upon reconfiguration by the corresponding state of set DRX parameters.So, when condition judgment module 1006 judges user equipment DRX parameters corresponding using " default " state, when i.e. user equipment is in " default " state, if the power preference of user equipment changes, wish to reduce power overhead, on the premise of first timer time-out is met, then indicate that sending module 1000 can be sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " lower power consumption " state.And when condition judgment module 1006 judges user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, then on the premise of second timer time-out is met（On the premise of user equipment includes the 3rd control module 1003）, indicate that sending module 1000 can be sent " power preference indication " to base station, request uses the corresponding DRX parameter configurations of " default " state.And when condition judgment module 1006 judges user equipment DRX parameters corresponding using " lower power consumption " state, when i.e. user equipment is in " lower power consumption " state, the power preference of user equipment changes, wish to improving performance, increase power overhead, indicate that sending module 1000 can send " power preference indication " (on the premise of user equipment includes the second control module 1002 to base station）, ask using the corresponding DRX parameter configurations of " default " state.

In some feasible embodiments, the preference of power overhead is indicated（" power preference indication ", including the preference of reduction power overhead indicate and increased that the preference of power overhead is indicated）Transmission can not be limited by user equipment state in which, i.e., when user equipment changes to the preference of power overhead, can be transmitted power overhead preference be indicated to base station.Now, user equipment may not include condition judgment module 1006.When user equipment is changed into the preference of power overhead to reduce power overhead, the first control module 1001 directly judge for limit reduction power overhead preference indicate transmission first timer whether Time-out, if it is judged that being yes, then notifies the instruction sending module 1000 is sent to base station to reduce the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, the second control module 1002 directly notifies that indicating that sending module 1000 is sent to the base station increases the preference instruction of power overhead.And when user equipment is changed into the preference of power overhead and need to increase power overhead, 3rd control module 1003 directly judges whether the second timer of the transmission of the preference instruction for limiting increase power overhead is overtime, if it is judged that being yes, notify the instruction sending module 1000 is sent to the base station to increase the preference instruction of power overhead.

In some feasible embodiments, optionally, when the first control module 1001 judge the first timer whether time-out judged result for it is no when, i.e. first timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the first control module 1001 may indicate that the AS layers of user equipment notify upper layer, " power preference indication " sends limited.And after corresponding first timer is overtime, the AS layers of instruction user equipment notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of reduction power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send reduction power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then the first control module 1001 can notify the user that equipment does not perform any operation.

In some feasible embodiments, optionally, when the 3rd control module 1003 judges second timing Device whether time-out judged result for it is no when, i.e. second timer is also operationally, if judgement and user equipment that user equipment changes for power preference perform " power preference indication " transmission and the operation of timer management not in same protocol layer（For convenience, can the user equipment perform " power preference indication " and send and the protocol layer of operation of timer management is called AS (Access Stratum, Access Layer）, and judge that the protocol layer of power preference is called AS upper layer (upper stratas））, then the 3rd control module 1003 may indicate that the AS layers of user equipment notify upper layer, " power preference indication " sends limited.And after second timer is overtime, the 3rd control module 1003 may indicate that the AS layers of user equipment notify upper layer, send unrestricted.And after AS upper layer receive the unrestricted instruction, judge that user equipment stills need to send the preference instruction of increase power overhead, then may be notified that AS layers of Access Layer；Otherwise, if the preference that user equipment need not send increase power overhead is indicated, without any operation.If judgement and user equipment of the user equipment for power preference perform " power preference indication " transmission and the operation of timer management in same protocol layer,（The protocol layer is just no longer specifically defined herein, and executive agent is referred to as user equipment）, then the instruction user equipment of the 3rd control module 1003 can not perform any operation.

In some feasible embodiments, the length of the length of the first timer and the second timer can be set in advance in the user equipment, now, and optionally, it is (not shown that user equipment may also include setup module）, for setting the length of the first timer and the length of the second timer in a user device in advance.

In some feasible embodiments, the length of the length of the first timer and the second timer is assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.Now, optionally, user equipment may also include length receiving module（It is not shown）, for receiving length and the length of the second timer that the base station is assigned to the first timer of the user equipment. In some feasible embodiments, the length of the first timer is longer than or equal to the length of the second timer.

In some feasible embodiments, user equipment may also include timer acquisition module（It is not shown）, for obtaining at least one of the 4th timer and the 5th timer；

Indicate determining module（It is not shown）When being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：

First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

In some feasible embodiments, the length of 4th timer is less than or equal to the length of the 6th timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, and second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, obtained according to from the base station Message estimate the length of the 7th timer set in the base station.

In some feasible embodiments, first acquisition submodule can obtain the 4th timer from the base station, second acquisition submodule can obtain the 5th timer from the base station, specifically, the 4th timer and/or the 5th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In the specific implementation, the length for the 6th timer that the length of the 4th timer is less than or equal in the base station, length of the length less than or equal to the 7th timer in the base station of the 5th timer.6th timer triggers the trigger of reduction power overhead to be safeguarded in the base station for the base station side, and the 7th timer is used for the trigger of base station side triggering increase power overhead for what is safeguarded in the base station.So when indicating that determining module knows four timer expiry that the first acquisition submodule is obtained, it can determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry that the second acquisition submodule is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, first acquisition submodule can obtain the 6th timer from the base station, second acquisition submodule can obtain the 7th timer from the base station, and the 6th timer and/or the 7th timer can be obtained from least one of the radio resource control message of base station transmission, physical layer message, data-link layer message, cell switching information.In implementing, when the first acquisition submodule obtains six timers from base station, 4th timer can be set in a user device according to the 6th timer, and when the second acquisition submodule obtains seven timers from base station, 5th timer can be set according to the 7th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when instruction determining module knows the second acquisition During five timer expiry of module setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, the message that user equipment oneself can be obtained according to the first acquisition submodule from base station estimates the length of the 6th timer and/or message estimation the 7th timer obtained according to the second acquisition submodule from base station.Such as, UE starts a timer after having performed a data transmit-receive operation, the timer is restarted after UE performs data transmit-receive operation next time, assuming that base station issues reconfiguration message/RRC connection release message to user equipment, then the first acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 6th timer according to the content of reconfiguration message/RRC connection release message；Second acquisition submodule can decide whether the length that the length for recording above-mentioned timer is the 7th timer according to the content of reconfiguration message/RRC connection release message.Such as, if reconfiguration message/the RRC connection release message is switching command, new radio bearer or the original radio bearer of release etc. are either set up, the length that the first acquisition submodule or the second acquisition submodule will not record above-mentioned timer is the length of the 6th timer；If reconfiguration message/the RRC connection release message is the DRX for configuring DRX or configuring more power saving, the length that the first acquisition submodule can record above-mentioned timer is the length of the 6th timer.

In implementing, when recording the length of the 6th timer length and the 7th timer, first acquisition submodule can set the 4th timer in a user device according to the 6th timer, and second acquisition submodule can according to the 7th timer set the 5th timer, and the length of the 4th set timer is smaller than the length equal to the 6th timer, the length of the 5th set timer is smaller than the length equal to the 7th timer.So, when indicating that determining module knows four timer expiry of the first acquisition submodule setting, determine that described be changed into equipment to the preference of power overhead need to reduce power overhead, when indicating that determining module knows five timer expiry of the second acquisition submodule setting, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

In some feasible embodiments, user equipment can obtain the described 6th by repeatedly estimating to be determined When device and/or the 7th timer length, such as multiple estimated result is averaged, or take the value of minimum, or take the value of maximum etc., wherein each estimation procedure is identical with above-mentioned method of estimation, therefore not to repeat here, with the degree of accuracy for the length for having increased access to the 6th timer and/or the 7th timer.

In some feasible embodiments, when user equipment, which has performed a data transmit-receive, is operated into idle condition, the user equipment is it is contemplated that the user equipment will be continuously in the time of idle condition（In the specific implementation, the type of service for the data that user equipment can received and dispatched according to user equipment, the estimated user equipment of the factor such as situation of current network will be continuously in the time of idle condition）, such as it is 10s, at the same time, the user equipment can set the 4th timer according to the 6th timer received from base station, assuming that the 6th timer is 8s, then user equipment can set the 4th timer as 5s, or directly receive the 4th timer from base station（Such as, it is l is), so, when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be more than or equal to the user equipment the 4th timer length（Than 5s described above), power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead, if when the estimated user equipment of the user equipment is in the time of idle condition（Than 10s described above) be less than the user equipment the 4th timer length（Than l is described above), then it can not show that preference is changed into the conclusion of peak low-power expense.It is similar for the 5th timer, it will not be described here.

In the specific implementation, the user equipment of the embodiment of the present invention can only include timer acquisition module and indicate determining module, such user equipment can be exclusively used in determining the power overhead preference of user equipment.

In some feasible embodiments, after the preference that base station receives reduction power overhead is indicated, power overhead will be reduced（" lower power consumption ") the corresponding DRX parameters of state and physical layer parameter configuration（Such as CQI, Sounding) user equipment is given, its way can be as follows：

When RRC connections are reconfigured, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicates that the user equipment uses " lower power consumption " corresponding DRX parameters when carrying out RRM connection；And the base station receives DRX according to two sets of noncontinuities and joined Number, is described two sets of physical layer parameters of user device configuration, and instruction user equipment uses the corresponding physical layer parameter of " lower power consumption " corresponding DRX parameters when carrying out RRM connection.

In some feasible embodiments, after the preference that base station receives increase power overhead is indicated, power overhead will be increased（" default ") the corresponding DRX parameters of state and physical layer parameter configuration（Such as CQI, Sounding) user equipment is given, its way can be as follows：

When RRC connections are reconfigured, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicates that the user equipment uses " default " corresponding DRX parameters when carrying out RRM connection；And the base station receives DRX parameters according to two sets of noncontinuities, for described two sets of physical layer parameters of user device configuration, and instruction user equipment uses the corresponding physical layer parameter of " default " corresponding DRX parameters when carrying out RRM connection.

In some feasible embodiments, setting of the base station to DRX parameters includes the setting of DRX cycle length, after the preference for receiving reduction power overhead is indicated, DRX cycle length can be set smaller than in IDLE state DRX cycle length.After the preference for receiving increase power overhead is indicated, DRX cycle length can be set greater than or equal to IDLE state DRX cycle length.

In some feasible embodiments, the state that user equipment can also be presently in by judgement is come DRX parameters used in implicit determination：Current user equipment is in " default " state, if base station is not explicitly indicated user equipment transition state, user equipment uses the DRX parameters of new correspondence " default " state；Otherwise, current user equipment is in " lower power consumption " state, if base station is not explicitly indicated user equipment transition state, user equipment uses the DRX parameters of new correspondence " lower power consumption " state.

In some feasible embodiments, optionally, after user equipment sends the preference instruction for reducing power overhead to base station or the preference for sending increase power overhead to the base station is indicated, the base station can determine whether whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no Then the base station is not responding to the preference instruction of the reduction power overhead or the base station is not responding to the preference instruction of the increase power overhead.

In some feasible embodiments, optionally, after the user equipment sends the preference instruction for reducing power overhead to base station, the base station judges whether current can be user equipment renewal radio resource parameter configuration, if it is judged that being no, then the base station is not responding to the preference instruction of the reduction power overhead.

In some feasible embodiments, when user equipment includes two kinds of clear states, when user equipment is in default conditions, the 3rd management module of timer 1005 can only start first timer；When user equipment is in peak low-power expense state, the 3rd management module of timer 1005 can only start second timer.If the user equipment only includes first timer, when user is in reduction power overhead state, the 3rd management module of timer 1005 need not start timer.If user equipment is not by state limit, the 3rd management module of timer 1005 can start first timer and second timer simultaneously；If the user equipment only includes first timer, the 3rd management module of timer 1005 only starts first timer.

Therefore, in some feasible embodiments of the present invention, the transmission that user equipment is indicated the preference for reducing power overhead is limited by first timer, the transmission that user is indicated the preference for increasing power overhead is limited by second timer, limit the transmission that user equipment is indicated the preference for reducing power overhead and the transmission indicated the preference for increasing power overhead respectively with this, compared with prior art is limited by same timer, more flexibly, the experience of user is improved.And, whether the embodiment of the present invention enters reduction power overhead to user equipment by the 4th timer of the 6th Timer Controlling by network side, the preference for being increased power overhead by the timer of the 7th timer the 5th of network side is controlled, the demand of network side and user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.The timer duration contradiction of network side timer and user equipment side can be efficiently solved and cause the defect of power preference adjustment not in time.Also, the embodiment of the present invention is set by the estimated user of user equipment The standby time in idle condition combines the 4th timer and the 5th timer is combined whether to enter user equipment reduction power overhead or increase the preference of power overhead and is controlled, demand of the user equipment to power preference is more effectively coordinated, it is ensured that user equipment is adjusted within the most short time to power preference.

Accordingly, the embodiment of the present invention has additionally provided signaling and has sent system, it may include user equipment 131 and base station 132, wherein user equipment 131 is any of foregoing user equipment embodiment of the present invention, the base station 132 is used to receive the power overhead preference instruction that the user equipment is sent, and be that the user equipment carries out radio resource parameter configuration by RRM process, the power overhead preference indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated.The base station is additionally operable to send at least one of the 4th timer, the 5th timer, the 6th timer, the 7th timer to the user equipment.

When the user equipment includes default conditions and reduction power overhead state two states,

The base station is that the user equipment carries out radio resource parameter configuration by RRM process, and it includes：When RRM connection is set up, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicate the DRX parameters that the user equipment is used when carrying out RRM connection, wherein set of parameter is used to indicate that the user equipment is in default conditions, and another set of parameter is used to indicate that the user equipment is in reduction power overhead state；The base station receives DRX parameters according to different noncontinuities, is the corresponding two sets of physical layers of the user device configuration；

Or,

The base station is that the user equipment carries out radio resource parameter configuration by RRM process, and it includes：When RRM reconfiguration course is carried out, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicate the user equipment in the DRX parameters used after the completion of RRM is reconfigured, wherein set of parameter is used to indicate that the user equipment is in default conditions, and another set of parameter is used to indicate that the user equipment is in reduction power overhead state；The base station receives DRX parameters according to different noncontinuities, is the corresponding two sets of physical layers of the user device configuration. In implementing, the present invention also provides a kind of computer-readable storage medium, wherein, the computer-readable storage medium can be had program stored therein, and the part or all of step in each embodiment of the signaling method of the invention provided or the method for determining power overhead preference is may include when being performed to program.Described storage medium can be magnetic disc, CD, read-only memory（Read-Only Memory, ROM) or random access memory（Random Access Memory, RAM) etc..

In the specific implementation, as shown in Figure 10, the present invention also provides a kind of user equipment 14, it may include：Input unit 141, output device 142 and processor 144 (in the specific implementation, the processor 144 of the network equipment 14 can be multiple, are only illustrated in Figure 10 exemplified by one）Wherein, the processor 144 performs following steps：

When user equipment is changed into the preference of power overhead to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, indicating that the output device 142 is sent to base station reduces the preference instruction of power overhead；

When user equipment is changed into the preference of power overhead to increase power overhead, indicating that the output device 142 is sent to the base station increases the preference instruction of power overhead, or, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, indicating that the output device 142 is then sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, the user equipment includes default conditions and reduction power overhead state two states, then the processor 144 is also executed the following steps：

When user equipment is changed into the preference of power overhead to reduce power overhead, perform and judge whether first in default conditions judges user equipment, if the first judged result judged is yes, then the second whether overtime judgement of the first timer of the transmission of preference instruction of the execution judgement for limiting reduction power overhead, if the second judged result judged is yes, indicating that the output device 142 is sent to base station reduces the preference instruction of power overhead； And when user equipment is changed into the preference of power overhead and need to increase power overhead, judge user equipment whether in reduction power overhead state, if it is judged that being yes, indicating that the output device 142 is sent to the base station increases the preference instruction of power overhead；

And, when user equipment is changed into the preference of power overhead to increase power overhead, performing user equipment, whether the 3rd in reduction power overhead state judges, if the 3rd judged result judged is yes, perform for limit increase power overhead preference indicate transmission second timer whether time-out the 4th judgement, if the 4th judged result judged is yes, indicating that the output device 142 is sent to the base station increases the preference instruction of power overhead.

In some feasible embodiments, the processor 144 judges that the determination methods of the user equipment state in which include：

The processor 144 judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

Or, the processor 144 judges that the determination methods of the user equipment state in which include：The processor 144 receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges the user equipment state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

In some feasible embodiments, the processor 144 is also executed the following steps：

When judging the first timer whether the judged result of time-out being for no, the protocol layer notice that the preference for notifying to be used in the user equipment to send reduction power overhead is indicated knows the inclined of the power overhead of user equipment The transmission that the preference of the good protocol layer reduction power overhead changed is indicated is limited；

Or,

When judge the first timer whether time-out judged result to be no when, notify the user equipment not perform any operation.

In some feasible embodiments, the processor 144 is also executed the following steps：

When judging the second timer whether the judged result of time-out being for no, the transmission of the preference instruction for the protocol layer increase power overhead that the protocol layer that the preference for notifying to be used in the user equipment to send increase power overhead is indicated notifies the preference for knowing the power overhead of user equipment to change is limited；

Or,

When judge the second timer whether time-out judged result to be no when, notifying user equipment does not perform any operation.

In some feasible embodiments, the processor 144 is reduced to base station transmission after the preference instruction or the preference instruction for increasing power overhead to base station transmission of power overhead, and the processor 144 is also executed the following steps：

When the user equipment includes first timer, start the first timer；

When the user equipment includes first timer and second timer, start the first timer and/or the second timer.

In some feasible embodiments, the processor 144 is also executed the following steps：

When the first timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, indicating that the output device 142 can not be sent to the base station reduces the preference instruction of power overhead, until first timer time-out；

When the second timer in the user equipment has not timed out, the wireless money that the base station is sent is received Source parameter configuration result, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, indicating that the output device 142 can not be sent to the base station increases the preference of power overhead and indicates, until second timer time-out.

In some feasible embodiments, the processor 144 is also executed the following steps：

When the first timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, indicating that the output device 142 can not be sent to the base station reduces the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent；

When the second timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, indicating that the output device 142 can not be sent to the base station increases the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent.

At some it is possible that in embodiment, the processor 144 is also executed the following steps：

Receive the radio resource parameter configuration result that the base station is sent；

When the user equipment includes first timer, start the first timer；

When the user equipment includes first timer and second timer, start the first timer and/or the second timer.

In some feasible embodiments, the processor 144 is also executed the following steps：

When the input unit 141 receives the radio resource parameter configuration result that the base station is sent, stop the 3rd timer.

In some feasible embodiments, the length of the first timer is more than or equal to the length of the second timer.

In some feasible embodiments, the processor 144 is also executed the following steps： Length, the length of the second timer of the first timer are set in the user equipment in advance；

Or, receive length, the length of the second timer that the first timer that is assigned to the user equipment is set up in process or RRM connection reconfiguration course by the base station in RRM connection.

In some feasible embodiments, optionally, the processor 144 is also executed the following steps：Obtain the 4th timer；

During the length for the 4th timer for being then more than or equal to the acquisition when the time that the 4th timer expiry of the acquisition or the estimated user equipment of the user equipment are in idle condition, the processor, which determines that the user equipment is changed into the preference of power overhead, need to reduce power overhead；

Obtain the 5th timer；

During the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, the processor, which determines that the user equipment is changed into the preference of power overhead, need to increase power overhead.

In some feasible embodiments, the processor 144 obtains the 4th timer the 4th timer of acquisition and specifically included：

The processor sets the 4th timer according to the 6th timer；Or, the processor obtains the 4th timer from the base station, the 6th timer is the timer set in the base station；

The processor obtains the 5th timer and specifically included：

The processor sets the 5th timer according to the 7th timer；Or, the processor obtains the 5th timer from the base station, the 7th timer is the timer set in the base station.

In some feasible embodiments, the length of the 4th timer is less than or equal to the length of the 6th timer, and the processor 144 is set according to the 6th timer before the 4th timer, also Perform following steps：

The 6th timer is obtained from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

The length of 5th timer is less than or equal to the length of the 7th timer, and the processor sets before the 5th timer according to the 7th timer, also executed the following steps：

The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

In some feasible embodiments, when the processor 144 obtains four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When the processor 144 obtains five timer from the base station, during the 5th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When the processor 144 obtains six timer from the base station, during the 6th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

When the processor 144 obtains seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.

Bright spirit and scope.So, if these modifications and variations of the present invention belong within the scope of the claims in the present invention and its equivalent technologies, then the present invention is also intended to comprising including these changes and modification.

Claims (56)

1. Claim

   1st, a kind of signaling method, it is characterised in that including：

   When user equipment is changed into the preference of power overhead to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, then being sent to base station reduces the preference instruction of power overhead；

   When user equipment is changed into the preference of power overhead to increase power overhead, the preference for sending increase power overhead to the base station is indicated, or judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead.

   2, signaling method as claimed in claim 1, it is characterized in that, the user equipment includes default conditions and reduction power overhead state two states, then when user equipment is changed into the preference of power overhead to reduce power overhead, perform and judge whether first in default conditions judges user equipment, if the first judged result judged is yes, then the second whether overtime judgement of the first timer of the transmission of preference instruction of the execution judgement for limiting reduction power overhead, if the second judged result judged is yes, then being sent to base station reduces the preference instruction of power overhead；

   And when user equipment is changed into the preference of power overhead and need to increase power overhead, whether user equipment is judged in reduction power overhead state, if it is judged that being yes, then being sent to the base station increases the preference instruction of power overhead；

   And, when user equipment is changed into the preference of power overhead to increase power overhead, performing user equipment, whether the 3rd in reduction power overhead state judges, if the 3rd judged result judged is yes, perform for the second timer that limits the transmission that the preference of increase power overhead is indicated whether time-out the 4th is sentenced Disconnected, if the 4th judged result judged is yes, being sent to the base station increases the preference ability of power overhead;

   3rd, signaling method as claimed in claim 2, it is characterised in that

   The user equipment judges that the determination methods of oneself state in which include：

   The user equipment judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

   Or, the user equipment judges that the determination methods of oneself state in which include：

   The user equipment receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

   4th, the signaling method as any one of claim 1-3, it is characterised in that also include：The transmission of the preference instruction for the protocol layer reduction power overhead that the protocol layer for being used for the preference instruction of transmission reduction power overhead when judging that the first timer is not overtime, in the user equipment notifies the preference for knowing the power overhead of user equipment to change is limited；

   Or,

   When judging that the first timer is not overtime, the user equipment does not perform any operation. 5th, the signaling method as any one of claim 1-3, it is characterised in that also include：The transmission of the preference instruction for the protocol layer increase power overhead that the protocol layer for being used for the preference instruction of transmission increase power overhead when judging that the second timer is not overtime, in the user equipment notifies the preference for knowing the power overhead of user equipment to change is limited；

   Or,

   When judging that the second timer is not overtime, user equipment does not perform any operation.

   6th, the signaling method as any one of claim 1-5, it is characterised in that after the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, in addition to：

   When the user equipment includes first timer, start the first timer；

   When the user equipment includes first timer and second timer, start the first timer and/or the second timer.

   7th, signaling method as claimed in claim 6, it is characterised in that also include：

   When the first timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, the user equipment can not be sent to the base station reduces the preference instruction of power overhead, until first timer time-out；

   And, when the second timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, the user equipment can not be sent to the base station increases the preference instruction of power overhead, until second timer time-out. 8th, signaling method as claimed in claim 6, it is characterised in that also include：When the first timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, the user equipment can not be sent to the base station reduces the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent；

   And, when the second timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, the user equipment can not be sent to the base station increases the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent.

   9th, the signaling method as any one of claim 1-5, it is characterised in that after the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, in addition to：

   The user equipment receives the radio resource parameter that the base station is designated as the user device configuration according to the preference of the instruction of the preference of the reduction power overhead received or the increase power overhead.

   10th, signaling method as claimed in claim 9, it is characterised in that it is described be the user device configuration radio resource parameter after, in addition to：

   When the user equipment includes first timer, start the first timer；

   When the user equipment includes first timer and second timer, start the first timer and/or the second timer. 11st, the signaling method as any one of claim 1-5, it is characterised in that after the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, in addition to：

   When base station judges that currently radio resource parameter configuration can not be updated as user equipment, the user equipment does not receive the response message that the base station is indicated the preference of the reduction power overhead or the preference for increasing power overhead is indicated.

   12nd, the signaling method as described in claim 9 or 10, it is characterized in that, the user equipment receives the radio resource parameter that the base station is designated as the user device configuration according to the preference of the instruction of the preference of the reduction power overhead received or the increase power overhead, including：

   The user equipment receives the base station and passes through discontinuous reception DRX parameter and physical layer parameter of the RRM process for the user device configuration.

   13rd, signaling method as claimed in claim 12, it is characterized in that, when the user equipment includes default conditions and reduction power overhead state two states, the user equipment receives the base station to be included by RRM process for the discontinuous reception DRX parameters and physical layer parameter of the user device configuration：

   The user equipment receives the base station when RRM RRC connections are reconfigured, DRX parameters are received for described two sets of noncontinuities of user device configuration, and indicate user equipment configured information using the corresponding DRX parameters of reduction power overhead when carrying out RRM connection；And the base station is received according to two sets of noncontinuities reception DRX parameters, for two sets of physical layer parameters of the user device configuration, with instruction user equipment after progress RRM connection is reconfigured, the configured information of the corresponding physical layer parameter of the corresponding DRX parameters of reduction power overhead is used. 14th, signaling method as claimed in claim 12, it is characterized in that, when the user equipment includes default conditions and reduction power overhead state two states, the user equipment receives the base station to be included by RRM process for the discontinuous reception DRX parameters and physical layer parameter of the user device configuration：

   The user equipment receives the base station when RRM RRC connections are reconfigured, DRX parameters are received for described two sets of noncontinuities of user device configuration, and indicate user equipment configured information using the corresponding DRX parameters of increase power overhead when carrying out RRM connection；And the base station is received according to two sets of noncontinuities reception DRX parameters, for two sets of physical layer parameters of the user device configuration, with instruction user equipment after progress RRM connection is reconfigured, the configured information of the corresponding physical layer parameter of the corresponding DRX parameters of increase power overhead is used.

   15th, the signaling method as any one of claim 1-14, it is characterised in that the length of the first timer is more than or equal to the length of the second timer.

   16th, the signaling method as described in claim 6 or 11, it is characterised in that

   The length of the first timer, the length of the second timer are set in advance in the user equipment；

   Or, the length of the first timer, the length of the second timer are assigned to the user equipment by the base station in process is set up in RRM connection or RRM connects reconfiguration course.

   17th, the signaling method as any one of claim 1-16, it is characterised in that Yong Hushe The standby preference to power overhead is changed into before need to reducing power overhead, in addition to：

   User equipment obtains the 4th timer；

   During the length for the 4th timer for being then more than or equal to the user equipment when the time that the 4th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；

   User equipment is changed into the preference of power overhead before need to increasing power overhead, in addition to：User equipment obtains the 5th timer；

   During the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

   18th, signaling method as claimed in claim 17, it is characterised in that the user equipment, which obtains the 4th timer, to be included：

   The user equipment sets the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；

   The user equipment, which obtains the 5th timer, to be included：

   The user equipment sets the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

   19th, the method as claimed in claim 18 for determining power overhead preference, it is characterized in that, the length of 4th timer is less than or equal to the length of the 6th timer, and the user equipment is set according to the 6th timer before the 4th timer, in addition to：

   The 6th timer is obtained from the base station, or, estimated according to the message obtained from the base station The length of the 6th timer set in the base station；

   The length of 5th timer is less than or equal to the length of the 7th timer, and the user equipment is set according to the 7th timer before the 5th timer, in addition to：

   The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

   20th, the method as claimed in claim 19 for determining power overhead preference, it is characterized in that, when obtaining four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When obtaining five timer from the base station, during the 5th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When obtaining six timer from the base station, during the 6th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When obtaining seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.

   21st, a kind of method for determining power overhead preference, it is characterised in that including：

   User equipment obtains at least one of the 4th timer and the 5th timer；

   When the 4th timer expiry of the user equipment or the user equipment are predicted at the user equipment During the length for the 4th timer for being more than or equal to the user equipment in the time of idle condition, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；

   During the length for the 5th timer for being less than or equal to the user equipment when the time that the estimated user equipment of the 5th timer expiry of the user equipment or the user equipment is in idle condition, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

   22nd, the method as claimed in claim 21 for determining power overhead preference, it is characterised in that the user equipment, which obtains the 4th timer, to be included：

   The user equipment sets the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；

   The user equipment, which obtains the 5th timer, to be included：

   The user equipment sets the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

   23rd, the method as claimed in claim 22 for determining power overhead preference, it is characterized in that, the length of 4th timer is less than or equal to the length of the 6th timer, and the user equipment is set according to the 6th timer before the 4th timer, in addition to：

   The 6th timer is obtained from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

   The length of 5th timer is less than or equal to the length of the 7th timer, and the user equipment is set according to the 7th timer before the 5th timer, in addition to：

   The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station. 24th, the method as claimed in claim 23 for determining power overhead preference, it is characterized in that, when obtaining four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When obtaining five timer from the base station, during the 5th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When obtaining six timer from the base station, during the 6th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When obtaining seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.

   25th, a kind of user equipment, it is characterised in that the user equipment is on the basis of including instruction sending module and the first control module, in addition at least one in the second control module and the 3rd control module：

   The instruction sending module, for being indicated to base-station transmitting-power expense preference, the power overhead indicates that the preference for including reducing power overhead indicates or increased that the preference of power overhead is indicated；

   First control module, for when user equipment is changed into the preference of power overhead and need to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, the preference that the instruction sending module sends reduction power overhead to base station is notified to refer to Second control module, the preference for increasing power overhead for when user equipment is changed into the preference of power overhead and need to increase power overhead, notifying the instruction sending module to be sent to the base station is indicated；Or, 3rd control module, for when user equipment is changed into the preference of power overhead and need to increase power overhead, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to the base station to increase the preference instruction of power overhead.

   26th, user equipment as claimed in claim 25, it is characterised in that the user equipment includes default conditions and reduction power overhead state two states；The user equipment also includes the condition judgment module for being used to judge the user equipment state in which；

   Then, first control module when user equipment is changed into the preference of power overhead specifically for that need to reduce power overhead, and the condition judgment module is when indicating that the user equipment is in default conditions, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to base station to reduce the preference instruction of power overhead；

   And, second control module is specifically for when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module is when indicating the user equipment reduction power overhead state, notify the instruction sending module is sent to the base station to increase the preference of power overhead and indicate；

   And, 3rd control module is specifically for when user equipment is changed into the preference of power overhead and need to increase power overhead, and the condition judgment module is when indicating the user equipment reduction power overhead state, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, notify the instruction sending module is sent to the base station to increase the preference instruction of power overhead.

   27th, user equipment as claimed in claim 26, it is characterised in that the condition judgment module judges The user equipment state in which includes：

   The condition judgment module judges the user equipment state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

   Or, the condition judgment module judges that the user equipment state in which includes：

   The condition judgment module receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges oneself state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

   28th, the user equipment as any one of claim 25-27, it is characterized in that, first control module is additionally operable to when judging that the first timer is not overtime, indicates that the instruction sending module that the protocol layer that the preference for reducing power overhead is indicated is sent in the user equipment notifies the transmission for being used for the preference instruction for knowing the protocol layer reduction power overhead that the preference of the power overhead of user equipment changes in the user equipment to be limited；Or, when judging that the first timer is not overtime, indicate that the user equipment does not perform any operation.

   29th, the user equipment as any one of claim 25-27, it is characterized in that, 3rd control module is additionally operable to when judging that the second timer is not overtime, indicates that the transmission that the preference for the protocol layer increase power overhead that the protocol layer that the preference that increase power overhead is sent in the user equipment is indicated notifies the preference for knowing the power overhead of user equipment to change is indicated is limited；Or, when judge it is described second timing When not overtime, indicate that the user equipment does not perform any operation₍

   30th, the user equipment as any one of claim 25-29, it is characterised in that also include：First timer management module, for including first timer when the user equipment, and the instruction sending module have sent after power overhead preference indicates to base station, start the first timer；And when the user equipment includes first timer and second timer, and the instruction sending module have sent after power overhead preference indicates to base station, start the first timer and/or the second timer.

   31st, user equipment as claimed in claim 30, it is characterised in that also include：

   Receiving module is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration；

   On the basis of including configuration receiving module, the user equipment also includes at least one in the 6th control module, the 7th control module, wherein；

   6th control module, for when the first timer in the user equipment has not timed out, but the configuration receiving module receives radio resource parameter configuration result, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, notify the instruction sending module can not be sent before first timer time-out to the base station to reduce the preference of power overhead and indicate；

   7th control module, for when the second timer in the user equipment has not timed out, but the configuration receiving module receives the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, notify the instruction sending module can not be sent before second timer time-out to the base station to increase the preference of power overhead and indicate.

   32nd, user equipment as claimed in claim 30, it is characterised in that also include: Receiving module is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration；

   On the basis of including configuration receiving module, the user equipment also includes at least one in the 8th control module, the 9th control module, wherein；

   8th control module, for being had timed out when the first timer in the user equipment, but the configuration receiving module does not receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, notify the instruction sending module can not be sent before the radio resource parameter configuration result that the base station is sent is received to the base station to reduce the preference of power overhead and indicate；

   9th control module, for being had timed out when the second timer in the user equipment, but the configuration receiving module does not receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, notify the instruction sending module can not be sent before the radio resource parameter configuration result that the base station is sent is received to the base station to increase the preference of power overhead and indicate.

   33rd, the user equipment as any one of claim 25-29, it is characterised in that also include：Receiving module is configured, for receiving the radio resource parameter configuration result that base station is the user device configuration；

   3rd management module of timer, for after the configuration receiving module receives the radio resource parameter configuration result, when the user equipment includes first timer, starting the first timer；When the user equipment includes first timer and second timer, start the first timer and/or the second timer. 34th, user equipment as claimed in claim 30, it is characterised in that also include：

   Setup module, length, the length of the second timer for setting the first timer in the user equipment in advance.

   35th, user equipment as claimed in claim 30, it is characterised in that also include：

   Length receiving module, for receiving length, the length of the second timer that the base station is assigned to the first timer of the user equipment.

   36th, the user equipment as any one of claim 25-35, it is characterised in that also include：Timer acquisition module, for obtaining at least one of the 4th timer and the 5th timer；Indicate determining module, when being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

   When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

   37th, user equipment as claimed in claim 36, it is characterised in that the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：

   First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, obtaining the 4th timer from the base station, the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, from The base station obtains the 5th timer, and the 7th timer is the timer set in the base station.

   38th, user equipment as claimed in claim 37, it is characterized in that, the length of 4th timer is less than or equal to the length of the 6th timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

   The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

   39th, user equipment as claimed in claim 38, it is characterized in that, the length of 4th timer is less than or equal to the 6th timer, second setup module is before the 4th timer is set, the timer receiving module obtains the 6th timer from the base station, or second setup module estimates the length of the 6th timer before the 4th timer is set by the message obtained from the base station；

   The length of 5th timer is less than or equal to the 7th timer, second setup module is before the 5th timer is set, the timer receiving module obtains the 7th timer from the base station, or second setup module estimates the length of the 7th timer before the 5th timer is set by the message obtained from the base station.

   40th, user equipment as claimed in claim 39, it is characterized in that, when first acquisition submodule obtains four timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 4th timer； When second acquisition submodule obtains five timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 5th timer；

   When first acquisition submodule obtains six timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 6th timer；

   When second acquisition submodule obtains seven timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 7th timer.

   41st, a kind of user equipment, it is characterised in that including：

   Timer acquisition module, for obtaining at least one of the 4th timer and the 5th timer；Indicate determining module, when being more than or equal to the length for the 4th timer that the timer acquisition module is obtained for being in the time of idle condition when the estimated user equipment of the 4th timer expiry or the user equipment that the timer acquisition module is obtained, power overhead need to be reduced by determining that the user equipment is changed into the preference of power overhead；And/or,

   When the time that the estimated user equipment of the 5th timer expiry or the user equipment that the timer acquisition module is obtained is in idle condition being less than or equal to the length for the 5th timer that the timer acquisition module is obtained, power overhead need to be increased by determining that the user equipment is changed into the preference of power overhead.

   42nd, user equipment as claimed in claim 41, it is characterised in that the timer acquisition module includes at least one of the first acquisition submodule and the second acquisition submodule, wherein：

   First acquisition submodule, for setting the 4th timer according to the 6th timer；Or, from The base station obtains the 4th timer, and the 6th timer is the timer set in the base station；Second acquisition submodule, for setting the 5th timer according to the 7th timer；Or, obtaining the 5th timer from the base station, the 7th timer is the timer set in the base station.

   43rd, user equipment as claimed in claim 42, it is characterized in that, the length of 4th timer is less than or equal to the length of the 6th timer, first acquisition submodule is additionally operable to obtain the 6th timer from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

   The length of 5th timer is less than or equal to the length of the 7th timer, second acquisition submodule is additionally operable to obtain the 7th timer from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

   44th, user equipment as claimed in claim 43, it is characterized in that, the length of 4th timer is less than or equal to the 6th timer, second setup module is before the 4th timer is set, the timer receiving module obtains the 6th timer from the base station, or second setup module estimates the length of the 6th timer before the 4th timer is set by the message obtained from the base station；

   The length of 5th timer is less than or equal to the 7th timer, second setup module is before the 5th timer is set, the timer receiving module obtains the 7th timer from the base station, or second setup module estimates the length of the 7th timer before the 5th timer is set by the message obtained from the base station.

   45th, the user equipment as described in claim 44, it is characterised in that when first acquisition submodule from When the base station obtains four timer, it is any in the radio resource control message that is sent from the base station, physical layer message, data-link layer message, cell switching information in obtain the 4th timer；When second acquisition submodule obtains five timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 5th timer；

   When first acquisition submodule obtains six timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 6th timer；

   When second acquisition submodule obtains seven timer from the base station, the radio resource control message that is sent from the base station, physical layer message, data-link layer message, it is any in cell switching information in obtain the 7th timer.

   46th, a kind of signaling sending control system, it is characterized in that, including the user equipment as any one of claim 25-40 and base station, the base station is used to receive the power overhead preference instruction that the user equipment is sent, and be that the user equipment carries out radio resource parameter configuration by RRM process, the power overhead preference indicates that the preference for including the preference instruction or increase power overhead for reducing power overhead is indicated.

   47th, signaling sending control system as claimed in claim 46, it is characterised in that the base station is additionally operable to send at least one of the 4th timer, the 5th timer, the 6th timer, the 7th timer to the user equipment.

   48th, the signaling sending control system as described in claim 46 or 47, it is characterised in that when the user equipment includes default conditions and reduction power overhead state two states, The base station is that the user equipment carries out radio resource parameter configuration by RRM process, and it includes：When RRM connection is set up, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicate the DRX parameters that the user equipment is used when carrying out RRM connection, wherein set of parameter is used to indicate that the user equipment is in default conditions, and another set of parameter is used to indicate that the user equipment is in reduction power overhead state；The base station receives DRX parameters according to different noncontinuities, is the corresponding two sets of physical layers of the user device configuration；

   Or,

   The base station is that the user equipment carries out radio resource parameter configuration by RRM process, and it includes：When RRM reconfiguration course is carried out, the base station receives DRX parameters for described two sets of noncontinuities of user device configuration, and indicate the user equipment in the DRX parameters used after the completion of RRM is reconfigured, wherein set of parameter is used to indicate that the user equipment is in default conditions, and another set of parameter is used to indicate that the user equipment is in reduction power overhead state；The base station receives DRX parameters according to different noncontinuities, is the corresponding two sets of physical layers of the user device configuration.

   49th, a kind of computer-readable storage medium, it is characterised in that the computer-readable storage medium can have program stored therein, may include the part or all of step of the signaling method as any one of claim 1-20 when being performed to program.

   50th, a kind of computer-readable storage medium, it is characterised in that the computer-readable storage medium can have program stored therein, may include the part or all of step that the method for power overhead preference is determined as any one of claim 21-24 when being performed to program.

   51st, a kind of user equipment, it is characterised in that including：Input unit, output device and processor, Wherein, the computing device following steps：

   When user equipment is changed into the preference of power overhead to reduce power overhead, judge whether the first timer for the transmission that the preference that power overhead is reduced for limiting is indicated is overtime, if it is judged that being yes, it indicates that the output device is sent to base station reduces the preference instruction of power overhead；

   When user equipment is changed into the preference of power overhead to increase power overhead, indicating that the output device is sent to the base station increases the preference instruction of power overhead, or, judge whether the second timer for the transmission that the preference for increasing power overhead for limiting is indicated is overtime, if it is judged that being yes, indicating that the output device is sent to the base station increases the preference instruction of power overhead.

   52nd, user equipment as claimed in claim 51, it is characterised in that the user equipment includes default conditions and reduction power overhead state two states, then the processor is also executed the following steps：

   When user equipment is changed into the preference of power overhead to reduce power overhead, perform and judge whether first in default conditions judges user equipment, if the first judged result judged is yes, then the second whether overtime judgement of the first timer of the transmission of preference instruction of the execution judgement for limiting reduction power overhead, if the second judged result judged is yes, indicating that the output device is sent to base station reduces the preference instruction of power overhead；

   And when user equipment is changed into the preference of power overhead and need to increase power overhead, judge user equipment whether in reduction power overhead state, if it is judged that being yes, indicating that the output device is sent to the base station increases the preference instruction of power overhead；

   Or, when user equipment is changed into the preference of power overhead to increase power overhead, performing user equipment, whether the 3rd in reduction power overhead state judges, if the 3rd judged result judged is yes, perform for limit increase power overhead preference indicate transmission second timer whether time-out the 4th judgement, if the 4th judged result judged is yes, indicate that the output device sends increase work(to the base station The preference of rate expense is indicated.

   53rd, user equipment as claimed in claim 52, it is characterised in that

   The processor judges that the determination methods of the user equipment state in which include：

   The processor judges oneself state in which according to the parameter length specified, when the length met needed for the parameter length meets default conditions, then judges that the user equipment is in default conditions；When the parameter length meets the length met needed for reduction power overhead state, then judge that the user equipment is in reduction power overhead state；

   Or, the processor judges that the determination methods of the user equipment state in which include：The processor receives DRX parameters for the noncontinuity of the user device configuration according to the base station and judges the user equipment state in which, when the user equipment receives DRX parameters using the corresponding noncontinuity of default conditions, then judge that the user equipment is in default conditions；When the user equipment receives DRX parameters using the corresponding noncontinuity of reduction power overhead state, then judge that the user equipment is in reduction power overhead state.

   54th, the user equipment as any one of claim 51-53, it is characterised in that the processor is also executed the following steps：

   When judging that the first timer is not overtime, the transmission that the preference for reducing power overhead in the user equipment for sending the protocol layer that the protocol layer that the preference of reduction power overhead is indicated notifies that the preference for knowing the power overhead of user equipment changes is indicated is notified to be limited；

   Or,

   When judging that the first timer is not overtime, the user equipment is notified not perform any operation. 55th, the user equipment as any one of claim 51-53, it is characterised in that the processor is also executed the following steps：

   When judging that the second timer is not overtime, the transmission that the preference for increasing power overhead in the user equipment for sending the protocol layer that the protocol layer that the preference of increase power overhead is indicated notifies that the preference for knowing the power overhead of user equipment changes is indicated is notified to be limited；

   Or,

   When judging that the second timer is not overtime, notifying user equipment does not perform any operation.

   56th, the user equipment as any one of claim 51-53, it is characterized in that, after the preference instruction or the preference instruction for increasing power overhead to base station transmission that power overhead is reduced to base station transmission, the processor is also executed the following steps：

   When the user equipment includes first timer, start the first timer；

   When the user equipment includes first timer and second timer, start the first timer and the second timer.

   57th, user equipment as claimed in claim 56, it is characterised in that the processor is also executed the following steps：

   When the first timer in the user equipment has not timed out, receive the radio resource parameter configuration result that the base station is sent, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, indicating that the output device can not be sent to the base station reduces the preference instruction of power overhead, until first timer time-out；

   When the second timer in the user equipment has not timed out, the radio resource parameter configuration result that the base station is sent is received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, Indicating that the output device can not be sent to the base station increases the preference instruction of power overhead, until second timer time-out.

   58th, user equipment as claimed in claim 56, it is characterised in that the processor is also executed the following steps：

   When the first timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be reduced, indicating that the output device can not be sent to the base station reduces the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent；

   When the second timer in the user equipment has timed out, but the radio resource parameter configuration result that the base station is sent is not received, and user equipment is when to the preference of power overhead being again transformed into that power overhead need to be increased, indicating that the output device can not be sent to the base station increases the preference instruction of power overhead, until receiving the radio resource parameter configuration result that the base station is sent.

   59th, the user equipment as any one of claim 51-53, it is characterised in that the processor is also executed the following steps：

   Receive the radio resource parameter configuration result that the base station is sent；

   When the user equipment includes first timer, start the first timer；

   When the user equipment includes first timer and second timer, start the first timer and the second timer.

   60th, the user equipment as any one of claim 51-66, it is characterised in that the length of the first timer is more than or equal to the length of the second timer. 61st, user equipment as claimed in claim 56, it is characterised in that the processor is also executed the following steps：

   Length, the length of the second timer of the first timer are set in the user equipment in advance；

   Or, receive length, the length of the second timer that the first timer that is assigned to the user equipment is set up in process or RRM connection reconfiguration course by the base station in RRM connection.

   62nd, the user equipment as any one of claim 51-68, it is characterised in that the processor is also executed the following steps：Obtain the 4th timer；

   During the length for the 4th timer for being then more than or equal to the acquisition when the time that the 4th timer expiry of the acquisition or the estimated user equipment of the user equipment are in idle condition, the processor, which determines that the user equipment is changed into the preference of power overhead, need to reduce power overhead；

   Obtain the 5th timer；

   During the length for the 5th timer for being then less than or equal to the user equipment when the time that the 5th timer expiry of the user equipment or the estimated user equipment of the user equipment are in idle condition, the processor, which determines that the user equipment is changed into the preference of power overhead, need to increase power overhead.

   63rd, the user equipment as described in claim 69, it is characterised in that the processor obtains the 4th timer the 4th timer of acquisition and specifically included：

   The processor sets the 4th timer according to the 6th timer；Or, the processor obtains the 4th timer from the base station, the 6th timer is the timer set in the base station； The processor obtains the 5th timer and specifically included：

   The processor sets the 5th timer according to the 7th timer；Or, the processor obtains the 5th timer from the base station, the 7th timer is the timer set in the base station.

   64th, the user equipment as described in claim 70, it is characterized in that, the length of 4th timer is less than or equal to the length of the 6th timer, and the processor sets before the 4th timer according to the 6th timer, also executed the following steps：

   The 6th timer is obtained from the base station, or, the length of the 6th timer set in estimating the base station according to the message obtained from the base station；

   The length of 5th timer is less than or equal to the length of the 7th timer, and the processor sets before the 5th timer according to the 7th timer, also executed the following steps：

   The 7th timer is obtained from the base station, or, the length of the 7th timer set in estimating the base station according to the message obtained from the base station.

   65th, the user equipment as described in claim 71, it is characterised in that

   When the processor obtains four timer from the base station, during the 4th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When the processor obtains five timer from the base station, during the 5th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information；

   When the processor obtains six timer from the base station, the 6th timer carries the radio resource control message sent in the base station, physical layer message, data-link layer message, cell In handover request it is any in；

   When the processor obtains seven timer from the base station, during the 7th timer carrying is any in the radio resource control message that the base station is sent, physical layer message, data-link layer message, cell switching information.