CN104509179A - Data receiving method, sending method and device - Google Patents

Abstract

Provided are a data receiving method, sending method and device. The receiving method comprises: switching a DTX configuration from using a first DTX parameter set to using a second DTX parameter set for discontinuous transmission, according to a received service request, and sending the switched DTX configuration to a UE, wherein the activation state time of a first DTX period in the first DTX parameter set is less than the activation state time of a second DTX period in the second DTX parameter set, or the proportion of the activation state time of the first DTX period in the first DTX period is less than the proportion of the activation state time of the second DTX period in the second DTX period; and receiving uplink data of the UE in the activation state time of the second DTX period. The present invention can meet the QoS requirement of a UE.

Description

Data receiving method, sending method and device

Data receiver method, sending method and equipment

Technical field

The present embodiments relate to the communication technology, more particularly to a kind of data receiver method, sending method and equipment.

Background technology

In a communications system, such as Long Term Evolution（Long Time Evolution, referred to as LTE) in system, the smaller new wave-carring type of coverage can be configured under traditional macrocell（New Carrier Types, referred to as NCT) cell.NCT cells are a kind of cells of use Novel carrier wave configuration, employ a kind of new enhanced Physical Downlink Control Channel（Evolved Physical Downl ink Control Channel, referred to as ePDCCH).

Base station belonging to NCT cells, such as evolved base station（Evolved NodeB, referred to as eNB), it is configurable to discontinuous transmission（Discontinuous Transmission, referred to as DTX) state, i.e. eNB can alternately be in activated state and inactive state.UE can have discontinuous reception (Di scontinuous Reception, referred to as DRX) function.ENB, by Transmitter Turn-Off, opens it, repeated according to certain cycle during inactive state again during entering activated state.This can reduce the electric quantity consumption of network side to a certain extent, but due to the discontinuous transmitting of base station, the UE numbers being typically resident under the NCT cells for opening DTX functions will not be a lot.

If for the purpose of power saving, eNB is configured with the DTX of longer cycle, then because eNB has long time to be in unactivated state, it is impossible to send ascending resource assignment messages to UE.If now UE needs to initiate uplink service, uplink random access pilot code (preamble) or dispatch request (Schedul ing Request must be sent during eNB next DTX activated states, referred to as SR) to apply for ascending resource to eNB so that UE access delay is than larger.In addition, in existing long period DTX scheme, duration during each activated state is shorter, in the event of re-transmission or UE packets than the larger situation for needing repeatedly to send, then UE possibly interior during the activated state in a DTX cycle can not complete data transfer, so as to which transmission must be proceeded during the activated state in next DTX cycles, cause larger data transmission delay.As can be seen here, if eNB performs the macrocyclic DTX of comparison, it will be difficult to meet UE Qos demands. The content of the invention

The embodiment of the present invention provides a kind of data receiver method, sending method and equipment, to solve the eNB of prior art presence because performing the problem of DTX of longer cycle can not meet UE QoS demand.

First aspect provides a kind of data receiver method, including：

Receive the service request that user equipment (UE) is sent；

Discontinuous transmission DTX is configured and switched to by carrying out discontinuous transmission using the first DTX parameter sets using the 2nd DTX parameter sets progress discontinuous transmission by the service request sent according to the UE, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or the ratio of the activated state time in the first DTX cycles in the first DTX cycles in the first DTX parameter sets is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

The DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE;DTX configurations according to discontinuous transmission is carried out using the 2nd DTX parameter sets determine the activated state time in the 2nd DTX cycles；

The upstream data that the UE is sent is received within the activated state time in the 2nd DTX cycles.

With reference in a first aspect, in the first possible implementation of first aspect, the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

With reference to the first possible implementation of first aspect or first aspect, in second of possible implementation of first aspect, the first DTX cycles are more than or equal to the 2nd DTX cycles.

With reference to second of possible implementation of the first possible implementation or first aspect of first aspect or first aspect, in the third possible implementation of first aspect, methods described also includes：Determine that the upstream data of the UE is sent, and DTX configurations are switched to using the first DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the 2nd DTX parameter sets；

The DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to described

UE o

It is described that the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE in the 4th kind of possible implementation of first aspect with reference to the third possible implementation of first aspect, including：

Disappeared by the first radio resource control RRC dedicated signalings or the first beep-page message or the first broadcast Breath, the UE is sent to by the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets;It is described that the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE, including：

Broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second, the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE.

With reference to the 4th kind of possible implementation of the third possible implementation or first aspect of second possible implementation or first aspect of the first possible implementation or first aspect of first aspect or first aspect, in the 5th kind of possible implementation of first aspect, methods described also includes：According to the service request, set up RRC with the UE and be connected；

The upstream data that the UE transmissions are received within the activated state time in the 2nd DTX cycles, including：

Connected by the RRC, the upstream data that the UE is sent is received within the activated state time in the 2nd DTX cycles.

With reference to the 5th kind of possible implementation of the 4th kind of possible implementation or first aspect of the third possible implementation or first aspect of second possible implementation or first aspect of the first possible implementation or first aspect of first aspect or first aspect, in the 6th kind of possible implementation of first aspect, the service request includes dispatch request or random access request.

Second aspect provides a kind of data transmission method for uplink, including：

Service request is sent to base station；

Receive use the second discontinuous transmission DTX parameter sets progress discontinuous transmission that the base station is sent

DTX is configured, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the base station and configured according to the service request by using the DTX of the first DTX parameter sets progress discontinuous transmission to configure the DTX used after switching, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

The activated state time in the 2nd DTX cycles is determined according to the DTX configurations for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets；

Within the activated state time in the 2nd DTX cycles of the determination upstream data is sent to the base station. With reference to second aspect, in the first possible implementation of second aspect, the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

With reference to the first possible implementation of second aspect or second aspect, in second of possible implementation of second aspect, the first DTX cycles are more than or equal to the 2nd DTX cycles.

With reference to second of possible implementation of the first possible implementation or second aspect of second aspect or second aspect, in the third possible implementation of second aspect, after sending upstream data to the base station within the activated state time in the 2nd DTX cycles, methods described also includes：

Receive the DTX configurations for the DTX parameter sets of use the first progress discontinuous transmission that base station is sent.

With reference to the third possible implementation of second aspect, in the 4th kind of possible implementation of second aspect, the DTX configurations for receiving use the second discontinuous transmission DTX parameter sets progress discontinuous transmission that the base station is sent, including：

The first radio resource control RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent are received, the first RRC dedicated signalings or the first beep-page message or the first broadcast message include the DTX configurations that discontinuous transmission is carried out using the second discontinuous transmission DTX parameter sets；

The DTX parameter sets of use the first that the reception base station is sent carry out the DTX configurations of discontinuous transmission, including：

The 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent are received, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message include the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets.

With reference to the 4th kind of possible implementation of the third possible implementation or second aspect of second possible implementation or second aspect of the first possible implementation or second aspect of second aspect or second aspect, in the 5th kind of possible implementation of second aspect, the service request includes dispatch request or random access request.

The third aspect provides a kind of data receiver method, including：

The service request for being used to ask to initiate the first business that user equipment (UE) is sent is received, and receives described

Resource type needed for the service quality QoS grade and/or first business of first business that UE is sent；

Resource type according to needed for the QoS grades of first business and/or first business, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, it is determined that corresponding with the resource type needed for the QoS grades and/or first business of first business adopt The DTX configurations of discontinuous transmission are carried out with the 3rd DTX parameter sets；

The DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets are sent to the UE;The activated state time in the 3rd DTX cycles is determined according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

The upstream data that the UE is sent is received within the activated state time in the 3rd DTX cycles.

With reference to the third aspect, in the first possible implementation of the third aspect, the resource type received needed for the service quality QoS grade and/or first business for first business that the UE is sent, including：

The radio resource control RRC connection setup complete messages that the UE is sent are received, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or first business of first business.

It is described that the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets are sent to the UE in second of possible implementation of the third aspect with reference to the first possible implementation of the third aspect or the third aspect, including：

By RRC dedicated signalings or beep-page message or broadcast message, the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets are sent to the UE.

With reference to second of possible implementation of the first possible implementation or the third aspect of the third aspect or the third aspect, in the third possible implementation of the third aspect, the service request for being used to ask to initiate the first business for receiving user equipment (UE) transmission, including：

Receive the service request for being used to ask to initiate at least one the first business that user equipment (UE) is sent；Resource type needed for the QoS grades and/or first business according to first business, from at least one DTX configuration that discontinuous transmission is carried out using discontinuous transmission DTX parameter sets of setting, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business, including：

Resource type according to needed for the QoS grades of at least one first business and/or at least one described first business, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business；

From at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, really The activated state time for determining the DTX cycles is most long, and the most short DTX parameter sets of use the 4th of inactive state time in DTX cycles are carried out the DTX configurations of discontinuous transmission and are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

With reference to the third possible implementation of second possible implementation or the third aspect of the first possible implementation or the third aspect of the third aspect or the third aspect, in the 4th kind of possible implementation of the third aspect, methods described also includes：

If DTX configurations are switched to DTX configurations using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets using the non-3rd DTX parameter sets progress discontinuous transmission.

With reference to the 4th kind of possible implementation of the third possible implementation or the third aspect of second possible implementation or the third aspect of the first possible implementation or the third aspect of the third aspect or the third aspect, in the 5th kind of possible implementation of the third aspect, at least one described DTX parameter set corresponds to different parameter combinations respectively, and the parameter combination includes at least one in QoS grades and resource type.

With reference to the 5th kind of possible implementation of the 4th kind of possible implementation or the third aspect of the third possible implementation or the third aspect of second possible implementation or the third aspect of the first possible implementation or the third aspect of the third aspect or the third aspect, in the 6th kind of possible implementation of the third aspect, the service request includes dispatch request or random access request.

Fourth aspect provides a kind of data transmission method for uplink, including：

Sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the service quality QoS grade and/or first business of first business to the base station；

Receive the DTX configurations for the DTX parameter sets of use the 3rd progress discontinuous transmission that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting；

The activated state time in the 3rd DTX cycles is determined according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

Within the activated state time in the 3rd DTX cycles upstream data is sent to the base station.

It is described to the base in the first possible implementation of fourth aspect with reference to fourth aspect Stand and send resource type needed for the service quality QoS grade and/or first business of first business, including：

Radio resource control RRC connection setup complete messages are sent to the base station, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or first business of first business.

With reference to the first possible implementation of fourth aspect or fourth aspect, in second of possible implementation of fourth aspect, the DTX configurations for receiving the DTX parameter sets of use the 3rd progress discontinuous transmission that the base station is sent, including：

RRC dedicated signalings or beep-page message or broadcast message that the base station is sent are received, the RRC dedicated signalings or beep-page message or broadcast message include the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

With reference to second of possible implementation of the first possible implementation or fourth aspect of fourth aspect or fourth aspect, in the third possible implementation of fourth aspect, the service request includes dispatch request or random access request.

5th aspect provides a kind of data receiver method, including：

Receive the service request that user equipment (UE) is sent；

Emission state is switched to by continuous emission state by discontinuous transmission DTX state according to the service request；

The emission state of the continuous emission state after the switching is sent to the UE;

Under continuous emission state after the switching, the upstream data that the UE is sent is received.

With reference to the 5th aspect, in the first possible implementation of the 5th aspect, methods described also includes：Determine that the upstream data of the UE is sent；

The emission state is switched into DTX state；

The emission state of the DTX state after switching is sent to the UE.

With reference to the 5th aspect, in second of possible implementation of the 5th aspect, methods described also includes：When the emission state is switched into continuous emission state by DTX state, start timing, at the end of timing, the emission state is switched into DTX state by continuous emission state, and the emission state of the DTX state after switching is sent to the UE.

With reference to second of possible implementation of the 5th aspect, in the third possible implementation of the 5th aspect, methods described also includes： If receiving the service request of other UE transmissions before timing terminates, restart timing.With reference to second of possible implementation or the third possible implementation of the 5th aspect of the first possible implementation or the 5th aspect of the 5th aspect or the 5th aspect, in the 4th kind of possible implementation of the 5th aspect, the service request includes dispatch request or random access request.

6th aspect provides a kind of data transmission method for uplink, including：

Service request is sent to base station；

The base station of the base station transmission is received according to the emission state of the continuous transmitting after service request switching, wherein, the emission state before the base station switching is discontinuous transmission DTX state；

The emission state of continuous transmitting after being switched according to the base station determines to send the time of upstream data and/or emission state is switched to the emission state continuously launched；

Upstream data is sent according to the time of the transmission upstream data of the determination and/or to the base station under the emission state continuously launched.

With reference to the 6th aspect, in the first possible implementation of the 6th aspect, methods described also includes：Receive the emission state for the DTX state that the base station is sent.

7th aspect provides a kind of base station, including：

Receiving module, the service request for receiving user equipment (UE) transmission；

Handover module, the service request sent for the UE received according to the receiving module, discontinuous transmission DTX configurations are switched to using the 2nd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；Sending module, the DTX configurations for the handover module to be configured to the DTX parameter sets of use the 2nd used after switching progress discontinuous transmission to DTX are sent to the UE;

Determining module, the activated state time for determining the 2nd DTX cycles according to the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets；

The receiving module, is additionally operable within the activated state time in the 2nd DTX cycles of determining module determination receive the upstream data that the UE is sent.

With reference to the 7th aspect, in the first possible implementation of the 7th aspect, the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles. With reference to the 7th aspect or the first possible implementation of the 7th aspect, in second of possible implementation of the 7th aspect, the first DTX cycles are more than or equal to the 2nd DTX cycles.

With reference to second of possible implementation of the first possible implementation or the 7th aspect of the 7th aspect or the 7th aspect, in the third possible implementation of the 7th aspect, the handover module is additionally operable to determine that the upstream data of the UE is sent, and DTX configurations are used into second by described

DTX parameter sets carry out discontinuous transmission and switched to using the first DTX parameter sets progress discontinuous transmission;The sending module is additionally operable to the DTX configurations for carrying out discontinuous transmission using the first DTX parameter sets used after the DTX configuration switchings for being carried out discontinuous transmission using the 2nd DTX parameter sets are sent to the handover module into the UE.

With reference to the third possible implementation of the 7th aspect, in the 4th kind of possible implementation of the 7th aspect, the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE by the sending module specifically for being broadcast the message by the first radio resource control RRC dedicated signalings or the first beep-page message or first;

The DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to described by the sending module specifically for being broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second

UE o

With reference to second of possible implementation of the first possible implementation or the 7th aspect of the 7th aspect or the 7th aspect or the third possible implementation of the 7th aspect or the 4th kind of possible implementation of the 7th aspect, in the 5th kind of possible implementation of the 7th aspect, the base station also includes connection establishment module；

The connection establishment module is used for the service request received according to the receiving module, sets up RRC with the UE and is connected；

The receiving module receives the upstream data that the UE is sent specifically for the RRC connections set up by the connection establishment module within the activated state time in the 2nd DTX cycles.

With reference to second of possible implementation or the 5th kind of possible implementation of the third possible implementation of the 7th aspect or the 4th kind of possible implementation of the 7th aspect or the 7th aspect of the first possible implementation or the 7th aspect of the 7th aspect or the 7th aspect, in the 6th kind of possible implementation of the 7th aspect, the service request includes dispatch request or random access request.

Eighth aspect provides a kind of user equipment, including：

Sending module, for sending service request to base station； Receiving module, the DTX configurations of discontinuous transmission are carried out for receiving use the second discontinuous transmission DTX parameter sets that the base station is sent, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the DTX configurations that the service request that the base station sends according to the sending module is used after the DTX configuration switchings that discontinuous transmission is carried out using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

Determining module, the DTX parameter sets of use the 2nd for being received according to the receiving module carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission；

The sending module, is additionally operable within the activated state time in the 2nd DTX cycles of determining module determination send upstream data to the base station.

With reference to eighth aspect, in the first possible implementation of eighth aspect, the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

With reference to the first possible implementation of eighth aspect or eighth aspect, in second of possible implementation of eighth aspect, the first DTX cycles are more than or equal to the 2nd DTX cycles.

With reference to second of possible implementation of the first possible implementation or eighth aspect of eighth aspect or eighth aspect, in the third possible implementation of eighth aspect, the receiving module is additionally operable to after the sending module sends upstream data within the activated state time in the 2nd DTX cycles to the base station, receives the DTX configurations for the DTX parameter sets of use the first progress discontinuous transmission that the base station is sent.

With reference to the third possible implementation of eighth aspect, in the 4th kind of possible implementation of eighth aspect, the receiving module includes carrying out the DTX configurations of discontinuous transmission using the 2nd DTX parameter sets specifically for receiving the first radio resource control RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent, the first RRC dedicated signalings or the first beep-page message or the first broadcast message；

The receiving module includes the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets specifically for receiving the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message.

With reference to second of the first possible implementation or eighth aspect of eighth aspect or eighth aspect 4th kind of possible implementation of the third possible implementation or eighth aspect of possible implementation or eighth aspect, in the 5th kind of possible implementation of eighth aspect, the service request includes dispatch request or random access request.

9th aspect provides a kind of base station, including：

Receiving module, for receiving the service request for being used to ask to initiate the first business of user equipment (UE) transmission, and receives the resource type needed for the service quality QoS grade and/or first business for first business that the UE is sent；

Determining module, for the resource type needed for the QoS grades of the first business and/or first business that are received according to the receiving module, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business;Sending module, the DTX configurations that the DTX parameter sets of use the 3rd for the determining module to be determined carry out discontinuous transmission are sent to the UE;

The determining module, is additionally operable to determine the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

The receiving module, is additionally operable within the activated state time in the 3rd DTX cycles of determining module determination receive the upstream data that the UE is sent.

With reference to the 9th aspect, in the first possible implementation of the 9th aspect, the receiving module includes the resource type needed for the QoS grades and/or first business of first business specifically for receiving the radio resource control RRC connection setup complete messages that the UE is sent, the RRC connection setup complete messages.

With reference to the 9th aspect or the first possible implementation of the 9th aspect, in second of possible implementation of the 9th aspect, the sending module is specifically for by RRC dedicated signalings or beep-page message or broadcast message, the UE is sent to by the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets.

With reference to second of possible implementation of the first possible implementation or the 9th aspect of the 9th aspect or the 9th aspect, in the third possible implementation of the 9th aspect, the receiving module, specifically for receiving the service request for being used to ask to initiate at least one the first business that the UE is sent；The determining module, specifically for the resource type needed for the QoS grades and/or at least one described first business according at least one first business, from least one discontinuous transmission of the use of setting DTX Parameter set is carried out in the DTX configurations of discontinuous transmission, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business, from at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, determine that the activated state time in DTX cycles is most long, and most short DTX parameter sets of use the 4th of the inactive state time in DTX cycles are carried out the DTX configurations of discontinuous transmission and are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

With reference to second of possible implementation or the third possible implementation of the 9th aspect of the first possible implementation or the 9th aspect of the 9th aspect or the 9th aspect, in the 4th kind of possible implementation of the 9th aspect, the determining module is additionally operable to, when DTX configurations are using the non-3rd DTX parameter sets progress discontinuous transmission, DTX configurations be switched to using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets.

With reference to second of possible implementation of the first possible implementation or the 9th aspect of the 9th aspect or the 9th aspect or the third possible implementation of the 9th aspect or the 4th kind of possible implementation of the 9th aspect, in the 5th kind of possible implementation of the 9th aspect, at least one described DTX parameter set corresponds to different parameter combinations respectively, and the parameter combination includes at least one in QoS grades and resource type.

With reference to second of possible implementation or the 5th kind of possible implementation of the third possible implementation of the 9th aspect or the 4th kind of possible implementation of the 9th aspect or the 9th aspect of the first possible implementation or the 9th aspect of the 9th aspect or the 9th aspect, in the 6th kind of possible implementation of the 9th aspect, the service request includes dispatch request or random access request.

Tenth aspect provides a kind of user equipment, including：

Sending module, for being sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the service quality QoS grade and/or first business of first business to the base station；

Receiving module, the DTX configurations of discontinuous transmission are carried out for receiving the discontinuous transmission DTX parameter sets of use the 3rd that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from the use of setting at least one DTX parameter set； Determining module, the DTX parameter sets of use the 3rd for being received according to the receiving module carry out the activated state time in DTX configuration the 3rd DTX cycles of determination of discontinuous transmission；

The sending module, is additionally operable within the activated state time in the 3rd DTX cycles of determining module determination send upstream data to the base station.

With reference to the tenth aspect, in the first possible implementation of the tenth aspect, the sending module, specifically for sending radio resource control RRC connection setup complete messages to the base station, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or first business of first business.

With reference to the tenth aspect or the first possible implementation of the tenth aspect, in second of possible implementation of the tenth aspect, the receiving module, specifically for receiving RRC dedicated signalings or beep-page message or the broadcast message that the base station is sent, the RRC dedicated signalings or beep-page message or broadcast message include the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

With reference to second of possible implementation of the first possible implementation or the tenth aspect of the tenth aspect or the tenth aspect, in the third possible implementation of the tenth aspect, the service request includes dispatch request or random access request.

Tenth one side provides a kind of base station, including：

Receiving module, the service request for receiving user equipment (UE) transmission；

Handover module, continuous emission state is switched to for the service request that is received according to the receiving module by emission state by discontinuous transmission DTX state；

Sending module, for the emission state of the continuous emission state after handover module switching to be sent into the UE;

The receiving module, is additionally operable under the continuous emission state after the handover module switches, and receives the upstream data that the UE is sent.

With reference to the tenth on the one hand, in the first possible implementation of the tenth one side, the base station also includes determining module；

The determining module, for determining that the upstream data of the UE is sent；

The handover module, is additionally operable to after the determining module determines that the upstream data of the UE is sent, the emission state is switched into DTX state；

The sending module, the emission state for being additionally operable to the DTX state after the handover module is switched is sent to the UE. With reference to the tenth on the one hand, in second of possible implementation of the tenth one side, the base station also includes：Timing module, for the timing when the emission state is switched into continuous emission state by DTX state；

The handover module, is additionally operable to that the emission state is switched into DTX state by continuous emission state at the end of the timing module timing；

The sending module, for the emission state of the DTX state after handover module switching to be sent into the UE.

With reference to second of possible implementation of the tenth one side, in the third possible implementation of the tenth one side, the timing module, is additionally operable to, when the receiving module receives the service request of other UE transmissions before timing terminates, restart timing.

With reference to the tenth one side or the first possible implementation or second of the possible implementation or the third possible implementation of the tenth one side of the tenth one side of the tenth one side, in the 4th kind of possible implementation of the tenth one side, the service request includes dispatch request or random access request.

12nd aspect provides a kind of user equipment, including：

Sending module, for sending service request to base station；

Receiving module, the emission state for receiving the continuous transmitting after the base station that the base station is sent switches according to the service request, wherein, the emission state before the base station switching is discontinuous transmission DTX states；

Determining module, for received according to the receiving module the base station switching after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched；

The sending module, is additionally operable to send upstream data according to the time of the transmission upstream data of determining module determination and/or under the emission state continuously launched to the base station.

With reference to the 12nd aspect, in the first possible implementation of the 12nd aspect, the receiving module is additionally operable to receive the emission state for the DTX state that the base station is sent.

13rd aspect provides a kind of base station, including：

Receiver, the service request for receiving user equipment (UE) transmission；

Processor, the service request sent for the UE received according to the receiver, by discontinuous transmission DTX configurations by carrying out the activated state time that discontinuous transmission switches to the first DTX cycles carried out using the 2nd DTX parameter sets in discontinuous transmission, the first DTX parameter sets using the first DTX parameter sets Ratio of the activated state time in the first DTX cycles less than the first DTX cycles in the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or the first DTX parameter sets is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；Transmitter, the DTX configurations for the processor to be configured to the DTX parameter sets of use the 2nd used after switching progress discontinuous transmission to DTX are sent to the UE;

The processor, is additionally operable to determine the activated state time in the 2nd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 2nd DTX parameter sets；

The receiver, is additionally operable within the activated state time in the 2nd DTX cycles of processor determination receive the upstream data that the UE is sent.

Fourteenth aspect provides a kind of user equipment, including：

Transmitter, for sending service request to base station；

Receiver, the DTX configurations of discontinuous transmission are carried out for receiving use the second discontinuous transmission DTX parameter sets that the base station is sent, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the DTX configurations that the service request that the base station sends according to the sending module is used after the DTX configuration switchings that discontinuous transmission is carried out using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

Processor, the DTX parameter sets of use the 2nd for being received according to the receiver carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission；

The transmitter is additionally operable to send upstream data to the base station in the activated state time in the 2nd DTX cycles determined in the processor.

15th aspect provides a kind of base station, including：

Receiver, for receiving the service request for being used to ask to initiate the first business of user equipment (UE) transmission, and receives the resource type needed for the service quality QoS grade and/or first business for first business that the UE is sent；

Processor, for the resource type needed for the QoS grades of the first business and/or first business that are received according to the receiver, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, it is determined that QoS grades and/or first business with first business The corresponding DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets of required resource type；Transmitter, the DTX configurations that the DTX parameter sets of use the 3rd for the processor to be determined carry out discontinuous transmission are sent to the UE;

The processor is additionally operable to determine the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

The receiver is additionally operable in the activated state time in the 3rd DTX cycles determined in the processor receive the upstream data that the UE is sent.

16th aspect provides a kind of user equipment, including：

Transmitter, for being sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the service quality QoS grade and/or first business of first business to the base station；

Receiver, the DTX configurations of discontinuous transmission are carried out for receiving the discontinuous transmission DTX parameter sets of use the 3rd that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from the use of setting at least one DTX parameter set；

Processor, the DTX parameter sets of use the 3rd for being received according to the receiver carry out the activated state time in DTX configuration the 3rd DTX cycles of determination of discontinuous transmission；

The transmitter is additionally operable to send upstream data to the base station in the activated state time in the 3rd DTX cycles determined in the processor.

17th aspect provides a kind of base station, including：

Receiver, the service request for receiving user equipment (UE) transmission；

Processor, continuous emission state is switched to for the service request that is received according to the receiver by emission state by discontinuous transmission DTX state；

Transmitter, for the emission state of the continuous emission state after processor switching to be sent into the UE;

The receiver, is additionally operable under the continuous emission state after the processor switches, and receives the upstream data that the UE is sent.

18th aspect provides a kind of user equipment, including： Transmitter, for sending service request to base station；

Receiver, the emission state for receiving the continuous transmitting after the base station that the base station is sent switches according to the service request, wherein, the emission state before the base station switching is discontinuous transmission DTX states；

Processor, for received according to the receiver the base station switching after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched；

The transmitter is additionally operable to the time of the transmission upstream data determined according to the processor and/or under the emission state continuously launched to base station transmission upstream data.

On the one hand data receiver method, sending method and the base station provided, by setting two DTX parameter sets, wherein, the activated state time in the DTX cycles that the first parameter set is included is shorter, and the activated state time in the DTX cycles that the second parameter set is included is longer, when no UE initiates business, base station performs DTX using the parameter of the first parameter set so that base station can save electricity；After UE service request is received, by by DTX configuration changes be the second parameter set configuration, base station allow when UE has business demand, time of the extension in activated state, the time in inactive state is reduced, UE can be enable to access cell in time and serviced, UE accesses or the time delay carried out data transmission is alleviated, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

On the other hand the data receiver method provided, sending method and base station, service quality rating and/or required resource type for different business, at least one DTX parameter set is set, after the service request of UE transmissions is received, the service quality rating and/or required resource type for the business that the request sent according to UE is carried out, from the DTX configurations that discontinuous transmission is carried out using at least one DTX parameter set, it is determined that asking the service quality rating of the business of development and/or the required corresponding DTX configurations using the 3rd DTX parameter sets progress discontinuous transmission of resource type with UE, then determined to receive UE upstream data in the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets, base station allow according to UE different business demand, preferably adjustment is in the time scale of activated state and inactive state, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Data receiver method, sending method and base station that another aspect is provided, in the case where UE has business demand, emission state is switched to continuous emission state by base station by DTX state, UE can be made to access in time Cell is serviced, and is alleviated UE accesses or the time delay carried out data transmission, is solved because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand, so as to ensure the transmission or access of the above-mentioned data of UE.Brief description of the drawings is in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, the required accompanying drawing used in embodiment or description of the prior art will be briefly described below, apparently, drawings in the following description are some embodiments of the present invention, for those of ordinary skill in the art, without having to pay creative labor, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of flow chart of data receiver method provided in an embodiment of the present invention；

Fig. 2 is the schematic diagram of the DTX mechanism provided in an embodiment of the present invention using the first DTX parameter sets；Fig. 3 is the schematic diagram of the DTX mechanism provided in an embodiment of the present invention using the 2nd DTX parameter sets；Fig. 4 is the flow chart of another data receiver method provided in an embodiment of the present invention；

Fig. 5 is the flow chart of another data receiver method provided in an embodiment of the present invention；

Fig. 6 is a kind of flow chart of data transmission method for uplink provided in an embodiment of the present invention；

Fig. 7 is the flow chart of another data receiver method provided in an embodiment of the present invention；

Fig. 8 is the flow chart of another data transmission method for uplink provided in an embodiment of the present invention；

Fig. 9 is the flow chart of another data receiver method provided in an embodiment of the present invention；

Figure 10 is the flow chart of another data transmission method for uplink provided in an embodiment of the present invention；

Fig. 11 is a kind of structural representation of base station provided in an embodiment of the present invention；

Figure 12 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 13 is a kind of UE structural representation provided in an embodiment of the present invention；

Figure 14 is another UE provided in an embodiment of the present invention structural representation；

Figure 15 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 16 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 17 is another UE provided in an embodiment of the present invention structural representation；

Figure 18 is another UE provided in an embodiment of the present invention structural representation；

Figure 19 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 20 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 21 is another UE provided in an embodiment of the present invention structural representation； Figure 22 is another UE provided in an embodiment of the present invention structural representation.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention.

Illustrate first, because the base station belonging to NTC cells is configurable to DTX state, base station i.e. belonging to NTC cells can alternately be in activated state and inactive state, the time of activated state and inactive state can be in by changing the base station belonging to NTC cells, to reach the purpose for changing the base station belonging to the NTC cells for the UE effects serviced, therefore following examples of the present invention are applied to NTC cells, but are not limited to NTC cells.

Fig. 1 is a kind of flow chart of data receiver method provided in an embodiment of the present invention.As shown in figure 1, methods described includes：

Step 101, the service request for receiving UE transmissions.

DTX is configured and switched to by carrying out discontinuous transmission using the first DTX parameter sets using the 2nd DTX parameter sets progress discontinuous transmission by step 102, the service request sent according to UE.

Step 103, will using the 2nd DTX parameter sets carry out discontinuous transmission the DTX configuration be sent to the UE.

In the present embodiment, described DTX parameter sets can include at least one of parameters described below：The parameters such as the length in DTX cycles, the activated state time in DTX cycles and the inactive state time in DTX cycles.For example, the first DTX parameter sets can include at least one of parameters described below：The parameters such as the inactive state time in the first DTX cycles, the activated state time in the first DTX cycles and the first DTX cycles；The 2nd DTX parameter sets can include at least one of parameters described below：The parameters such as the inactive state time in the 2nd DTX cycles, the activated state time in the 2nd DTX cycles and the 2nd DTX cycles.

Wherein, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than the ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX cycles in the 2nd DTX parameter sets, so when base station is from the first DTX When parameter set is changed to perform DTX using the 2nd DTX parameter sets, the time in activated state can be extended, reduce the time in inactive state, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

It is further alternative, the inactive state time in the 2nd DTX cycles that inactive state time in the first DTX cycles in the first DTX parameter sets can be more than or equal in the 2nd DTX parameter sets.In the case that the inactive state time in the first DTX cycles in the first DTX parameter sets is more than the inactive state time in the 2nd DTX cycles in the 2nd DTX parameter sets, when base station is changed to perform DTX using the 2nd DTX parameter sets from the first DTX parameter sets, the time in inactive state can further be reduced, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.In the case where the first DTX cycles are more than the 2nd DTX cycles, when base station is changed to perform DTX using the 2nd DTX parameter sets from the first DTX parameter sets, the time in inactive state can also further be reduced, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.For example, a kind of DTX mechanism using the first DTX parameter sets is as shown in Fig. 2 a kind of as shown in Figure 3 using the DTX mechanism of the 2nd DTX parameter sets.

When the DTX of base station is configured to carry out discontinuous transmission using the first DTX parameter sets, inactive state is within each DTX cycles（That is Transmitter Turn-Off）Duration it is long, and within each DTX cycles In activated state（I.e. emitter is opened）Duration it is shorter, it may be thus possible, for example, to there is no UE to need the scene of initiation business suitable for NCT cells.When the DTX configurations of base station carry out discontinuous transmission using the 2nd DTX parameter sets, activated state is within each DTX cycles（I.e. emitter is opened）Duration it is long, and within each DTX cycles be in inactive state（That is Transmitter Turn-Off）Duration it is shorter, it may be thus possible, for example, to there is UE to need the scene of initiation business suitable for NCT cells.

After the service request that the UE that base station is received in NCT cells is sent, if the current DTX configurations in base station are to carry out discontinuous transmission using the 2nd DTX parameter sets, current DTX can be then kept to configure, if current DTX configurations are to carry out discontinuous transmission using the first DTX parameter sets, in order that obtaining UE can commence business in time, the service quality about business is met（DTX is configured and switched to by carrying out discontinuous transmission using the first DTX parameter sets using the 2nd DTX parameter sets progress discontinuous transmission, so that base station can have the long period to be in activated state within each DTX cycles by QoS) demand, base station.Simultaneously, in order that UE can be synchronous with base station side, base station is needed the DTX that the DTX parameter sets of use the 2nd after switching carry out discontinuous transmission configuring synchronization notice to UE, and in the case of being in activated state in base station so as to UE, upstream data is sent to base station.

Optionally, base station can not only send the DTX configurations that the DTX parameter sets of use the 2nd after switching carry out discontinuous transmission to the UE of initiating business request, the DTX that the DTX parameter sets of use the 2nd after switching can also be carried out to discontinuous transmission configures synchronization notice to other UE in NCT cells, in the case that so other UE can also be in activated state in base station, to base station initiating business request.

Optionally, base station can pass through radio resource control（Radio Resource Control, referred to as RRC) mode such as dedicated signaling or beep-page message or broadcast message, the DTX that the DTX parameter sets of use the 2nd after switching are carried out into discontinuous transmission, which is configured, is sent to UE.For ease of distinguishing, here the RRC dedicated signalings or beep-page message or broadcast message of the DTX configurations for being used to notify the DTX parameter sets of use the 2nd after UE switchings to carry out discontinuous transmission are referred to as the first RRC dedicated signalings or the first beep-page message or the first broadcast message, i.e. base station can be broadcast the message by the first RRC dedicated signalings or the first beep-page message or first, and the DTX configurations that the DTX parameter sets of use the 2nd after switching are carried out into discontinuous transmission are sent to UE.

Step 104, the activated state time according to DTX configuration determination the 2nd DTX cycles that discontinuous transmission is carried out using the 2nd DTX parameter sets.

Step 105, receive within the activated state time in the 2nd DTX cycles upstream data that the UE is sent. DTX is configured in base station and switched to by carrying out discontinuous transmission using the first DTX parameter sets using after the 2nd DTX parameter sets progress discontinuous transmission, the activated state time in the 2nd DTX cycles can be determined according to the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets.So, the DTX configurations of the DTX parameter sets of use the 2nd progress discontinuous transmission after base station is by switching are sent to after UE, and in the case that UE can be in activated state in base station, upstream data is sent to base station；Accordingly, base station receives the upstream data of UE transmissions within the activated state time in the 2nd DTX cycles.

In an optional embodiment, base station can be set up RRC with the UE and be connected after UE service request is received according to the service request.Based on this, the upstream data that base station receives the UE transmissions within the activated state time in the 2nd DTX cycles includes：Base station is connected by the RRC, and the upstream data that the UE is sent is received within the activated state time in the 2nd DTX cycles.Process that RRC is connected is set up reference can be made to prior art, the present embodiment is repeated no more according to UE service request and UE on base station.

Now, base station uses the 2nd DTX cycles in the 2nd DTX parameter sets, its time for being in activated state is the activated state time in the 2nd DTX cycles specified in the 2nd DTX parameter sets, and its time for being in inactive state is the inactive state time in the 2nd DTX cycles specified in the 2nd DTX parameter sets.Because the activated state time in the 2nd DTX cycles is longer, rather than the activated state time is shorter, therefore the time that base station is in activated state is just longer, shorter in the inactive time.Based on this, if UE needs to initiate Stochastic accessing, even if needs etc. send Stochastic accessing pilot tone in DTX activated states next time to base station（Preamble) code, because the time that base station is in inactive state is shorter, so with reducing the time delay of UE accesses compared with the DTX configurations that discontinuous transmission is carried out using the first parameter set.Retransmitted in the event of data or UE needs the packet transmitted than larger, because time of the base station in activated state is shorter in the DTX configurations for carry out discontinuous transmission using the first parameter set, it is possible that can not be completed during an activated state, cause larger data transmission delay；And in the present embodiment, because the time that base station is in inactive state is shorter, the time in activated state is longer, larger data or data can be made to be completed during retransmitting the less activated state of experience, data transmission delay is reduced.As can be seen here, the method that the present embodiment is provided can reduce the time delay of UE accesses or transmission data, be conducive to meeting UE QoS demand.

Understood based on the example above, the service request that UE is sent in the present embodiment can include random access request, or can include the dispatch request of the resource for data transfer（Schedul ing Request, referred to as SR), but not limited to this.

Fig. 4 is the flow chart of another data receiver method provided in an embodiment of the present invention.As shown in figure 4, methods described includes： Step 401, the service request for receiving UE transmissions.

DTX is configured and switched to by carrying out discontinuous transmission using the first DTX parameter sets using the 2nd DTX parameter sets progress discontinuous transmission by step 402, the service request sent according to the UE.

Step 403, will using the 2nd DTX parameter sets carry out discontinuous transmission the DTX configuration be sent to the UE.

In the present embodiment, described DTX parameter sets can include at least one of parameters described below：The parameters such as the length in DTX cycles, the activated state time in DTX cycles and the inactive state time in DTX cycles.For example, the first DTX parameter sets can include at least one of parameters described below：The parameters such as the inactive state time in the first DTX cycles, the activated state time in the first DTX cycles and the first DTX cycles；The 2nd DTX parameter sets can include at least one of parameters described below：The parameters such as the inactive state time in the 2nd DTX cycles, the activated state time in the 2nd DTX cycles and the 2nd DTX cycles.

Wherein, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles, so when base station is changed to perform DTX using the 2nd DTX parameter sets from the first DTX parameter sets, the time in activated state can be extended, reduce the time in inactive state, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

It is further alternative, the inactive state time in the 2nd DTX cycles that inactive state time in the first DTX cycles in the first DTX parameter sets can be more than or equal in the 2nd DTX parameter sets.In the case that the inactive state time in the first DTX cycles in the first DTX parameter sets is more than the inactive state time in the 2nd DTX cycles in the 2nd DTX parameter sets, when base station is changed to perform DTX using the 2nd DTX parameter sets from the first DTX parameter sets, the time in inactive state can further be reduced, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.In the case where the first DTX cycles are more than the 2nd DTX cycles, when base station is changed to perform DTX using the 2nd DTX parameter sets from the first DTX parameter sets, can also further it reduce in inactive state Time, UE can be enable to access cell in time and serviced, UE accesses or the time delay that carries out data transmission is alleviated, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.Step 404, the activated state time according to DTX configuration determination the 2nd DTX cycles that discontinuous transmission is carried out using the 2nd DTX parameter sets.

Step 405, receive within the activated state time in the 2nd DTX cycles upstream data that the UE is sent.

On step 401- steps 405, reference can be made to the step 101- steps 105 in above-described embodiment, will not be repeated here.

Step 406, determine that the upstream data of the UE is sent, and switch to DTX configurations using the first DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the 2nd DTX parameter sets, and the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE.

Wherein, base station can determine whether UE upstream data is sent in different ways.For example, after the upstream data that UE is sent is received correctly by the base station, base station can be to UE feedback acknowledgments（ACK) message, now base station can determine that UE upstream data is sent.Or, UE can send a configured information to base station, send and terminate for signals base upstream data after upstream data has been sent, then the configured information that base station can be sent based on UE, determine that UE upstream data is sent and terminate.

In addition, by taking NCT cells as an example, then in the case that other UE in NTC cells can also be in activated state in base station, initiating business request at any time.Based on this, UE upstream data, which is sent, terminates to show as all UE for being in RRC connection status and carrying out data transmission in NCT cells, the UE can be it is one or more, upstream data be sent. After it is determined that UE upstream data is sent, base station is by the way that DTX configurations are switched to using the first DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the 2nd DTX parameter sets again, by the longer inactive state time, shorter activated state duration carries out power saving.Accordingly, in order that UE can with base station synchronization, base station also need to will again switch after the DTX parameter sets of use the first carry out discontinuous transmission DTX configuration is sent to UE.Optionally, base station can be broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second, and the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent into the UE.

Fig. 5 is the flow chart of another data receiver method provided in an embodiment of the present invention.As shown in figure 5, methods described includes：

Step 51, UE initiate business to base station, specifically, and UE sends to base station and sends Stochastic accessing pilot code or SR.

In this step, if the DTX configurations of base station are to carry out discontinuous transmission using the first DTX parameter sets, and during base station is exactly in activated state, then UE can send Stochastic accessing pilot code or SR, the SR to base station and be used to indicate that UE needs initiation business；Otherwise, during UE needs etc. enter activated state next time to base station, Stochastic accessing pilot tone could be sent to base station or SR is asked.

Step 52, base station are received after the Stochastic accessing pilot code or SR of UE transmissions, are set up RRC with UE and are connected.

DTX is configured and switched to by carrying out discontinuous transmission using the first DTX parameter sets using the 2nd DTX parameter sets progress discontinuous transmission by step 53, base station, i.e. by shorter inactive state duration, and longer activated state duration meets the Qos demands of UE business.

Optionally, further, the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets can be sent to the UE in cell by base station by broadcast message etc., if other UE so in cell are also required to initiation business, then can also be during base station be in activated state to base station initiating business request, this adds more UE dispatcher meeting from the point of view of cell level.

Step 54, UE enter RRC connection status, normally initiate business, and upstream data is sent to base station.Step 55, after UE upstream data is sent, base station can by the RRC Connection Releases of the UE in connected state, make UE return RRC idle conditions.

DTX is configured to be switched to by carrying out discontinuous transmission using the 2nd DTX parameter sets by step 56, base station carries out discontinuous transmission using the first DTX parameter sets, i.e., by longer inactive state duration, and shorter activated state duration carries out power saving. Optionally, further, if base station have sent the change that the UE into cell such as broadcast message indicates DTX configurations in step 53, then now, base station can send the change again that the UE into cell such as broadcast message indicates DTX configurations again.

In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.In the present embodiment, by setting two DTX parameter sets, base station can be when UE has business demand, by changing DTX configurations, time of the extension in activated state, the time in inactive state is reduced, enable UE to timely enter cell to be serviced, UE accesses or the time delay carried out data transmission are alleviated, is solved because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Illustrate herein, in Fig. 1 or Fig. 4 or embodiment illustrated in fig. 5, base station can set a timer, carry out timing for the activated state time to the DTX cycles, after timer timing terminates, base station enters inactive state.Optionally, base station can extend the time in activated state by way of timer, for example, if base station have received UE service request during activated state, the time in activated state can be extended by restarting timer, during inactive state is entered back into after the timer timing of restarting terminates.

Fig. 6 is a kind of flow chart of data transmission method for uplink provided in an embodiment of the present invention.As shown in fig. 6, methods described includes：

Step 601, to base station send service request.

The DTX parameter sets of use the 2nd that step 602, the reception base station are sent carry out discontinuous transmission

DTX is configured, the DTX for carrying out discontinuous transmission using the 2nd DTX parameter sets is configured to the base station and configured according to the service request by using the DTX of the first DTX parameter sets progress discontinuous transmission to configure the DTX used after switching, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or the ratio of the activated state time in the first DTX cycles in the first DTX cycles in the first DTX parameter sets is less than the 2nd DTX Ratio of the activated state time in the 2nd DTX cycles in parameter set in the 2nd DTX cycles.In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.Step 603, the activated state time according to DTX configuration the 2nd DTX cycles of determination that discontinuous transmission is carried out using the 2nd DTX parameter sets.

Step 604, within the activated state time in the 2nd DTX cycles of the determination to the base station send upstream data.

Further alternative, the inactive state time in the first DTX cycles can be more than or equal to the inactive state time in the 2nd DTX cycles.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.Further, after sending above-mentioned data to base station within the activated state time in the 2nd DTX cycles, methods described also includes：Receive the DTX configurations for the DTX parameter sets of use the first progress discontinuous transmission that the base station is sent, the DTX configurations after the change again that base station is sent are received, the DTX configurations after the change again are using the first DTX parameter sets progress discontinuous transmission.

Optionally, the DTX configurations for receiving the DTX parameter sets of use the 2nd progress discontinuous transmission that the base station is sent include：The first RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent are received, the first RRC dedicated signalings or the first beep-page message or the first broadcast message include the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets.

Accordingly, the DTX configurations for receiving the DTX parameter sets of use the first progress discontinuous transmission that the base station is sent include：The 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent are received, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message include the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets.

The present embodiment is the description carried out from UE angles, and the data receiver method provided with Fig. 1 or Fig. 4 or embodiment illustrated in fig. 5 is adapted, and specific descriptions will not be repeated here. Illustrate herein, the service request that UE is sent includes SR or random access request.

In the present embodiment, base station sets two DTX parameter sets, wherein, the activated state time in the DTX cycles that the first parameter set is included is shorter, and the activated state time in the DTX cycles that the second parameter set is included is longer, when UE has service request, base station switching DTX configurations, so as to perform DTX using the second parameter set, extend the time in activated state, reduce the time in inactive state, and by the DTX configuration provides after switching to UE, UE receives the DTX after switching with postponing, synchronized with base station, within the activated state time in the 2nd DTX cycles of the 2nd DTX parameter sets upstream data is sent to base station, cell can be accessed in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Fig. 7 is the flow chart of another data receiver method provided in an embodiment of the present invention.As shown in fig. 7, methods described includes：

Step 701, the service request for being used to ask to initiate the first business for receiving UE transmissions, and receive the resource type needed for the QoS grades and/or first business for first business that the UE is sent.

Resource type needed for step 702, the QoS grades according to first business and/or first business, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business.

Step 703, the DTX that the 3rd DTX parameter sets of the use are carried out into discontinuous transmission are configured and are sent to the UE.

Step 704, the activated state time according to DTX configuration the 3rd DTX cycles of determination that discontinuous transmission is carried out using the 3rd DTX parameter sets.

Step 705, receive within the activated state time in the 3rd DTX cycles upstream data that the UE is sent.

Generally, UE is different with the QoS grades needed to the susceptibility of time delay when initiating different business, therefore in the present embodiment, for the resource type needed for the business and/or the business of the UE different QoS grades initiated, at least one DTX parameter set is set.Wherein, at least one DTX parameter set corresponds to different parameter combinations respectively, and the parameter combination includes at least one in QoS grades and resource type.Wherein, table 1 gives a kind of different business corresponding QoS grades（The corresponding priority of business i.e. in table 1）And the corresponding relation between resource type needed for different business, but not limited to this.Resource type in table 1 mainly includes ensures bit rate（Guaranteed Bit Rate, referred to as GBR) type and non-GBR (Non-GBR) type, but not limited to this.

Table 1

For the different QoS grade shown in table 1 and/or the business of different resource type is needed, base station can set a DTX parameter set for every kind of business.Wherein, base station can be that different business sets different DTX parameter sets according to the QoS grades of business.For example, base station can be that the business that priority is 1 sets activated state duration most long and inactive state duration most short DTX parameter sets, the business for being 2 for priority sets activated state duration slightly shorter compared with the business that priority is 1, inactive state duration slightly long DTX parameter sets, the like.Or, resource type and the QoS grades of business that base station can simultaneously according to needed for business are that different business sets different DTX parameter sets.For example, base station can be that the business that the business and priority that resource type is GBR are 1 is respectively provided with the most long and inactive state duration of activated state duration most short DTX parameter sets, can be that the non-GBR for being 1 except priority business sets activated state duration slightly shorter compared with the business that priority is 1, inactive state duration slightly long DTX parameter sets.

Specifically, when UE needs initiation business, service request is sent to base station.The present embodiment is so that the first business is initiated in UE requests as an example.If for example, UE wish transmission data but without SR send resource, Random access sequence code can be sent to base station；Or, if UE wishes transmission data and has SR to send resource, SR can be sent to base station.UE is sent after service request to base station, the business that oneself will can be initiated, i.e. the information reporting such as resource type needed for the QoS grades and/or the first business of the first business is to base station.For example, base station is received after UE service request, the process of RRC connections can be initiated to set up, wherein, UE can carry the resource type needed for the QoS grades and/or the first business of the first business in the RRC connection setup complete messages for being sent to base station.After the completion of RRC connections foundation, resource type needed for the QoS grades and/or the first business of the first business that base station is initiated according to UE requests, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, it is determined that the DTX for carrying out discontinuous transmission with the DTX parameter sets of use the 3rd that the resource type needed for the QoS grades and/or the first business of the first business is adapted is configured, and the DTX configuration notifications of discontinuous transmission will be carried out using the 3rd DTX parameter sets to the UE in cell.Afterwards, base station determines the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets, and receives within the activated state time in the 3rd DTX cycles upstream data that the UE is sent.Optionally, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets can be sent to the UE by base station by RRC dedicated signalings or beep-page message or broadcast message.

Illustrate herein, methods described also includes：If DTX configurations are switched to DTX configurations using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets using the non-3rd DTX parameter sets progress discontinuous transmission.

In this embodiment, base station can ask QoS grades and/or required resource type of the business initiated etc., change DTX configurations in real time, to meet UE business demand according to UE；And change DTX, which matches somebody with somebody, every time postpones, new DTX configuration informations are notified other UE in the UE or cell of initiation business by base station by RRC dedicated signalings or beep-page message or broadcast message, the behavior between UE and base station is set to reach with an optional embodiment, if there is multiple UE to send service request to base station simultaneously in same period, or single UE sends multiple service requests to base station, or multiple UE send multiple service requests to base station, and the QoS grades for the multiple business asked are different, then base station can configure DTX to switch to carries out discontinuous transmission using that DTX parameter set that QoS demand can be most met in the corresponding DTX parameter sets of multiple business, for example in the corresponding several DTX parameter sets of several business activated state duration can be selected most long, with inactive state duration most short that DTX parameter set.That is, above-mentioned first business can be multiple.Based on this, step 701 is specially：The request that is used for for receiving UE transmissions is initiated at least The service request of one the first business.A kind of embodiment of step 702 includes：Resource type according to needed for the QoS grades of at least one first business and/or at least one described first business, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business；From at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, determine that the activated state time in DTX cycles is most long, and the most short DTX parameter sets of use the 4th of inactive state time in DTX cycles are carried out the DTX configurations of discontinuous transmission and are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets..

In the present embodiment, service quality rating and/or required resource type for different business, at least one DTX parameter set is set, after the service request of UE transmissions is received, receive the service quality rating and/or required resource type of the business for the request development that UE is sent, afterwards from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, it is determined that asking the service quality rating of the business of development and/or the required corresponding DTX configurations using the 3rd DTX parameter sets progress discontinuous transmission of resource type with UE, base station allow according to UE different business demand, preferably adjustment is in the time scale of activated state and inactive state, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Illustrate herein, in the embodiment shown in fig. 7, base station can set a timer, carry out timing for the activated state time to the DTX cycles, after timer timing terminates, base station enters inactive state.Optionally, base station can extend the time in activated state by way of timer, for example, if base station have received UE service request during activated state, the time in activated state can be extended by restarting timer, during inactive state is entered back into after the timer timing of restarting terminates.

Fig. 8 is the flow chart of another data transmission method for uplink provided in an embodiment of the present invention.As shown in figure 8, methods described includes：

Step 801, send for asking to initiate the service request of the first business to base station, and the resource type needed for sending the QoS grades and/or the first business of first business to the base station.

Step 802, the DTX configurations for receiving the DTX parameter sets of use the 3rd progress discontinuous transmission that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, from setting Use at least one discontinuous transmission DTX parameter sets carry out the corresponding DTX configurations of resource type in the DTX configurations of discontinuous transmission needed for the QoS grades and/or first business with first business that determine.

Step 803, the activated state time according to DTX configuration the 3rd DTX cycles of determination that discontinuous transmission is carried out using the 3rd DTX parameter sets.

Step 804, within the activated state time in the 3rd DTX cycles to the base station send upstream data.

In an optional embodiment, the resource type needed for the QoS grades and/or the first business to base station transmission first business includes：RRC connection setup complete messages are sent to the base station, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or the first business of first business.

In an optional embodiment, the DTX configurations for receiving the DTX parameter sets of use the 3rd progress discontinuous transmission that the base station is sent include：RRC dedicated signalings or beep-page message or broadcast message that the base station is sent are received, the RRC dedicated signalings or beep-page message or broadcast message include the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

The present embodiment is the description carried out from UE angles, is adapted with the data receiver method that embodiment illustrated in fig. 7 is provided, specific descriptions will not be repeated here.

Illustrate herein, the service request that UE is sent includes SR or random access request.

In the present embodiment, service quality rating and/or required resource type for different business, at least one DTX parameter set is set, base station is after the service request of UE transmissions is received, receive the service quality rating and/or required resource type of the business for the request development that UE is sent, afterwards from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, it is determined that asking the service quality rating of the business of development and/or the required corresponding DTX configurations using the 3rd DTX parameter sets progress discontinuous transmission of resource type with UE, base station allow according to UE different business demand, preferably adjustment is in the time scale of activated state and inactive state, and the DTX configuration notifications of discontinuous transmission will be carried out using the 3rd DTX parameter sets to UE, enable UE to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Fig. 9 is the flow chart of another data receiver method provided in an embodiment of the present invention.As shown in figure 9, methods described includes： Step by step rapid 990011, receive and receive the industry business that UUEE hairs send and be engaged in ask to ask..

Step by step rapid 990022, root states the business of industry business and please ask to ask and will penetrate shape state state by being changed to earnestly by DDTTXX shape state states and penetrate shape state state for continuous supervention repeatedly hair transmitting according to according to institute is described..

Step by step rapid 990033, by by it is described state change earnestly rear institute it is described state continue repeatedly supervention penetrate shape state state hair penetrate shape state state send out transmission give to described in state UUEE..55 step by step rapid 990044, it is described state change earnestly after after continue repeatedly under supervention penetrated under shape state state, receive to receive and UUEE is stated described in institute send out the upper up line number data sent..

One by one can optional choosing is real implements in the side's of applying mode formula, step by step rapid 990044 after after also wrap and include：：Determine the fixed institute up line number data for stating UUEE send out transmission sent finish it is complete, will will institute it is described state hair transmitting and penetrate shape state state be changed to earnestly as DDTTXX shape state states by penetrating shape state state by continuous supervention repeatedly,, and and will will change earnestly it is rear after institute's hair for stating DDTTXX shape state states penetrate shape state state send out transmission give to described in state UUEE..On determining that the fixed institute up line number data for stating UUEE is whether that no hair hair 1100 has been sent and finishes complete mistakes process journey cocoa ginseng referring to seeing that figure Figure 11 institutes are shown and show that the description of retouching for applying example in fact is stated in true,, herein, this is no longer stated again..

One by one can optional choosing is real implements in the side's of applying mode formula, the institute's side's of stating method is also wrapped includes：：Will will institute it is described state hair transmitting and penetrate shape state state by being changed to earnestly by DDTTXX shape state states penetrate shape state state constantly for continuous supervention repeatedly, when starting to begin to count timing, when counting timing, knot terminates beam constantly, will will institute it is described state hair transmitting and penetrate shape state state be changed to earnestly as DDTTXX shape state states by penetrating shape state state by continuous supervention repeatedly,, and and will will change earnestly it is rear after institute's hair for stating DDTTXX shape state states penetrate shape state state send out transmission give to described in state UUEE..

1155 into one step by step cocoa choosing choosing, if as fruit count timing when knot terminate beam before before, base base station station, which receives its other his UUEE, which sends out the industry business business sent, please ask to ask, then when heavy Xin Xinkai starts to begin to count timing..Example for example such as, base base station station can with start dynamic one one by one timing when device device（（Can be with the similar iinnaaccttiivviittyy ttiimmeerr being similar in DDRRXX of class)), into during every trade meter timing the time during to setting, it please ask to ask if receiving its its other UUEE that know clearly between such as fruit base base station station is when in timing during device device meter timing period and sending out the industry business business sent, then device during timing will be thought highly of to restart and opened,, with extend long base base station station everywhere in repeatedly continue supervention penetrate shape state state when the time between；；If if fruit is to knot terminates beam during the meter timing of device device during timing（（Or or it is overtime when））After, base base station station does not receive its other his UUEE industry business business

2200 please ask to ask, then it is heavy newly newly to enter DDTTXX shape state states, with to enter the electric shape state state of province power saving..

Can optional choosing, base base station station can with all RRRRCC specially it is special with the order of letter signaling or or paging exhale message cease or or wide broadcast the message breath that disappears,, will will change earnestly it is rear after institute it is described state continue repeatedly supervention penetrate shape state state hair penetrate shape state state and and after changing earnestly described in state DDTTXX shape state states hair penetrate shape state state send out transmission give to described in state UUEE..

In being applied in fact in example example in book, , under under the feelings situation condition that UUEE has industry business business demand to ask, , hair transmitting will be penetrated shape state state and penetrate shape state state by being changed to by DDTTXX shape states state 2255 to continue supervention repeatedly by base base station station, , can can with so that make UUEE and and constantly access and must service business into slight trivial obtain, , mitigate the light UUEE that knows clearly access into or or carry out the defeated when time delay of line number data transmission and prolong, , solution solves certainly to know clearly by knowing clearly the DDTTXX of frequently longer cycle phase due to performing row in base base station station, , band bring come can the full whole UUEE of method the topic of asking questions asked of QQooSS demands, , from so as to and ensure the upper above-mentioned biographies for stating several datas of card UUEE transmit it is defeated or or access into..

Figure Figure 110 0 is that the bright real example example of applying of book hair invention provides the stream flow journey figure figure that the again another kind number data hair supplied sends the side's of sending method..As shown as shown in the institutes of figure Figure 110 0, the institute's side of stating method bag is included：： Step 1002, the emission state for receiving the continuous transmitting after the base station that the base station sends switches according to the service request, wherein, the emission state before the base station switching is discontinuous transmission DTX state.

Step 1003, according to the base station switch after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched.

Illustrate herein, the emission state of the continuous transmitting after being switched according to the base station determines that the time for sending upstream data is applied to the scene that UE uses DRX.And the emission state of the continuous transmitting after being switched according to the base station switches to emission state the emission state continuously launched to be applied to any scene.

Step 1004, the time according to the transmission upstream data of the determination and/or to the base station send upstream data under the emission state continuously launched.

In an optional embodiment, methods described also includes：Receive after the switching that the base station is sent

The emission state of DTX state.

In the present embodiment, in the case where UE has business demand, base station by local emission state by

DTX state is changed to continuous emission state, and notify the emission state after change to UE, UE can access cell in time and be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand, so as to ensure the transmission or access of the above-mentioned data of UE.

Figure 11 is a kind of structural representation of base station provided in an embodiment of the present invention.As shown in Fig. 11, the base station includes：Receiving module 110, handover module 111, sending module 112 and determining module 113.

Receiving module 110, the service request for receiving UE transmissions.

Handover module 111, it is connected with receiving module 110, the service request sent for the UE received according to receiving module 110, DTX configurations are switched to using the 2nd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.

Sending module 112, is connected with handover module 1 11, and the DTX configurations for handover module 111 to be configured to the DTX parameter sets of use the 2nd used after switching progress discontinuous transmission to DTX are sent to the UE. Determining module 113, is connected with handover module 111, and the DTX parameter sets of use the 2nd for being used after being switched according to handover module 111 carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission.

Receiving module 110, is connected with determining module 1 13, and the upstream data that the UE is sent is received in the activated state time for the 2nd DTX cycles determined in determining module 113.

Further alternative, the inactive state time in the first DTX cycles can be more than or equal to the inactive state time in the 2nd DTX cycles.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.In an optional embodiment, handover module 11 1 is additionally operable to determine that the upstream data of the UE is sent, and DTX configurations are carried out into discontinuous transmission using the first DTX parameter sets by described switched to using the 2nd DTX parameter sets progress discontinuous transmission.Accordingly, sending module 112 is additionally operable to the DTX configurations for carrying out discontinuous transmission using the first DTX parameter sets used after the DTX configuration switchings for being carried out discontinuous transmission using the 2nd DTX parameter sets are sent to handover module 111 into the UE.

Optionally, sending module 112 by the first RRC dedicated signalings or the first beep-page message or first specifically for being broadcast the message, and the DTX configurations for carrying out discontinuous transmission using the 2nd DTX parameter sets are sent to the UE.

Optionally, the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE by sending module 112 specifically for being broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second.

Optionally, the base station also includes：Connection establishment module.

Connection establishment module, for the service request received according to receiving module 110, sets up with the UE RRC connections.Based on this, receiving module 1 10 receives the upstream data that the UE is sent specifically for the RRC connections set up by connection establishment module within the activated state time in the 2nd DTX cycles.

In the present embodiment, the service request that UE is sent includes but is not limited to：SR or random access request.

Each functional module for the base station that the present embodiment is provided can be used for the flow for performing embodiment of the method shown in Fig. 1 or Fig. 4 or Fig. 5, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The base station that the present embodiment is provided, by setting two DTX parameter sets, wherein, the activated state time in the DTX cycles that the first parameter set is included is shorter, and the activated state time in the DTX cycles that the second parameter set is included is longer, when no UE initiates business, base station performs DTX using the parameter of the first parameter set so that base station can save electricity；After UE service request is received, by by DTX configuration changes be the second parameter set configuration, the base station that this sample embodiment is provided can be when UE has business demand, time of the extension in activated state, the time in inactive state is reduced, UE can be enable to access cell in time and serviced, UE accesses or the time delay carried out data transmission is alleviated, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 12 is the structural representation of another base station provided in an embodiment of the present invention.As shown in figure 12, the base station includes：Processor 121, transmitter 122 and receiver 123.

Receiver 123, the service request for receiving UE transmissions.

Processor 121, the service request sent for the UE received according to receiver 123, DTX configurations are switched to using the 2nd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.

In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

The activated state time in the first DTX cycles in the first DTX parameter sets is in the first DTX cycles Ratio be less than the ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX cycles in the 2nd DTX parameter sets.Processor 121 can be a central processing unit（Central Processing Unit, referred to as CPU), or specific integrated circuit（Application Specific Integrated Circuit, referred to as ASIC), or it is arranged to implement one or more integrated circuits of the embodiment of the present invention.

Transmitter 122, the DTX configurations for processor 121 to be configured to the DTX parameter sets of use the 2nd used after switching progress discontinuous transmission to DTX are sent to the UE.

Processor 121, is additionally operable to determine the activated state time in the 2nd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 2nd DTX parameter sets.

Receiver 123, is additionally operable within the activated state time in the 2nd DTX cycles of the determination of processor 121 receive the upstream data that the UE is sent.

Further alternative, the inactive state time in the first DTX cycles can be more than or equal to the inactive state time in the 2nd DTX cycles.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.In an optional embodiment, processor 121 is additionally operable to determine that the upstream data of the UE is sent, and DTX configurations are carried out into discontinuous transmission using the first DTX parameter sets by described switched to using the 2nd DTX parameter sets progress discontinuous transmission.Accordingly, transmitter 122 is additionally operable to the DTX configurations for carrying out discontinuous transmission using the first DTX parameter sets used after the DTX configuration switchings for being carried out discontinuous transmission using the 2nd DTX parameter sets are sent to processor 121 into the UE.

Optionally, the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE by transmitter 122 specifically for being broadcast the message by the first RRC dedicated signalings or the first beep-page message or first.

Optionally, the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE by transmitter 122 specifically for being broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second.

Optionally, processor 121 is additionally operable to the service request received according to receiver 123, sets up RRC with the UE and is connected.Based on this, receiver 123 receives the upstream data that the UE is sent specifically for the RRC connections set up by processor 121 within the activated state time in the 2nd DTX cycles.

In the present embodiment, the service request that UE is sent includes but is not limited to：SR or random access request. Further, the base station can also include：Memory.

Memory, for depositing program.Specifically, program can include program code, and described program code includes computer-managed instruction.Based on this, processor 121 can specifically realize above-mentioned functions, but not limited to this by performing described program.

Memory can include high-speed RAM memory, can also include nonvolatile memory

(non-volatile memory), for example, at least one magnetic disk storage.

Optionally, on implementing, processor 121, transmitter 122 and receiver 123 can be connected with each other by bus and complete mutual communication.The bus can be industry standard architecture (Industry Standard Architecture, referred to as ISA) bus, external equipment interconnection (Peripheral Component, referred to as PCI) bus or extended industry-standard architecture (Extended Industry Standard Architecture, referred to as EISA) bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 12 with a thick line, it is not intended that only one bus or a type of bus.

Optionally, on implementing, processor 121, transmitter 122 and receiver 123 can be completed by internal interface it is identical between communication.

The base station that the present embodiment is provided can be used for the flow for performing embodiment of the method shown in Fig. 1 or Fig. 4 or Fig. 5, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The base station that the present embodiment is provided, by setting two DTX parameter sets, wherein, the activated state time in the DTX cycles that the first parameter set is included is shorter, and the activated state time in the DTX cycles that the second parameter set is included is longer, when no UE initiates business, base station performs DTX using the parameter of the first parameter set so that base station can save electricity；After UE service request is received, the configuration of the second parameter set is switched to by the way that DTX is configured, the base station that this sample embodiment is provided can be when UE has business demand, time of the extension in activated state, the time in inactive state is reduced, UE can be enable to access cell in time and serviced, UE accesses or the time delay carried out data transmission is alleviated, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 13 is a kind of UE structural representation provided in an embodiment of the present invention.As shown in figure 13, the UE includes：Sending module 131, receiving module 132 and determining module 133.

Sending module 131, for sending service request to base station.

Receiving module 132, the DTX configurations of discontinuous transmission are carried out for receiving the DTX parameter sets of use the 2nd that the base station is sent, wherein, it is described discontinuous using the progress of the second discontinuous transmission DTX parameter sets The DTX of transmitting is configured to the DTX that the service request that the base station sends according to the sending module used after the DTX configuration switchings that discontinuous transmission is carried out using the first DTX parameter sets and configured, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or the ratio of the activated state time in the first DTX cycles in the first DTX cycles in the first DTX parameter sets is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.

Determining module 133, the DTX parameter sets of use the 2nd for being received according to receiving module 132 carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission.

Sending module 131 is additionally operable to send upstream data to the base station in the activated state time in the 2nd DTX cycles determined in determining module 133.

Further alternative, the inactive state time in the first DTX cycles can be more than or equal to the inactive state time in the 2nd DTX cycles.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.In an optional embodiment, receiving module 132 is additionally operable to after sending module 131 sends upstream data within the activated state time in the 2nd DTX cycles to the base station, receives the DTX configurations for the DTX parameter sets of use the first progress discontinuous transmission that the base station is sent.

In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can be equal to the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX cycles in the first DTX parameter sets are more than the 2nd DTX cycles in the 2nd DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.Optionally, receiving module 132 includes carrying out the DTX configurations of discontinuous transmission using the 2nd DTX parameter sets specifically for receiving the first RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent, the first RRC dedicated signalings or the first beep-page message or the first broadcast message.

Optionally, receiving module 132 includes the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets specifically for receiving the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message. In the present embodiment, the service request that sending module 131 is sent includes but is not limited to：SR or random access request.

Each functional module for the UE that the present embodiment is provided can be used for the flow for performing data transmission method for uplink shown in Fig. 6, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The UE that the present embodiment is provided, the base station provided with above-described embodiment is engaged, support base station that two DTX parameter sets are set, when so UE has service request, base station can use the 2nd longer DTX parameter sets of activated state time, and by the DTX configuration provides after switching to UE, and the UE of the present embodiment is configured by receiving the DTX after the switching that base station is provided, and synchronized with base station, within the activated state time in the 2nd DTX cycles of the 2nd DTX parameter sets upstream data is sent to base station, cell can be accessed in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 14 is another UE provided in an embodiment of the present invention structural representation.As shown in figure 14, the UE includes：Transmitter 141, receiver 142 and processor 143.

Transmitter 141, for sending service request to base station.

Receiver 142, the DTX configurations of discontinuous transmission are carried out for receiving the DTX parameter sets of use the 2nd that the base station is sent, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the DTX configurations that the service request that the base station sends according to the sending module is used after the DTX configuration switchings that discontinuous transmission is carried out using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.

Processor 143, the DTX parameter sets of use the 2nd for being received according to the receiver carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission.

Transmitter 141 is additionally operable to send upstream data to the base station in the activated state time in the 2nd DTX cycles determined in processor 143.

Further alternative, the inactive state time in the first DTX cycles can be more than or equal to the inactive state time in the 2nd DTX cycles.

Further alternative, the first DTX cycles can be more than or equal to the 2nd DTX cycles.In one example, the activated state time in the first DTX cycles in the first DTX parameter sets can The 2nd DTX cycles in the 2nd DTX parameter sets are more than with the first DTX cycles in the activated state time equal to the 2nd DTX cycles in the 2nd DTX parameter sets, and the first DTX parameter sets.

In one example, the activated state time in the first DTX cycles in above-mentioned the first DTX parameter sets is less than the description of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets and could alternatively be：

Ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles.In an optional embodiment, receiver 142 is additionally operable to after transmitter 141 sends upstream data within the activated state time in the 2nd DTX cycles to the base station, and the DTX for carrying out discontinuous transmission using the first DTX parameter sets is configured.

Optionally, receiver 142 includes carrying out the DTX configurations of discontinuous transmission using the 2nd DTX parameter sets specifically for receiving the first RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent, the first RRC dedicated signalings or the first beep-page message or the first broadcast message.

Optionally, receiver 142 includes the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets specifically for receiving the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message.

In the present embodiment, the service request that transmitter 141 is sent includes but is not limited to：SR or random access request.

Further, the UE also includes：Memory.

Memory, for storage program.Specifically, program can include program code, and described program code includes computer-managed instruction.

Processor 143 can be used for the program for performing memory storage, control logic for realizing the UE etc..

Memory can include high-speed RAM memory, can also include nonvolatile memory (non-volati le memory), for example, at least one magnetic disk storage.

Processor 143 can be a CPU, or specific ASIC, or be arranged to implement one or more integrated circuits of the embodiment of the present invention.

Optionally, on implementing, transmitter 141, receiver 142 and processor 143 can be connected with each other by bus and complete mutual communication.The bus can be isa bus, PCI buses or eisa bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For just Only represented in expression, Figure 14 with a thick line, it is not intended that only one bus or a type of bus.

Optionally, on implementing, transmitter 141, receiver 142 and processor 143 can be completed by internal interface it is identical between communication.

Further alternative, the UE can also include input block, display unit, power module and voicefrequency circuit etc. in addition to including transmitter 141, receiver 142 and processor 143.The input block can be contact panel or other input equipments, and the display unit can be display panel etc..

The UE that the present embodiment is provided can be used for the flow for performing data transmission method for uplink shown in Fig. 6, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The UE that the present embodiment is provided, the base station provided with above-described embodiment is engaged, support base station that two DTX parameter sets are set, when so UE has service request, base station can use the 2nd longer DTX parameter sets of activated state time, and by the DTX configuration provides after switching to UE, and the UE of the present embodiment is configured by receiving the DTX after the switching that base station is provided, and synchronized with base station, within the activated state time in the 2nd DTX cycles of the 2nd DTX parameter sets upstream data is sent to base station, cell can be accessed in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 15 is the structural representation of another base station provided in an embodiment of the present invention.As shown in figure 15, the base station includes：Receiving module 151, determining module 152 and sending module 153.

Receiving module 151, for receiving the service request for being used to ask to initiate the first business of UE transmissions, and receives the resource type needed for the QoS grades and/or the first business for first business that the UE is sent.

Determining module 152, it is connected with receiving module 151, for the resource type needed for the QoS grades of first business and/or the first business that are received according to receiving module 151, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business.

Optionally, determining module 152 can be also used for, when DTX configurations are using the non-3rd DTX parameter sets progress discontinuous transmission, DTX configurations being switched to using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets.

Optionally, at least one described DTX parameter set corresponds to different parameter combinations, the parameter respectively Combination includes at least one in QoS grades and resource type.

Sending module 153, is connected with determining module 152, and the DTX configurations that the DTX parameter sets of use the 3rd for determining module 152 to be determined carry out discontinuous transmission are sent to the UE.

Determining module 152, is additionally operable to determine the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets.

Receiving module 151 is additionally operable in the activated state time in the 3rd DTX cycles determined in determining module 152 receive the upstream data that the UE is sent.

Optionally, receiving module 151 includes the resource type needed for the QoS grades and/or the first business of first business specifically for receiving the RRC connection setup complete messages that the UE is sent, the RRC connection setup complete messages.

Optionally, sending module 154 is specifically for by RRC dedicated signalings or beep-page message or broadcast message, the UE is sent to by the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets.

In an optional embodiment, first business is multiple.Based on this, receiving module 151 is specifically for receiving the service request for being used to ask to initiate at least one the first business that the UE is sent.Determining module 152 is particularly used in the resource type according to needed for the QoS grades and/or at least one described first business of at least one first business, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business, from at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, determine that the activated state time in DTX cycles is most long, and most short DTX parameter sets of use the 4th of the inactive state time in DTX cycles are carried out the DTX configurations of discontinuous transmission and are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

In the present embodiment, the service request that receiving module 151 is received includes but is not limited to：SR or random access request.

Each functional module for the base station that the present embodiment is provided can be used for the flow for performing data receiver method shown in Fig. 7, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The base station that the present embodiment is provided, service quality rating and/or required resource type for different business, at least one DTX parameter set is set, after the service request of UE transmissions is received, the service quality rating and/or required resource type for the business that the request sent according to UE is carried out, afterwards from the DTX configurations that discontinuous transmission is carried out using at least one DTX parameter set, it is determined that asking the business of development with UE Service quality rating and/or the corresponding DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets of required resource type, base station allow according to UE different business demand, preferably adjustment is in the time scale of activated state and inactive state, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 16 is the structural representation of another base station provided in an embodiment of the present invention.As shown in figure 16, the base station includes：Receiver 161, processor 162 and transmitter 163.

Receiver 161, for receiving the service request for being used to ask to initiate the first business of UE transmissions, and receive first business that the UE is sent QoS grades and/or the first business of institute need to resource type.

Processor 162, for the resource type needed for the QoS grades of the first business and/or first business that are received according to receiver 161, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business.

Optionally, processor 162 can be also used for, when DTX configurations are using the non-3rd DTX parameter sets progress discontinuous transmission, DTX configurations being switched to using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets.

Optionally, at least one described DTX parameter set corresponds to different parameter combinations respectively, and the parameter combination includes at least one in QoS grades and resource type.

Transmitter 163, the DTX configurations that the DTX parameter sets of use the 3rd for processor 162 to be determined carry out discontinuous transmission are sent to the UE.

Processor 162, is additionally operable to determine the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets.

Receiver 161, is additionally operable within the activated state time in the 3rd DTX cycles of the determination of processor 162 receive the upstream data that the UE is sent.

Optionally, receiver 161 includes the resource type needed for the QoS grades and/or the first business of first business specifically for receiving the RRC connection setup complete messages that the UE is sent, the RRC connection setup complete messages.

Optionally, transmitter 163 is specifically for by RRC dedicated signalings or beep-page message or broadcast message, the UE is sent to by the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets.

In an optional embodiment, first business is multiple.Based on this, receiver 161 is specific For receiving the service request for being used to ask to initiate at least one the first business that the UE is sent.Processor 162 is particularly used in the resource type according to needed for the QoS grades and/or at least one described first business of at least one first business, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business, from at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, determine that the activated state time in DTX cycles is most long, and most short DTX parameter sets of use the 4th of the inactive state time in DTX cycles are carried out the DTX configurations of discontinuous transmission and are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

In the present embodiment, the service request that receiver 161 is received includes but is not limited to：SR or random access request.

Further, the base station also includes：Memory.

Memory, for depositing program.Specifically, program can include program code, and described program code includes computer-managed instruction.Based on this, processor 162 can realize above-mentioned functions, but not limited to this by performing the program of memory storage.

Memory can include high-speed RAM memory, can also include nonvolatile memory (non-volati le memory), for example, at least one magnetic disk storage.

Processor 162 can be a CPU, or specific ASIC, or be arranged to implement one or more integrated circuits of the embodiment of the present invention.

Optionally, on implementing, receiver 161, processor 162 and transmitter 163 can be connected with each other by bus and complete mutual communication.The bus can be isa bus, PCI buses or eisa bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 16 with a thick line, it is not intended that only one bus or a type of bus.

Optionally, on implementing, receiver 161, processor 162 and transmitter 163 can be completed by internal interface it is identical between communication.

The base station that the present embodiment is provided can be used for the flow for performing data receiver method shown in Fig. 7, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The base station that the present embodiment is provided, service quality rating and/or required resource type for different business set at least one DTX parameter set, after the service request of UE transmissions is received, are sent out according to UE The service quality rating and/or required resource type for the business that the request sent is carried out, afterwards from the DTX configurations that discontinuous transmission is carried out using at least one DTX parameter set, it is determined that the DTX that the 3rd DTX parameter sets corresponding with service quality rating and/or required resource type that UE asks the business carried out carry out discontinuous transmission is configured, base station allow according to UE different business demand, preferably adjustment is in the time scale of activated state and inactive state, UE can be enable to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 17 is another UE provided in an embodiment of the present invention structural representation.As shown in figure 17, the UE includes：Sending module 171, receiving module 172 and determining module 173.

Sending module 171, for being sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the QoS grades and/or the first business of first business to the base station.

Receiving module 172, the DTX configurations of discontinuous transmission are carried out for receiving the DTX parameter sets of use the 3rd that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from the use of setting at least one DTX parameter set.

Determining module 173, is connected with receiving module 172, and the DTX parameter sets of use the 3rd for being received according to receiving module 172 carry out the activated state time in DTX configuration the 3rd DTX cycles of determination of discontinuous transmission.

Sending module 171 is additionally operable to send upstream data to the base station in the activated state time in the 3rd DTX cycles determined in determining module 173.

Optionally, sending module 171 is particularly used in the base station and sends RRC connection setup complete messages, and the RRC connection setup complete messages include the resource type needed for the QoS grades and/or the first business of first business.

Optionally, receiving module 172 is particularly used in RRC dedicated signalings or beep-page message or the broadcast message for receiving that the base station is sent, and the RRC dedicated signalings or beep-page message or broadcast message include the DTX for carrying out discontinuous transmission using the 3rd DTX parameter sets and matched somebody with somebody.

In the present embodiment, the service request that sending module 171 is sent includes but is not limited to：SR or random access request. Each functional module for the UE that the present embodiment is provided can be used for the flow for performing data transmission method for uplink shown in Fig. 8, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The UE that the present embodiment is provided, the base station provided with above-described embodiment is engaged, base station is supported to be directed to the service quality rating and/or required resource type of different business, at least one DTX parameter set is set, it is the suitable DTX parameter sets of service selection of request to support the service request that base station is sent according to the present embodiment UE, simultaneously base station by the DTX configuration provides after switching to UE, the DTX configurations that the UE of the present embodiment is provided based on base station, within the activated state time in the DTX cycles of corresponding DTX parameter sets upstream data is sent to base station, cell can be accessed in time to be serviced, alleviate access or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand.

Figure 18 is another UE provided in an embodiment of the present invention structural representation.As shown in figure 18, the UE includes：Transmitter 181, receiver 182 and processor 183.

Transmitter 181, for being sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the QoS grades and/or the first business of first business to the base station.

Receiver 182, the DTX configurations of discontinuous transmission are carried out for receiving the DTX parameter sets of use the 3rd that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from the use of setting at least one DTX parameter set.

Processor 183, the DTX parameter sets of use the 3rd for being received according to receiver 182 carry out the activated state time in DTX configuration the 3rd DTX cycles of determination of discontinuous transmission.

Transmitter 181 is additionally operable to send upstream data to the base station in the activated state time in the 3rd DTX cycles determined in processor 183.

Optionally, transmitter 181 is particularly used in the base station and sends RRC connection setup complete messages, and the RRC connection setup complete messages include the resource type needed for the QoS grades and/or the first business of first business.

Optionally, receiver 182 is particularly used in RRC dedicated signalings or beep-page message or the broadcast message for receiving that the base station is sent, and the RRC dedicated signalings or beep-page message or broadcast message include the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

In the present embodiment, the service request that transmitter 181 is sent includes but is not limited to：SR or with Machine access request.

Further, the UE also includes：Memory.

Memory, for storage program.Specifically, program can include program code, and described program code includes computer-managed instruction.

Processor 183 can be used for the program for performing memory storage, control logic for realizing the UE etc..

Memory can include high-speed RAM memory, can also include nonvolatile memory (non-volatile memory), for example, at least one magnetic disk storage.

Processor 183 can be a CPU, or specific ASIC, or be arranged to implement one or more integrated circuits of the embodiment of the present invention.

Optionally, on implementing, transmitter 181, receiver 182 and processor 183 can be connected with each other by bus and complete mutual communication.The bus can be isa bus, PCI buses or eisa bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 18 with a thick line, it is not intended that only one bus or a type of bus.

Optionally, on implementing, transmitter 181, receiver 182 and processor 183 can be completed by internal interface it is identical between communication.

Further alternative, the UE can also include input block, display unit, power module and voicefrequency circuit etc. in addition to including transmitter 181, receiver 182, memory and processor 183.The input block can be contact panel or other input equipments, and the display unit can be display panel etc..

The UE that the present embodiment is provided can be used for the flow for performing data transmission method for uplink shown in Fig. 8, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The UE that the present embodiment is provided, the base station provided with above-described embodiment is engaged, base station is supported to be directed to the service quality rating and/or required resource type of different business, at least one DTX parameter set is set, it is the suitable DTX parameter sets of service selection of request to support the service request that base station is sent according to the present embodiment UE, simultaneously base station by the DTX configuration provides after switching to UE, the DTX configurations that the UE of the present embodiment is provided based on base station, within the activated state time in the DTX cycles of corresponding DTX parameter sets upstream data is sent to base station, cell can be accessed in time to be serviced, alleviate access or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, that brings can not meet asking for UE QoS demand Topic.

Figure 19 is the structural representation of another base station provided in an embodiment of the present invention.As shown in figure 19, the base station includes：Handover module 191, sending module 192 and receiving module 193.

Receiving module 193, the service request for receiving UE transmissions.

Handover module 191, continuous emission state is switched to for the service request that is received according to receiving module 193 by emission state by DTX states.

Sending module 192, is connected with handover module 191, for handover module 191 to be switched after the emission state of the continuous emission state be sent to the UE.

Receiving module 193, is additionally operable under the continuous emission state after handover module 191 switches, and receives the upstream data that the UE is sent.

In an optional embodiment, the UE also includes：Determining module.Determining module, for determining that the upstream data of the UE is sent.Handover module 191 is additionally operable to after determining module determines that the upstream data of the UE is sent, and the emission state is switched into DTX state.Accordingly, sending module 192 is additionally operable to the emission state of the DTX state after handover module is switched and is sent to the UE.

In an optional embodiment, the base station also includes：Timing module.

Timing module, for the timing when the emission state is switched to continuous emission state by handover module 191 by DTX state.Handover module 191 is additionally operable to that the emission state is switched into DTX state by continuous emission state at the end of the timing module timing.Accordingly, sending module 192 is additionally operable to the emission state of the DTX state after handover module 191 is switched and is sent to the UE.

Further alternative, timing module is additionally operable to, when receiving module 193 receives the service request of other UE transmissions before timing terminates, restart timing.

In the present embodiment, the service request includes but is not limited to：SR or random access request.

Each functional module for the base station that the present embodiment is provided can be used for the flow for performing data receiver method shown in Fig. 9, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The present embodiment provide base station, in the case where UE has business demand, by local emission state by

DTX state switches to continuous emission state, UE can be made to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand, so as to ensure the transmission or access of the above-mentioned data of UE.

Figure 20 is the structural representation of another base station provided in an embodiment of the present invention.As shown in figure 20, the base station includes：Processor 2001, transmitter 2002 and receiver 2003. Receiver 2003, the service request for receiving UE transmissions.

Processor 2001, continuous emission state is switched to for the service request that is received according to receiver 2003 by emission state by DTX states.

Transmitter 2002, for processor 2001 to be switched after the emission state of the continuous emission state be sent to the UE.

Receiver 2003, is additionally operable under the continuous emission state after processor 2001 switches, and receives the upstream data that the UE is sent.

In an optional embodiment, processor 2001 is additionally operable to determine that the upstream data of the UE is sent, and the emission state is switched into DTX state.Accordingly, transmitter 2002 is additionally operable to the emission state of the DTX state after processor 2001 is switched and is sent to the UE.

In an optional embodiment, processor 2001 is additionally operable to the timing when the emission state is switched into continuous emission state by DTX state, and the emission state is switched into DTX state by continuous emission state at the end of timing.Transmitter 2002, the emission state for being additionally operable to the DTX state after processor 2001 is switched is sent to the UE.

Further alternative, processor 2001 is additionally operable to, when receiver 2003 receives the service request of other UE transmissions before timing terminates, restart timing.

In the present embodiment, the service request includes but is not limited to：SR or random access request.

Further, the base station also includes：Memory.

Memory, for depositing program.Specifically, program can include program code, and described program code includes computer-managed instruction.Based on this, processor 2001 can realize above-mentioned functions, but not limited to this by performing the program of memory storage.

Memory can include high-speed RAM memory, can also include nonvolatile memory (non-volati le memory), for example, at least one magnetic disk storage.

Processor 2001 can be a CPU, or specific ASIC, or be arranged to implement one or more integrated circuits of the embodiment of the present invention.

Optionally, on implementing, processor 2001, transmitter 2002 and receiver 2003 can be connected with each other by bus and complete mutual communication.The bus can be isa bus, PCI buses or eisa bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 20 with a thick line, it is not intended that only one bus or a type of bus. Optionally, on implementing, processor 2001, transmitter 2002 and receiver 2003 can be completed by internal interface it is identical between communication.

The base station that the present embodiment is provided can be used for the flow for performing data receiver method shown in Fig. 9, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The present embodiment provide base station, in the case where UE has business demand, by local emission state by

DTX state switches to continuous emission state, UE can be made to access cell in time to be serviced, alleviate UE accesses or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand, so as to ensure the transmission or access of the above-mentioned data of UE.

Figure 21 is another UE provided in an embodiment of the present invention structural representation.As shown in figure 21, the UE includes：Sending module 2101, receiving module 2102 and determining module 2103.

Sending module 2101, for sending service request to base station.

Receiving module 2102, the emission state for receiving the continuous transmitting after the base station that the base station is sent switches according to the service request, wherein, the emission state before the base station switching is DTX state.

Determining module 2103, for received according to receiving module 2101 the base station switching after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched.

Illustrate herein, the emission state of the continuous transmitting after being switched according to the base station determines that the time for sending upstream data is applied to the scene that UE uses DRX.And the emission state of the continuous transmitting after being switched according to the base station switches to emission state the emission state continuously launched to be applied to any scene.

Sending module 2101 is additionally operable to the time of the transmission upstream data determined according to determining module 2103 and/or under the emission state continuously launched to base station transmission upstream data.

Optionally, receiving module 2102 is additionally operable to receive the emission state for the DTX state that the base station is sent.Each functional module for the UE that the present embodiment is provided can be used for the flow for performing data transmission method for uplink shown in Figure 10, and its concrete operating principle is repeated no more, and refers to the description of embodiment of the method.

The UE that the present embodiment is provided, the base station provided with above-described embodiment is engaged, cell can be accessed in time to be serviced, alleviate access or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand, so as to ensure the transmission or access of the above-mentioned data of UE.

Figure 22 is another UE provided in an embodiment of the present invention structural representation.As shown in figure 22, the UE includes：Transmitter 2201, receiver 2202 and processor 2203. Transmitter 2201, for sending service request to base station.

Receiver 2202, the emission state for receiving the continuous transmitting after the base station that the base station is sent switches according to the service request, wherein, the emission state before the base station switching is DTX state.

Processor 2203, for received according to receiver 2201 the base station switching after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched.

Transmitter 2201 is additionally operable to the time of the transmission upstream data determined according to processor 2203 and/or under the emission state continuously launched to base station transmission upstream data.

Optionally, receiver 2202 is additionally operable to receive the emission state for the DTX state that the base station is sent.Further, the UE also includes：Memory.

Memory, for storage program.Specifically, program can include program code, and described program code includes computer-managed instruction.

Processor 2203 can be used for the program for performing memory storage, control logic for realizing the UE etc..

Memory can include high-speed RAM memory, can also include nonvolatile memory

(non-volatile memory), for example, at least one magnetic disk storage.

Processor 2203 can be a CPU, or specific ASIC, or be arranged to implement one or more integrated circuits of the embodiment of the present invention.

Optionally, on implementing, transmitter 2201, receiver 2202 and processor 2203 can be connected with each other by bus and complete mutual communication.The bus can be isa bus, PCI buses or eisa bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 22 with a thick line, it is not intended that only one bus or a type of bus.

Optionally, on implementing, transmitter 2201, receiver 2202 and processor 2203 can be completed by internal interface it is identical between communication.

Further alternative, the UE can also include input block, display unit, power module and voicefrequency circuit etc. in addition to including transmitter 2201, receiver 2202, memory and processor 2204.The input block can be contact panel or other input equipments, and the display unit can be display panel etc..

The UE that the present embodiment is provided can be used for the flow for performing data transmission method for uplink shown in Figure 10, and its is specific Operation principle is repeated no more, and refers to the description of embodiment of the method.

The UE that the present embodiment is provided, the base station provided with above-described embodiment is engaged, cell can be accessed in time to be serviced, alleviate access or the time delay carried out data transmission, solve because base station performs the macrocyclic DTX of comparison, the problem of that brings can not meet UE QoS demand, so as to ensure the transmission or access of the above-mentioned data of UE.

One of ordinary skill in the art will appreciate that：Realizing all or part of step of above method embodiment can be completed by the related hardware of programmed instruction, foregoing program can be stored in a computer read/write memory medium, the program upon execution, performs the step of including above method embodiment；And foregoing storage medium includes：R0M, RAM, magnetic disc or CD etc. are various can be with the medium of store program codes.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；Although the present invention is described in detail with reference to foregoing embodiments, it will be understood by those within the art that：It can still modify to the technical scheme described in foregoing embodiments, or carry out equivalent substitution to which part or all technical characteristic；And these modifications or replacement, the essence of appropriate technical solution is departed from the scope of various embodiments of the present invention technical scheme.

Claims (1)

1. Claims

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

   Receive the service request that user equipment (UE) is sent；

   Discontinuous transmission DTX is configured and switched to by carrying out discontinuous transmission using the first DTX parameter sets using the 2nd DTX parameter sets progress discontinuous transmission by the service request sent according to the UE, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or the ratio of the activated state time in the first DTX cycles in the first DTX cycles in the first DTX parameter sets is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

   The DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE;DTX configurations according to discontinuous transmission is carried out using the 2nd DTX parameter sets determine the activated state time in the 2nd DTX cycles；

   The upstream data that the UE is sent is received within the activated state time in the 2nd DTX cycles.

   2nd, according to the method described in claim 1, it is characterised in that the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

   3rd, method according to claim 1 or 2, it is characterised in that the first DTX cycles are more than or equal to the 2nd DTX cycles.

   4th, the method according to claim any one of 1-3, it is characterised in that also include：Determine that the upstream data of the UE is sent, and DTX configurations are switched to using the first DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the 2nd DTX parameter sets；

   The DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to described

   UE o

   5th, method according to claim 4, it is characterised in that described that the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE, including：

   Broadcast the message by the first radio resource control RRC dedicated signalings or the first beep-page message or first, the DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE;It is described that the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE, including：

   Broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second, the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE. 6th, the method according to claim any one of 1-5, it is characterised in that methods described also includes：According to the service request, set up RRC with the UE and be connected；

   The upstream data that the UE transmissions are received within the activated state time in the 2nd DTX cycles, including：

   Connected by the RRC, the upstream data that the UE is sent is received within the activated state time in the 2nd DTX cycles.

   7th, the method according to claim any one of 1-6, it is characterised in that the service request includes dispatch request or random access request.

   8th, a kind of data transmission method for uplink, it is characterised in that including：

   Service request is sent to base station；

   Receive the DTX configurations for use the second discontinuous transmission DTX parameter sets progress discontinuous transmission that the base station is sent, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the base station and configured according to the service request by using the DTX of the first DTX parameter sets progress discontinuous transmission to configure the DTX used after switching, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

   The activated state time in the 2nd DTX cycles is determined according to the DTX configurations for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets；

   Within the activated state time in the 2nd DTX cycles of the determination upstream data is sent to the base station.

   9th, method according to claim 8, it is characterised in that the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

   10th, method according to claim 8 or claim 9, it is characterised in that the first DTX cycles are more than or equal to the 2nd DTX cycles.

   11, the method according to claim any one of 8-10, it is characterised in that after sending upstream data to the base station within the activated state time in the 2nd DTX cycles, methods described also includes：Receive the DTX configurations for the DTX parameter sets of use the first progress discontinuous transmission that base station is sent.

   12nd, the method according to claim 11, it is characterised in that use the second discontinuous transmission DTX parameter sets that the reception base station is sent carry out the DTX configurations of discontinuous transmission, including： The first radio resource control RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent are received, the first RRC dedicated signalings or the first beep-page message or the first broadcast message include the DTX configurations that discontinuous transmission is carried out using the second discontinuous transmission DTX parameter sets；

   The DTX parameter sets of use the first that the reception base station is sent carry out the DTX configurations of discontinuous transmission, including：

   The 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent are received, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message include the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets.

   13rd, the method according to any one of claim 8- 12, it is characterised in that the service request includes dispatch request or random access request.

   14th, a kind of data receiver method, it is characterised in that including：

   The service request for being used to ask to initiate the first business that user equipment (UE) is sent is received, and receives the resource type needed for the service quality QoS grade and/or first business for first business that the UE is sent；

   Resource type according to needed for the QoS grades of first business and/or first business, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business；

   The DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets are sent to the UE;The activated state time in the 3rd DTX cycles is determined according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

   The upstream data that the UE is sent is received within the activated state time in the 3rd DTX cycles.

   15th, method according to claim 14, it is characterised in that the resource type needed for the service quality QoS grade and/or first business of first business that the reception UE is sent, including：

   The radio resource control RRC connection setup complete messages that the UE is sent are received, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or first business of first business.

   16th, the method according to claims 14 or 15, it is characterised in that described that the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets are sent to the UE, including： By RRC dedicated signalings or beep-page message or broadcast message, the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets are sent to the UE.

   17th, the method according to any one of claim 14- 16, it is characterised in that

   The service request for being used to ask to initiate the first business for receiving user equipment (UE) transmission, including：Receive the service request for being used to ask to initiate at least one the first business that user equipment (UE) is sent；Resource type needed for the QoS grades and/or first business according to first business, from at least one DTX configuration that discontinuous transmission is carried out using discontinuous transmission DTX parameter sets of setting, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business, including：

   Resource type according to needed for the QoS grades of at least one first business and/or at least one described first business, from the DTX configurations of the use of setting at least one DTX parameter set progress discontinuous transmission, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business；

   From at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, determine that the activated state time in DTX cycles is most long, and the most short DTX parameter sets of use the 4th of inactive state time in DTX cycles are carried out the DTX configurations of discontinuous transmission and are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

   18th, the method according to any one of claim 14- 17, it is characterised in that methods described also includes：

   If DTX configurations are switched to DTX configurations using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets using the non-3rd DTX parameter sets progress discontinuous transmission.

   19th, the method according to any one of claim 14- 18, it is characterised in that at least one described DTX parameter set corresponds to different parameter combinations respectively, the parameter combination includes at least one in QoS grades and resource type.

   20th, the method according to any one of claim 14- 19, it is characterised in that the service request includes dispatch request or random access request.

   21st, a kind of data transmission method for uplink, it is characterised in that including：

   The service request for asking the first business of initiation is sent to base station, and sends described to the base station Resource type needed for the service quality QoS grade of first business and/or first business；

   Receive the DTX configurations for the DTX parameter sets of use the 3rd progress discontinuous transmission that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting；

   The activated state time in the 3rd DTX cycles is determined according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

   Within the activated state time in the 3rd DTX cycles upstream data is sent to the base station.

   22nd, method according to claim 21, it is characterised in that the resource type needed for the service quality QoS grade and/or first business to base station transmission first business, including：Radio resource control RRC connection setup complete messages are sent to the base station, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or first business of first business.

   23rd, the method according to claim 21 or 22, it is characterised in that the DTX parameter sets of use the 3rd that the reception base station is sent carry out the DTX configurations of discontinuous transmission, including：

   RRC dedicated signalings or beep-page message or broadcast message that the base station is sent are received, the RRC dedicated signalings or beep-page message or broadcast message include the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

   24th, the method according to claim any one of 21-23, it is characterised in that the service request includes dispatch request or random access request.

   25th, a kind of data receiver method, it is characterised in that including：

   Receive the service request that user equipment (UE) is sent；

   Emission state is switched to by continuous emission state by discontinuous transmission DTX state according to the service request；

   The emission state of the continuous emission state after the switching is sent to the UE;

   Under continuous emission state after the switching, the upstream data that the UE is sent is received.

   26th, method according to claim 25, it is characterised in that also include：

   Determine that the upstream data of the UE is sent；

   The emission state is switched into DTX state； The emission state of the DTX state after switching is sent to the UE.

   27th, method according to claim 25, it is characterised in that also include：

   When the emission state is switched into continuous emission state by DTX state, start timing, at the end of timing, the emission state is switched into DTX state by continuous emission state, and the emission state of the DTX state after switching is sent to the UE.

   28th, method according to claim 27, it is characterised in that methods described also includes：If receiving the service request of other UE transmissions before timing terminates, restart timing.

   29th, the method according to claim any one of 25-28, it is characterised in that the service request includes dispatch request or random access request.

   30th, a kind of data transmission method for uplink, it is characterised in that including：

   Service request is sent to base station；

   The base station of the base station transmission is received according to the emission state of the continuous transmitting after service request switching, wherein, the emission state before the base station switching is discontinuous transmission DTX state；

   The emission state of continuous transmitting after being switched according to the base station determines to send the time of upstream data and/or emission state is switched to the emission state continuously launched；

   Upstream data is sent according to the time of the transmission upstream data of the determination and/or to the base station under the emission state continuously launched.

   31st, method according to claim 30, it is characterised in that also include：

   Receive the emission state for the DTX state that the base station is sent.

   32nd, a kind of base station, it is characterised in that including：

   Receiving module, the service request for receiving user equipment (UE) transmission；

   Handover module, the service request sent for the UE received according to the receiving module, discontinuous transmission DTX configurations are switched to using the 2nd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；Sending module, the DTX configurations for the handover module to be configured to the DTX parameter sets of use the 2nd used after switching progress discontinuous transmission to DTX are sent to the UE;

   Determining module, for being matched somebody with somebody according to the DTX that discontinuous transmission is carried out using the 2nd DTX parameter sets Put the activated state time for determining the 2nd DTX cycles；

   The receiving module, is additionally operable within the activated state time in the 2nd DTX cycles of determining module determination receive the upstream data that the UE is sent.

   33rd, base station according to claim 32, it is characterised in that the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

   34th, the base station according to claim 32 or 33, it is characterised in that the first DTX cycles are more than or equal to the 2nd DTX cycles.

   35th, the base station according to claim any one of 32-34, it is characterised in that

   The handover module is additionally operable to determine that the upstream data of the UE is sent, and DTX configurations are carried out into discontinuous transmission using the first DTX parameter sets by described switched to using the 2nd DTX parameter sets progress discontinuous transmission；

   The sending module is additionally operable to the DTX configurations for carrying out discontinuous transmission using the first DTX parameter sets used after the DTX configuration switchings for being carried out discontinuous transmission using the 2nd DTX parameter sets are sent to the handover module into the UE.

   36th, base station according to claim 35, it is characterised in that

   The DTX configurations that discontinuous transmission is carried out using the 2nd DTX parameter sets are sent to the UE by the sending module specifically for being broadcast the message by the first radio resource control RRC dedicated signalings or the first beep-page message or first;

   The DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets are sent to the UE o by the sending module specifically for being broadcast the message by the 2nd RRC dedicated signalings or the second beep-page message or second

   37th, the base station according to claim any one of 32-36, it is characterised in that the base station also includes connection establishment module；

   The connection establishment module is used for the service request received according to the receiving module, sets up RRC with the UE and is connected；

   The receiving module receives the upstream data that the UE is sent specifically for the RRC connections set up by the connection establishment module within the activated state time in the 2nd DTX cycles.

   38th, the base station according to claim any one of 32-37, it is characterised in that the service request includes dispatch request or random access request.

   39th, a kind of user equipment, it is characterised in that including： Sending module, for sending service request to base station；

   Receiving module, the DTX configurations of discontinuous transmission are carried out for receiving use the second discontinuous transmission DTX parameter sets that the base station is sent, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the DTX configurations that the service request that the base station sends according to the sending module is used after the DTX configuration switchings that discontinuous transmission is carried out using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

   Determining module, the DTX parameter sets of use the 2nd for being received according to the receiving module carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission；

   The sending module, is additionally operable within the activated state time in the 2nd DTX cycles of determining module determination send upstream data to the base station.

   40th, the user equipment according to claim 39, it is characterised in that the inactive state time in the first DTX cycles is more than or equal to the inactive state time in the 2nd DTX cycles.

   41st, the user equipment according to claim 39 or 40, it is characterised in that the first DTX cycles are more than or equal to the 2nd DTX cycles.

   42nd, the user equipment according to claim any one of 39-41, it is characterized in that, the receiving module is additionally operable to after the sending module sends upstream data within the activated state time in the 2nd DTX cycles to the base station, receives the DTX configurations for the DTX parameter sets of use the first progress discontinuous transmission that the base station is sent.

   43rd, user equipment according to claim 42, it is characterised in that

   The receiving module includes carrying out the DTX configurations of discontinuous transmission using the 2nd DTX parameter sets specifically for receiving the first radio resource control RRC dedicated signalings or the first beep-page message or the first broadcast message that the base station is sent, the first RRC dedicated signalings or the first beep-page message or the first broadcast message；The receiving module includes the DTX configurations that discontinuous transmission is carried out using the first DTX parameter sets specifically for receiving the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message that the base station is sent, the 2nd RRC dedicated signalings or the second beep-page message or the second broadcast message.

   44th, the user equipment according to claim any one of 39-43, it is characterised in that the service request includes dispatch request or random access request. 45th, a kind of base station, it is characterised in that including：

   Receiving module, for receiving the service request for being used to ask to initiate the first business of user equipment (UE) transmission, and receives the resource type needed for the service quality QoS grade and/or first business for first business that the UE is sent；

   Determining module, for the resource type needed for the QoS grades of the first business and/or first business that are received according to the receiving module, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business;Sending module, the DTX configurations that the DTX parameter sets of use the 3rd for the determining module to be determined carry out discontinuous transmission are sent to the UE;

   The determining module, is additionally operable to determine the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

   The receiving module, is additionally operable within the activated state time in the 3rd DTX cycles of determining module determination receive the upstream data that the UE is sent.

   46th, base station according to claim 45, it is characterised in that

   The receiving module includes the resource type needed for the QoS grades and/or first business of first business specifically for receiving the radio resource control RRC connection setup complete messages that the UE is sent, the RRC connection setup complete messages.

   47th, the base station according to claim 45 or 46, it is characterised in that

   The sending module is specifically for by RRC dedicated signalings or beep-page message or broadcast message, the UE is sent to by the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets.

   48th, the base station according to claim any one of 45-47, it is characterised in that

   The receiving module, specifically for receiving the service request for being used to ask to initiate at least one the first business that the UE is sent；

   The determining module, specifically for the resource type needed for the QoS grades and/or at least one described first business according at least one first business, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, the corresponding DTX configurations using the 4th DTX parameter sets progress discontinuous transmission of resource type needed for determining at least one QoS grade and/or at least one described first business with least one first business, from at least one described DTX that discontinuous transmission is carried out using the 4th DTX parameter sets is configured, determine that the activated state time in DTX cycles is most long, and DTX The DTX configurations that most short DTX parameter sets of use the 4th of the inactive state time in cycle carry out discontinuous transmission are used as the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

   49th, the base station according to claim any one of 45-48, it is characterized in that, the determining module is additionally operable to, when DTX configurations are using the non-3rd DTX parameter sets progress discontinuous transmission, DTX configurations be switched to using the 3rd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the non-3rd DTX parameter sets.

   50th, the base station according to claim any one of 45-49, it is characterised in that at least one described DTX parameter set corresponds to different parameter combinations respectively, the parameter combination includes at least one in QoS grades and resource type.

   51st, the base station according to claim any one of 45-50, it is characterised in that the service request includes dispatch request or random access request.

   52nd, a kind of user equipment, it is characterised in that including：

   Sending module, for being sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the service quality QoS grade and/or first business of first business to the base station；

   Receiving module, the DTX configurations of discontinuous transmission are carried out for receiving the discontinuous transmission DTX parameter sets of use the 3rd that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from the use of setting at least one DTX parameter set；

   Determining module, the DTX parameter sets of use the 3rd for being received according to the receiving module carry out the activated state time in DTX configuration the 3rd DTX cycles of determination of discontinuous transmission；

   The sending module, is additionally operable within the activated state time in the 3rd DTX cycles of determining module determination send upstream data to the base station.

   53rd, user equipment according to claim 52, it is characterised in that

   The sending module, specifically for sending radio resource control RRC connection setup complete messages to the base station, the RRC connection setup complete messages include the resource type needed for the QoS grades and/or first business of first business.

   54th, the user equipment according to claim 52 or 53, it is characterised in that The receiving module, specifically for receiving RRC dedicated signalings or beep-page message or the broadcast message that the base station is sent, the RRC dedicated signalings or beep-page message or broadcast message include the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets.

   55th, the user equipment according to claim any one of 52-54, it is characterised in that the service request includes dispatch request or random access request.

   56th, a kind of base station, it is characterised in that including：

   Receiving module, the service request for receiving user equipment (UE) transmission；

   Handover module, continuous emission state is switched to for the service request that is received according to the receiving module by emission state by discontinuous transmission DTX state；

   Sending module, for the emission state of the continuous emission state after handover module switching to be sent into the UE;

   The receiving module, is additionally operable under the continuous emission state after the handover module switches, and receives the upstream data that the UE is sent.

   57th, base station according to claim 56, it is characterised in that the base station also includes determining module；

   The determining module, for determining that the upstream data of the UE is sent；

   The handover module, is additionally operable to after the determining module determines that the upstream data of the UE is sent, the emission state is switched into DTX state；

   The sending module, the emission state for being additionally operable to the DTX state after the handover module is switched is sent to the UE.

   58th, base station according to claim 56, it is characterised in that also include：

   Timing module, for the timing when the emission state is switched into continuous emission state by DTX state；

   The handover module, is additionally operable to that the emission state is switched into DTX state by continuous emission state at the end of the timing module timing；

   The sending module, for the emission state of the DTX state after handover module switching to be sent into the UE.

   59th, base station according to claim 58, it is characterised in that

   The timing module, is additionally operable to, when the receiving module receives the service request of other UE transmissions before timing terminates, restart timing. 60th, the base station according to claim any one of 56-59, it is characterised in that the service request includes dispatch request or random access request.

   61st, a kind of user equipment, it is characterised in that including：

   Sending module, for sending service request to base station；

   Receiving module, the emission state for receiving the continuous transmitting after the base station that the base station is sent switches according to the service request, wherein, the emission state before the base station switching is discontinuous transmission DTX states；

   Determining module, for received according to the receiving module the base station switching after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched；

   The sending module, is additionally operable to send upstream data according to the time of the transmission upstream data of determining module determination and/or under the emission state continuously launched to the base station.

   62nd, user equipment according to claim 61, it is characterised in that

   The receiving module, is additionally operable to receive the emission state for the DTX state that the base station is sent.

   63rd, a kind of base station, it is characterised in that including：

   Receiver, the service request for receiving user equipment (UE) transmission；

   Processor, the service request sent for the UE received according to the receiver, discontinuous transmission DTX configurations are switched to using the 2nd DTX parameter sets progress discontinuous transmission by carrying out discontinuous transmission using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；Transmitter, the DTX configurations for the processor to be configured to the DTX parameter sets of use the 2nd used after switching progress discontinuous transmission to DTX are sent to the UE;

   The processor, is additionally operable to determine the activated state time in the 2nd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 2nd DTX parameter sets；

   The receiver, is additionally operable within the activated state time in the 2nd DTX cycles of processor determination receive the upstream data that the UE is sent.

   64th, a kind of user equipment, it is characterised in that including：

   Transmitter, for sending service request to base station； Receiver, the DTX configurations of discontinuous transmission are carried out for receiving use the second discontinuous transmission DTX parameter sets that the base station is sent, wherein, the DTX for carrying out discontinuous transmission using the second discontinuous transmission DTX parameter sets is configured to the DTX configurations that the service request that the base station sends according to the sending module is used after the DTX configuration switchings that discontinuous transmission is carried out using the first DTX parameter sets, the activated state time in the first DTX cycles in the first DTX parameter sets is less than the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets, or ratio of the activated state time in the first DTX cycles in the first DTX parameter sets in the first DTX cycles is less than ratio of the activated state time in the 2nd DTX cycles in the 2nd DTX parameter sets in the 2nd DTX cycles；

   Processor, the DTX parameter sets of use the 2nd for being received according to the receiver carry out the activated state time in DTX configuration determination the 2nd DTX cycles of discontinuous transmission；

   The transmitter is additionally operable to send upstream data to the base station in the activated state time in the 2nd DTX cycles determined in the processor.

   65th, a kind of base station, it is characterised in that including：

   Receiver, for receiving the service request for being used to ask to initiate the first business of user equipment (UE) transmission, and receives the resource type needed for the service quality QoS grade and/or first business for first business that the UE is sent；

   Processor, for the resource type needed for the QoS grades of the first business and/or first business that are received according to the receiver, in the DTX configurations for carrying out discontinuous transmission from use at least one discontinuous transmission DTX parameter sets of setting, it is determined that the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets corresponding with the resource type needed for the QoS grades and/or first business of first business；Transmitter, the DTX configurations that the DTX parameter sets of use the 3rd for the processor to be determined carry out discontinuous transmission are sent to the UE;

   The processor is additionally operable to determine the activated state time in the 3rd DTX cycles according to the DTX configurations for carrying out discontinuous transmission using the 3rd DTX parameter sets；

   The receiver is additionally operable in the activated state time in the 3rd DTX cycles determined in the processor receive the upstream data that the UE is sent.

   66th, a kind of user equipment, it is characterised in that including：

   Transmitter, for being sent to base station for asking to initiate the service request of the first business, and the resource type needed for sending the service quality QoS grade and/or first business of first business to the base station； Receiver, the DTX configurations of discontinuous transmission are carried out for receiving the discontinuous transmission DTX parameter sets of use the 3rd that the base station is sent, the DTX configurations that discontinuous transmission is carried out using the 3rd DTX parameter sets are resource type of the base station according to needed for the QoS grades and/or first business of first business, the corresponding DTX configurations of the resource type needed for the QoS grades and/or first business with first business determined in the DTX configurations for carrying out discontinuous transmission from the use of setting at least one DTX parameter set；

   Processor, the DTX parameter sets of use the 3rd for being received according to the receiver carry out the activated state time in DTX configuration the 3rd DTX cycles of determination of discontinuous transmission；

   The transmitter is additionally operable to send upstream data to the base station in the activated state time in the 3rd DTX cycles determined in the processor.

   67th, a kind of base station, it is characterised in that including：

   Receiver, the service request for receiving user equipment (UE) transmission；

   Processor, continuous emission state is switched to for the service request that is received according to the receiver by emission state by discontinuous transmission DTX state；

   Transmitter, for the emission state of the continuous emission state after processor switching to be sent into the UE;

   The receiver, is additionally operable under the continuous emission state after the processor switches, and receives the upstream data that the UE is sent.

   68th, a kind of user equipment, it is characterised in that including：

   Transmitter, for sending service request to base station；

   Receiver, the emission state for receiving the continuous transmitting after the base station that the base station is sent switches according to the service request, wherein, the emission state before the base station switching is discontinuous transmission DTX states；

   Processor, for received according to the receiver the base station switching after continuous transmitting emission state determine send upstream data time and/or emission state is switched to the emission state continuously launched；

   The transmitter is additionally operable to the time of the transmission upstream data determined according to the processor and/or under the emission state continuously launched to base station transmission upstream data.