CN103716773A - Discontinuous transmission/discontinuous reception (DTX/DRX) activation method and device - Google Patents

Abstract

The invention discloses a discontinuous transmission/discontinuous reception (DTX/DRX) activation method and a discontinuous transmission/discontinuous reception (DTX/DRX) activation device. The method comprise the following steps that: a radio network controller (RNC) receives a notification for requiring discontinuous transmission/discontinuous reception (DTX/DRX) activation or discontinuous transmission/discontinuous reception (DTX/DRX) deactivation, wherein the notification is transmitted by a base station NodeB; and the radio network controller (RNC) indicates the NodeB and other NodeBs of other NodeB branch flows that the NodeB and the other NodeBs of the other NodeB branch flows need to activate discontinuous transmission/discontinuous reception (DTX/DRX) or deactivate the discontinuous transmission/discontinuous reception (DTX/DRX) according to the notification. With the discontinuous transmission/discontinuous reception (DTX/DRX) activation method and device of the invention adopted, the problem of incapability of the NodeBs to currently control discontinuous transmission/discontinuous reception (DTX/DRX) activation or discontinuous transmission/discontinuous reception (DTX/DRX) deactivation functions in flow splitting performed between the NodeBs can be solved. The discontinuous transmission/discontinuous reception (DTX/DRX) activation method and device are advantageous in that one NodeB can cooperate with other NodeBs to perform activation or deactivation.

Description

Discontinuous transmission/discontinuous reception DTX/DRX Activiation method and device

Technical field

The present invention relates to the communications field, in particular to Activiation method and the device of a kind of discontinuous transmission/discontinuous reception DTX/DRX.

Background technology

Along with the continuous fast development of data service, high-speed packet access (High Speed Downlink Packet Access is called for short HSPA) technology is more and more general, and to the future development of multi-antenna multi-carrier-wave.Such as, the R7 version of 3GPP has been introduced multiple-input and multiple-output (Multiple Input Multiple Output, be called for short MIMO) technology, make NodeB(base station) can be by double antenna from same community simultaneously to subscriber equipment (User Equipment, referred to as UE) two transmission blocks of transmission, and introduced discontinuous transmission/discontinuous reception (Discontinuous Transmission, referred to as DTX)) technology, to improve the capacity of network; Subsequently, the R8 version of 3GPP has been introduced two carrier wave high speed downlink packet access (Double Carrier High Speed Downlink Packet Access, referred to as DC-HSDPA) technology, make NodeB from two frequencies of two neighbor cells, to send HSDPA data to UE simultaneously.The introducing of these two technology, improves the data throughout of community to a great extent.

When UE is in edge, two co-frequency cells and carry out soft handover or during More Soft Handoff, service high-speed downlink shared channel (High Speed Downlink Shared Channel often, referred to as HS-DSCH) limited ability of eating dishes without rice or wine of community, and non-service HS-DSCH community in Active Set also has available resources, if can all configure HS-DSCH channel in a plurality of communities, will greatly improve user's impression, thereby also improve the data throughout of community.Therefore, the R11 version of 3GPP enters on the multithread technology of HSDPA.

According to the node of shunting, distinguish, HSDPA multithread technology is divided between the interior shunting of NodeB and NodeB to be shunted.

Current, NodeB can pass through High-Speed Shared Control Channel (High Speed Shared Control Channel, referred to as HS-SCCH) Order order and activate fast or deexcitation DTX-DRX.

When HSDPA multithread technology is to shunt between NodeB, be that serving HS-DSCH cell (HS Serving cell) distributes when different N odeB with Assisting serving HS-DSCH cell (HS helping service community), between NodeB, the network structure of multithread as shown in Figure 1, radio network controller (Radio Network Controller, referred to as RNC) 102 be connected with a NodeB104 and the 2nd NodeB106 respectively, a NodeB104 is connected with UE108 respectively again with the 2nd NodeB106.Now a NodeB104 and the 2nd NodeB106 activate and have configured DTX-DRX function.If when a NodeB104 judgement need to adopt HS-SCCH Order order deexcitation DTX/DRX, the one NodeB104 now can not directly adopt HS-SCCH Order command configuration to UE deexcitation DTX/DRX, because the 2nd NodeB106 also has a HS link adopting DTX-DRX to configure to UE transmission data; In like manner, the 2nd NodeB106 can not directly adopt HS-SCCH Order command configuration to activate DTX/DRX to UE.When adopting the HSDPA multithread technology of shunting between NodeB, the current uncontrollable activation of NodeB or deexcitation DTX/DRX function.When UE activates DTX, if NodeB detects ascending pilot frequency variation, radio link failure, deexcitation DTX, can cause data service to retransmit in a large number the even possibility of UE call drop not in time.

The problem of the current uncontrollable activation of NodeB or deexcitation DTX/DRX function, not yet proposes effective solution at present when shunting between NodeB in correlation technique.

Summary of the invention

The invention provides Activiation method and the device of a kind of discontinuous transmission/discontinuous reception DTX/DRX, at least to address the above problem.

According to an aspect of the present invention, provide the Activiation method of a kind of discontinuous transmission/discontinuous reception DTX/DRX, having comprised: radio network controller (RNC) has received the needs activation of base station NodeB transmission or the notice of deexcitation DTX/DRX; Described RNC indicates described NodeB according to described notice and/or need to activate or deexcitation DTX/DRX with other NodeB of described NodeB shunting.

Preferably, radio network controller (RNC) receives the needs activation of NodeB transmission or the notice of deexcitation DTX/DRX comprises: described RNC receives the radio link parameter update message that described NodeB sends, wherein, described radio link parameter update message is used for notifying described RNC to activate or deexcitation DTX/DRX.

Preferably, described RNC indicates described NodeB according to described notice and/or need to activate with other NodeB of described NodeB shunting or deexcitation DTX/DRX comprises: described RNC judges whether needs activation or deexcitation DTX/DRX according to described notice; In the situation that determining needs activation or deexcitation DTX/DRX, to described NodeB and/or with other NodeB of described NodeB shunting, send wireless link reallocation message, wherein, described wireless link reallocation message is used to indicate described NodeB and/or configures corresponding link with other NodeB of described NodeB shunting, activates or deexcitation DTX/DRX.

Preferably, after sending wireless link reallocation message to described NodeB and/or with other NodeB of described NodeB shunting, described method also comprises: described RNC receives described NodeB and/or responds the wireless link reconfigured response message of described wireless link reallocation message with other NodeB of described NodeB shunting; Described RNC sends reallocation message according to described wireless link reconfigured response message to described NodeB and/or with the common UE of other NodeB of described NodeB shunting, indicates described UE to activate or deexcitation DTX/DRX.

Preferably, described reallocation message is radio bearer reallocation message or transmission channel reallocation message or physical channel reallocation message.

According to a further aspect in the invention, provide the Activiation method of a kind of discontinuous transmission/discontinuous reception DTX/DRX, having comprised: NodeB has sent the notice of needs activation or deexcitation DTX/DRX to radio network controller (RNC); Described NodeB and/or receive with other NodeB of described NodeB shunting that described RNC responds the indication of described notice and according to described indication activation or deexcitation DTX/DRX.

Preferably, NodeB needs the notice of activation or deexcitation DTX/DRX to comprise to radio network controller (RNC) transmission: NodeB determines that needs activate or deexcitation DTX/DRX, to RNC described in RNC transmission radio link parameter update message informing, need to activate or deexcitation DTX/DRX.

Preferably, described NodeB and/or receive described RNC with other NodeB of described NodeB shunting and respond the indication of described notice and comprise according to described indication activation or deexcitation DTX/DRX: described NodeB and/or receive described RNC with other NodeB of described NodeB shunting and respond the wireless link reallocation message that described radio link parameter update message sends; Described NodeB and/or other NodeB that shunt with described NodeB configure its corresponding link according to described wireless link reallocation message, activate or deexcitation DTX/DRX.

According to a further aspect in the invention, provide the active device of a kind of discontinuous transmission/discontinuous reception DTX/DRX, having comprised: receiver module, for receiving, the needs of base station NodeB transmission activate or the notice of deexcitation DTX/DRX; Indicating module, for indicating described NodeB and/or need to activating or deexcitation DTX/DRX with other NodeB of described NodeB shunting according to described notice.

Preferably, the radio link parameter update message that described receiver module sends for receiving described NodeB, wherein, described radio link parameter update message is used for notifying described RNC to activate or deexcitation DTX/DRX.

Preferably, described indicating module needs to activate or deexcitation DTX/DRX for judging whether according to described notice, in the situation that determining needs activation or deexcitation DTX/DRX, to described NodeB and/or with other NodeB of described NodeB shunting, send wireless link reallocation message, wherein, described wireless link reallocation message is used to indicate described NodeB and/or configures corresponding link with other NodeB of described NodeB shunting, activates or deexcitation DTX/DRX.

Preferably, at described receiver module, receive described NodeB and/or respond after the wireless link reconfigured response message of described wireless link reallocation message with other NodeB of described NodeB shunting, described indicating module sends reallocation message according to described wireless link reconfigured response message to described NodeB and/or with the common UE of other NodeB of described NodeB shunting, indicates described UE to activate or deexcitation DTX/DRX.

According to a further aspect in the invention, provide the active device of a kind of discontinuous transmission/discontinuous reception DTX/DRX, having comprised: transceiver module, for send the notice that needs activation or deexcitation DTX/DRX to radio network controller (RNC); Active module, for after the indication receiving described RNC and respond described notice according to described indication activation or deexcitation DTX/DRX.

Preferably, described transceiver module, for determining in the situation that needs activation or deexcitation DTX/DRX, need to activate or deexcitation DTX/DRX to RNC described in RNC transmission radio link parameter update message informing.

Preferably, described transceiver module, for after the wireless link reallocation message that sends, configuring its corresponding link according to described wireless link reallocation message receiving that described RNC responds described radio link parameter update message, activates or deexcitation DTX/DRX.

By the present invention, radio network controller (RNC) receives the needs activation of base station NodeB transmission or the notice of deexcitation DTX/DRX, RNC need to activate or deexcitation DTX/DRX according to this notice indication NodeB and/or with other NodeB of this NodeB shunting, solved the problem of the current uncontrollable activation of NodeB while shunting between NodeB or deexcitation DTX/DRX function, and then reached that collaborative other NodeB activate or the effect of deexcitation.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is according to the network structure of multithread between the NodeB of correlation technique;

Fig. 2 is the flow chart one according to the Activiation method of the DTX/DRX of the embodiment of the present invention;

Fig. 3 is according to the flowchart 2 of the Activiation method of the DTX/DRX of the embodiment of the present invention;

Fig. 4 is the structured flowchart one according to the active device of the DTX/DRX of the embodiment of the present invention;

Fig. 5 is the structured flowchart two according to the active device of the DTX/DRX of the embodiment of the present invention;

Fig. 6 is the flow chart one of the Activiation method of DTX/DRX according to the preferred embodiment of the invention;

Fig. 7 is the flowchart 2 of the Activiation method of DTX/DRX according to the preferred embodiment of the invention;

Fig. 8 is according to the flow chart 3 of the Activiation method of the DTX/DRX of the embodiment of the present invention.

Embodiment

Hereinafter with reference to accompanying drawing, also describe the present invention in detail in conjunction with the embodiments.It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.

Embodiment mono-

The embodiment of the present invention provides the flow chart of the Activiation method of a kind of DTX/DRX, and Fig. 2 is the flow chart one according to the Activiation method of the DTX/DRX of the embodiment of the present invention, and as shown in Figure 2, this flow process comprises the following steps:

Step S202, radio network controller (RNC) receives the needs activation of base station NodeB transmission or the notice of deexcitation DTX/DRX;

Step S204, RNC need to activate or deexcitation DTX/DRX according to this notice indication NodeB and/or with other NodeB of NodeB shunting.

By above-mentioned steps, solved the problem of the current uncontrollable activation of NodeB while shunting between NodeB or deexcitation DTX/DRX function, have that collaborative other NodeB activate or the beneficial effect of deexcitation.

NodeB have a lot of modes can notify RNC its need to activate or deexcitation DTX/DRX.Preferably, RNC can need to activate or deexcitation DTX/DRX to know NodeB by receiving the radio link parameter update message of NodeB transmission, wherein, this radio link parameter update message is used for notifying this NodeB of RNC need to activate or deexcitation DTX/DRX.

RNC receives after the radio link parameter update message of NodeB transmission, can directly indicate NodeB to be configured to activate DTX/DRX, also can adjudicate, and according to court verdict, determines whether to indicate NodeB.Preferably, RNC judges whether to need to activate or deexcitation DTX/DRX according to received notice, in the situation that determining needs activation or deexcitation DTX/DRX, to this NodeB and/or with other NodeB of this NodeB shunting, send wireless link reallocation message, wherein, wireless link reallocation message is used to indicate this NodeB and/or configures corresponding link with other NodeB of this NodeB shunting, activates or deexcitation DTX/DRX.

RNC receives NodeB and/or responds after the wireless link reconfigured response message of wireless link reallocation message with other NodeB of this NodeB shunting, can to this NodeB and/or with the common UE of other NodeB of this NodeB shunting, send reallocation message according to wireless link reconfigured response message, indication UE activates or deexcitation DTX/DRX.By above-mentioned steps, UE can activate DTX/DRX in time, and then has avoided the possibility of UE call drop, thereby has improved user's impression.

The message of indication UE activation or deexcitation DTX/DRX preferably, can be radio bearer reallocation message or transmission channel reallocation message or physical channel reallocation message in can having a lot.

Embodiment bis-

The embodiment of the present invention provides the Activiation method of a kind of discontinuous transmission/discontinuous reception DTX/DRX, and Fig. 3 is according to the flowchart 2 of the Activiation method of the DTX/DRX of the embodiment of the present invention, as shown in Figure 3, and these process step following steps:

Step S302, NodeB sends the notice that needs activation or deexcitation DTX/DRX to radio network controller (RNC);

Step S304, NodeB and/or receive with other NodeB of this NodeB shunting that this RNC responds the indication of this notice and according to this indication activation or deexcitation DTX/DRX.

Preferably, NodeB determines to be needed to activate or deexcitation DTX/DRX, sends radio link parameter update message informing RNC need to activate or deexcitation DTX/DRX to RNC.

Preferably, NodeB and/or receive that RNC responds this radio link parameter update message and the wireless link reallocation message that sends with other NodeB of NodeB shunting; NodeB and/or other NodeB that shunt with NodeB configure its corresponding link according to wireless link reallocation message, activate or deexcitation DTX/DRX.

Embodiment tri-

The embodiment of the present invention provides the structured flowchart of the active device of a kind of DTX/DRX, and this device is used for realizing above-described embodiment and preferred implementation, has carried out repeating no more of explanation.As used below, the combination of software and/or the hardware of predetermined function can be realized in term " module ".Although the described device of following examples is preferably realized with software, hardware, or the realization of the combination of software and hardware also may and be conceived.

Fig. 4 is the structured flowchart one according to the active device of the DTX/DRX of the embodiment of the present invention, and as shown in Figure 4, this device comprises receiver module 402, indicating module 404.

Receiver module 402, for receiving, the needs of base station NodeB transmission activate or the notice of deexcitation DTX/DRX;

Indicating module 404, for activating or deexcitation DTX/DRX according to this notice indication NodeB and/or with other NodeB of NodeB shunting.

Preferably, the radio link parameter update message that receiver module 402 sends for receiving NodeB, wherein, this radio link parameter update message is used for notifying RNC to activate or deexcitation DTX/DRX.

Preferably, indicating module 404 needs to activate or deexcitation DTX/DRX for judging whether according to this notice, in the situation that determining needs activation or deexcitation DTX/DRX, to NodeB and/or with other NodeB of this NodeB shunting, send wireless link reallocation message, wherein, wireless link reallocation message is used to indicate NodeB and/or configures corresponding link with other NodeB of this NodeB shunting, activates or deexcitation DTX/DRX.

Preferably, at receiver module 402, receive NodeB and/or respond after the wireless link reconfigured response message of wireless link reallocation message with other NodeB of this NodeB shunting, indicating module 404 sends reallocation message according to wireless link reconfigured response message to this NodeB and/or with the common UE of other NodeB of this NodeB shunting, and indication UE activates or deexcitation DTX/DRX.

In the preferred implementation of the embodiment of the present invention, each part in this device can combine corresponding function mutually according to the method described in above-described embodiment one, and has identical beneficial effect, and the concrete embodiment of the present invention repeats no more.

Embodiment tetra-

The embodiment of the present invention provides the structured flowchart of the active device of a kind of DTX/DRX, and this device is used for realizing above-described embodiment and preferred implementation, has carried out repeating no more of explanation.As used below, the combination of software and/or the hardware of predetermined function can be realized in term " module ".Although the described device of following examples is preferably realized with software, hardware, or the realization of the combination of software and hardware also may and be conceived.

Fig. 5 is the structured flowchart two according to the active device of the DTX/DRX of the embodiment of the present invention, and as shown in Figure 5, this device comprises receiver module 402, indicating module 404.

Transceiver module 502, for sending the notice that needs activation or deexcitation DTX/DRX to radio network controller (RNC);

Active module 504, for activating or deexcitation DTX/DRX according to this indication after the indication receiving RNC and respond this notice.

Preferably, transceiver module 502, for determining in the situation that needs activation or deexcitation DTX/DRX, sends radio link parameter update message informing RNC to RNC and need to activate or deexcitation DTX/DRX.

Preferably, transceiver module 502 for the wireless link reallocation message sending receiving RNC response radio link parameter update message after, according to wireless link reallocation message, configure its corresponding link, activate or deexcitation DTX/DRX.

In the preferred implementation of the embodiment of the present invention, each part in this device can combine corresponding function mutually according to the method described in above-described embodiment two, and has identical beneficial effect, and the concrete embodiment of the present invention repeats no more.

Embodiment five

The preferred embodiment of the present invention provides the Activiation method of a kind of DTX/DRX, when adopting the HSDPA multithread technology of shunting between NodeB, NodeB ACTIVE CONTROL activates or deexcitation DTX/DRX function, in time collaborative another one NodeB also activates or deexcitation DTX/DRX function simultaneously, UE is successfully activated or deexcitation, and then improve user's impression and reduce cutting off rate.Preferred embodiment of the present invention hypothesis is shunted at NodeB1 and NodeB2, and NodeB2 is and other NodeB of NodeB1 shunting that UE is the common UE of NodeB1 and NodeB2.

Fig. 6 is the flow chart one of the Activiation method of DTX/DRX according to the preferred embodiment of the invention, and as shown in Figure 6, the method comprises the following steps:

Step S602, NodeB1 judgement activates or deexcitation DTX/DRX.

Step S604, NodeB1 sends message informing RNC, indicates it to activate or deexcitation DTX/DRX.

NodeB1 sends radio link parameter update message to RNC, and it need to activate notice RNC or deexcitation DTX/DRX.

Step S606, RNC judges whether to need to activate or deexcitation DTX/DRX.

RNC receives after the notification message of NodeB1, carries out decision-making, if judgement keeps DTX/DRX, configuration is constant, proceeds to step S612 and processes; If judgement needs to activate or deexcitation DTX/DRX, perform step S608 and process.

Step S608, RNC indication NodeB activates or deexcitation DTX/DRX.

RNC is to NodeB1 or/and NodeB2 sends wireless link reallocation message, and NodeB1 is or/and NodeB2 configures its corresponding link activation or deexcitation DTX/DRX in indication.

Step S610, RNC indication UE activates or deexcitation DTX/DRX.

RNC sends reallocation message to the common UE of NodeB1 and NodeB2, and indication UE is configured, and activates or deexcitation DTX/DRX.

Step S612, finishes.

Embodiment six

Fig. 7 is the flowchart 2 of the Activiation method of DTX/DRX according to the preferred embodiment of the invention.The invention process example assumes initial configuration is the HSDPA multithread configuration across NodeB1, NodeB2, and allocation activation DTX.As shown in Figure 7, the method comprises the following steps:

Step S702, NodeB1 judgement deexcitation DTX.

Suppose NodeB1 ascending pilot frequency variation, judgement deexcitation DTX.

Step S704, NodeB1 sends radio link parameter update message to RNC.

NodeB1 sends radio link parameter update message to RNC, and this radio link parameter update message is carried deexcitation DTX indication.

Step S706, RNC judgement deexcitation DTX.

RNC receives after the radio link parameter update message of NodeB1, judgement deexcitation DTX.

Step S708, RNC sends wireless link reallocation message.

RNC sends wireless link reallocation message to Nodeb1 and Nodeb2, configures its corresponding link deexcitation DTX.

Step S710, Nodeb1, Nodeb2 send wireless link reconfigured response message to RNC.

Step S712, RNC indication UE deexcitation DTX.

RNC by radio bearer reallocation message or transmission channel reallocation message after physical channel reallocation message indication UE carry out reprovision, deexcitation DTX.

Embodiment seven

Fig. 8 is according to the flow chart 3 of the Activiation method of the DTX/DRX of the embodiment of the present invention.The present embodiment hypothesis initial configuration is the HSDPA multithread configuration across NodeB1, NodeB2, and allocation activation DTX.As shown in Figure 8, this flow process comprises the following steps:

Step S802, NodeB1 judgement deexcitation DTX.

During Nodeb1 ascending pilot frequency variation, judgement deexcitation DTX.Certainly, the application scenarios of the present embodiment is not limited to the scene of ascending pilot frequency variation.

Step S804, NodeB1 sends radio link parameter update message to RNC.

NodeB1 sends radio link parameter update message to RNC, comprises deexcitation DTX timer.

Step S806, RNC judgement deexcitation DTX.

RNC receives after the radio link parameter update message of NodeB1, judgement deexcitation DTX.

Step S808, RNC sends wireless link reallocation message to NodeB2.

RNC sends wireless link reallocation message to NodeB2, and indication NodeB2 configures its corresponding link deexcitation DTX, and the deexcitation DTX timer that configuration take-effective feeds back by NodeB1 constantly calculates, and makes NodeB1, NodeB2 at synchronization deexcitation DTX.

Step S810, RNC receives the wireless link reconfigured response message of NodeB2.

Step S812, RNC indication UE deexcitation DTX.

RNC carries out reprovision, deexcitation DTX by radio bearer reallocation message or transmission channel reallocation message or physical channel reallocation message indication UE.The deexcitation DTX timer that configuration take-effective feeds back by NodeB1 constantly calculates, and makes NodeB1, NodeB2, UE at synchronization deexcitation DTX.

From above description, can find out, the present invention has realized following technique effect: while adopting the HSDPA multithread technology of shunting between NodeB, when a NodeB judgement needs activation or deexcitation DTX/DRX function, can work in coordination with in time another one NodeB also activates or deexcitation DTX/DRX function simultaneously, UE is successfully activated or deexcitation, and then improve user's impression and reduce cutting off rate.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in storage device and be carried out by calculation element, and in some cases, can carry out shown or described step with the order being different from herein, or they are made into respectively to each integrated circuit modules, or a plurality of modules in them or step are made into single integrated circuit module to be realized.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (15)

1. discontinuous transmission/discontinuous reception DTX/DRX Activiation method, is characterized in that, comprising:

Radio network controller (RNC) receives the needs activation of base station NodeB transmission or the notice of deexcitation DTX/DRX;

Described RNC indicates described NodeB according to described notice and/or need to activate or deexcitation DTX/DRX with other NodeB of described NodeB shunting.

2. method according to claim 1, is characterized in that, radio network controller (RNC) receives the needs activation of NodeB transmission or the notice of deexcitation DTX/DRX comprises:

Described RNC receives the radio link parameter update message that described NodeB sends, and wherein, described radio link parameter update message is used for notifying described RNC to activate or deexcitation DTX/DRX.

3. method according to claim 1 and 2, is characterized in that, described RNC indicates described NodeB according to described notice and/or need to activate with other NodeB of described NodeB shunting or deexcitation DTX/DRX comprises:

Described RNC judges whether to need to activate or deexcitation DTX/DRX according to described notice;

In the situation that determining needs activation or deexcitation DTX/DRX, to described NodeB and/or with other NodeB of described NodeB shunting, send wireless link reallocation message, wherein, described wireless link reallocation message is used to indicate described NodeB and/or configures corresponding link with other NodeB of described NodeB shunting, activates or deexcitation DTX/DRX.

4. method according to claim 3, is characterized in that, after sending wireless link reallocation message to described NodeB and/or with other NodeB of described NodeB shunting, described method also comprises:

Described RNC receives described NodeB and/or responds the wireless link reconfigured response message of described wireless link reallocation message with other NodeB of described NodeB shunting;

Described RNC sends reallocation message according to described wireless link reconfigured response message to described NodeB and/or with the common UE of other NodeB of described NodeB shunting, indicates described UE to activate or deexcitation DTX/DRX.

5. method according to claim 4, is characterized in that, described reallocation message is radio bearer reallocation message or transmission channel reallocation message or physical channel reallocation message.

6. discontinuous transmission/discontinuous reception DTX/DRX Activiation method, is characterized in that, comprising:

NodeB sends the notice that needs activation or deexcitation DTX/DRX to radio network controller (RNC);

Described NodeB and/or receive with other NodeB of described NodeB shunting that described RNC responds the indication of described notice and according to described indication activation or deexcitation DTX/DRX.

7. method according to claim 6, is characterized in that, NodeB sends and needs the notice of activation or deexcitation DTX/DRX to comprise to radio network controller (RNC):

NodeB determines to be needed to activate or deexcitation DTX/DRX, to RNC described in RNC transmission radio link parameter update message informing, need to activate or deexcitation DTX/DRX.

8. method according to claim 7, is characterized in that, described NodeB and/or receive described RNC with other NodeB of described NodeB shunting and respond the indication of described notice and comprise according to described indication activation or deexcitation DTX/DRX:

Described NodeB and/or receive that described RNC responds described radio link parameter update message and the wireless link reallocation message that sends with other NodeB of described NodeB shunting;

Described NodeB and/or other NodeB that shunt with described NodeB configure its corresponding link according to described wireless link reallocation message, activate or deexcitation DTX/DRX.

9. discontinuous transmission/discontinuous reception DTX/DRX active device, is characterized in that, comprising:

Receiver module, for receiving, the needs of base station NodeB transmission activate or the notice of deexcitation DTX/DRX;

Indicating module, for indicating described NodeB and/or need to activating or deexcitation DTX/DRX with other NodeB of described NodeB shunting according to described notice.

10. device according to claim 9, it is characterized in that, the radio link parameter update message that described receiver module sends for receiving described NodeB, wherein, described radio link parameter update message is used for notifying described RNC to activate or deexcitation DTX/DRX.

11. according to the device described in claim 9 or 10, it is characterized in that, described indicating module needs to activate or deexcitation DTX/DRX for judging whether according to described notice, in the situation that determining needs activation or deexcitation DTX/DRX, to described NodeB and/or with other NodeB of described NodeB shunting, send wireless link reallocation message, wherein, described wireless link reallocation message is used to indicate described NodeB and/or configures corresponding link with other NodeB of described NodeB shunting, activates or deexcitation DTX/DRX.

12. devices according to claim 11, it is characterized in that, at described receiver module, receive described NodeB and/or respond after the wireless link reconfigured response message of described wireless link reallocation message with other NodeB of described NodeB shunting, described indicating module sends reallocation message according to described wireless link reconfigured response message to described NodeB and/or with the common UE of other NodeB of described NodeB shunting, indicates described UE to activate or deexcitation DTX/DRX.

13. 1 kinds of discontinuous transmission/discontinuous reception DTX/DRX active devices, is characterized in that, comprising:

Transceiver module, for sending the notice that needs activation or deexcitation DTX/DRX to radio network controller (RNC);

Active module, for after the indication receiving described RNC and respond described notice according to described indication activation or deexcitation DTX/DRX.

14. devices according to claim 13, it is characterized in that, described transceiver module, for determining in the situation that needs activation or deexcitation DTX/DRX, need to activate or deexcitation DTX/DRX to RNC described in RNC transmission radio link parameter update message informing.

15. devices according to claim 14, it is characterized in that, described transceiver module is for receiving that described RNC responds described radio link parameter update message after the wireless link reallocation message that sends, according to described wireless link reallocation message, configure its corresponding link, activate or deexcitation DTX/DRX.

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