CN101562854B - Method for reselecting serving gateway of user equipment as well as equipment and system thereof - Google Patents

Abstract

The invention discloses a method for reselecting a serving gateway of user equipment. The method comprises the following steps: a first serving gateway providing load service for the user equipment (UE) sends a relocation indication to network equipment connected with the same after receiving an unloading command; the network equipment connected with the first serving gateway sends a paging command to the ISR-activated UE in idle state after receiving the relocation command; the network equipment deactivates the ISR of the UE after receiving the paging response command of the UE; and the network equipment takes a second serving gateway as the serving gateway of the UE for substituting the first serving gateway to provide load service after deactivating the ISR of the UE. The invention further discloses a system for reselecting the serving gateway of the user equipment, network equipment for reselecting the serving gateway of the user equipment, SGSN and MME. The method, the system and the equipment can help reselecting serving GW of the UE which is in idle state and with activated ISR.

Description

Gateway reselecting method, equipment and the system of subscriber equipment

Technical field

The present invention relates to communication technical field, relate in particular to gateway reselecting method, equipment and the system of subscriber equipment.

Background technology

In SAE (System Architecture Evolution, the 3G system of evolution), there is number of mechanisms to realize overload control, comprise overload control to each network node.In the 3G of evolution system, also propose in order to reduce UE (User Equipment simultaneously, subscriber equipment) at UTRAN/GERAN (UMTSTerrestrial Radio Access Network/GSM EDGE Radio Access Network, UMTS Terrestrial radio access network/GSM EDGE wireless access network, wherein UMTS is Universal MobileTelecommunication System, universal mobile telecommunications system) network and E-UTRAN (EvolvedUMTS Terrestrial Radio Access Network, the UMTS Terrestrial radio access network of evolution) relatively-stationary RA (Routing Area between the network, the route district) and TA (Tracking Area, tracking area) frequently moves and a large amount of TAU/RAU (Tracking Area Update/Routing AreaUpdate that introduce between, tracing section updating/Routing Area Update) method of signaling, be called ISR (Idle state SignallingReduction, idle state signaling reduction).

Fig. 1 inserts the system architecture schematic diagram of UTRAN and E-UTRAN for UE, as shown in the figure, a MME (Mobility Management Entity, Mobility Management Entity) can be connected to a plurality of Serving GW (Serving Gate Way, gateway), provide service for different users; A SGSN (wherein GPRS refers to GeneralPacket Radio Service, GPRS for Serving GPRS Support Node, serving GPRS support node) can be connected to a plurality of Serving GW, for different user provides service; A Serving GW also can connect a plurality of MME/SGSN simultaneously.Be connected with the S3 interface between MME and the SGSN, UE is provided the control of the mobile management when mobile between two systems.

Under the situation that ISR activates, UE is between UTRAN and E-UTRAN when mobile, though crossed over the border of RA/TA, but because UE preserves the positional information of these two systems and the temporary number of distribution, for providing the MME of service and SGSN, this UE all is registered to Serving GW and HSS (HomeSubscriber Server simultaneously, home signature user server), therefore do not need to carry out the TAU/RAU signaling procedure.MME and SGSN preserve the other side's address, be used for the operation that when ISR activates, is associated, shut down in E-UTRAN as UE and to carry out Detach (attachment removal) process, MME also need notify the SGSN that is associated to carry out the Detach process according to the SGSN address of preserving.

Under some scenes, as all load transfers on the Serving GW that will serve at present to other Serving GW the time according to the tactful needs of operator, can relate to some UE that this Serving GW served and activate ISR, but the deficiencies in the prior art are: the idle condition UE gravity treatment Serving GW that activates for this ISR does not also have disclosed solution at present.

Summary of the invention

The invention provides a kind of gateway reselecting method, equipment and system of subscriber equipment, reselect service Serving GW in order to the UE that is embodied as idle condition and activation ISR.

The invention provides a kind of gateway reselecting method of subscriber equipment, this method comprises:

After receiving the load unloading command, provide first gateway of load service to send the reorientation indication for user equipment (UE) to the connected network equipment;

After receiving described reorientation indication, the network equipment that is connected with first gateway sends paging command to the UE that is in idle condition and has activated ISR;

After the page response order that receives described UE, the ISR of described network equipment deexcitation UE;

Behind the ISR of deexcitation UE, the described network equipment will be used to replace first gateway that the gateway of second gateway of load service as described UE is provided.

The embodiment of the invention also provides a kind of gateway gravity treatment system of subscriber equipment, and this system comprises:

Receiver module is used for after receiving the load unloading command, triggers to UE provides first gateway of load service and sends the reorientation indication to the connected network equipment;

The paging module links to each other with the network equipment that is connected with first gateway, is used for after receiving the reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module links to each other with the network equipment that is connected with first gateway, is used for after the page response order that receives described UE the ISR of deexcitation UE;

The gravity treatment module links to each other with the network equipment that is connected with first gateway, is used for behind the ISR of deexcitation UE, will be used to replace first gateway that the gateway of second gateway of load service as described UE is provided.

The embodiment of the invention also provides the network equipment of a kind of subscriber equipment gateway gravity treatment, and this network equipment comprises:

The paging module is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module is used for after the page response order that receives described UE the ISR of deexcitation UE;

The gravity treatment module is used for behind the ISR of deexcitation UE, will replace former gateway that the gateway of the gateway of load service as UE is provided.

The embodiment of the invention also provides a kind of SGSN, comprising:

The paging module is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module is used for after the page response order that receives described UE the ISR of deexcitation UE;

Also comprise: attachment removal unit or Routing Area Update unit, wherein:

The attachment removal unit is used for behind the ISR of deexcitation UE, initiates the Detach process, when UE is attached to network again, will replace former gateway that the gateway of the gateway of load service as described UE is provided;

The Routing Area Update unit is used for behind the ISR of deexcitation UE, when carrying out the RAU process by NAS message trigger UE, will replace former gateway that the gateway of the gateway of load service as described UE is provided.

The embodiment of the invention also provides a kind of MME, comprising:

The paging module is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module is used for after the page response order that receives described UE the ISR of deexcitation UE;

Gateway gravity treatment unit is used for behind the ISR of deexcitation UE, when calling the gateway reuse adoption process that is triggered by Service Request, will replace former gateway that the gateway of the gateway of load service as described UE is provided.

In the embodiment of the invention, after receiving the load unloading command, provide first gateway of load service to send the reorientation indication for UE to the connected network equipment; After receiving described reorientation indication, the network equipment that is connected with first gateway sends paging command to the UE that is in idle condition and has activated ISR; After the page response order that receives described UE, the ISR of described network equipment deexcitation UE; Behind the ISR of deexcitation UE, the described network equipment will be used to replace first gateway that the gateway of second gateway of load service as described UE is provided, and the UE that can be implemented as idle condition and activation ISR reselects service Serving GW.

Description of drawings

Fig. 1 is the system architecture schematic diagram that UE inserts E-UTRAN in the background technology;

Fig. 2 is the gateway reselecting method implementing procedure schematic diagram of subscriber equipment in the embodiment of the invention;

Fig. 3 is that Serving GW gravity treatment triggers the implementing procedure schematic diagram in the embodiment of the invention;

Fig. 4 implements schematic diagram to the Idle state UE gravity treatment Serving GW signaling process that activates ISR in the embodiment of the invention;

Fig. 5 is the mode one implementing procedure schematic diagram of the Serving GW reuse adoption process that SGSN carries out in the embodiment of the invention;

Fig. 6 is the mode two implementing procedure schematic diagrames of the Serving GW reuse adoption process that SGSN carries out in the embodiment of the invention;

Fig. 7 is the gateway gravity treatment system configuration schematic diagram of subscriber equipment in the embodiment of the invention;

Fig. 8 is the network equipment structural representation of subscriber equipment gateway gravity treatment in the embodiment of the invention;

Fig. 9 is a SGSN structural representation in the embodiment of the invention;

Figure 10 is a MME structural representation in the embodiment of the invention.

Embodiment

Below in conjunction with Figure of description the embodiment of the invention is elaborated.

In the embodiment of the invention, demand when operator from operation maintenance, need from the Serving GW of existing service, delete whole loads of a Serving GW, or the load on this Serving GW is need reduce the time, in order to guarantee the continuity of customer service, need all or part of carrying of this Serving GW is transferred among other Serving GW.

If this Serving GW that load is transferred is deployed in UTRAN and E-UTRAN boundary, then some UE among the UE that might be served is that ISR activates, for the UE that is in idle condition, the embodiment of the invention provides a kind of scheme of business continuance that as far as possible can guarantee simply, again to solve required Serving GW gravity treatment problem this moment.

As shown in Figure 2, among the embodiment, the handling process of the gateway of gravity treatment subscriber equipment is as follows:

Step 21, after receiving the load unloading command, provide a ServingGW of load service to send the reorientation indication to the connected network equipment for UE.

In the enforcement, the load unloading command can be by O﹠amp; M (Operations ﹠amp; Maintenance, operation and safeguard) system sends to gateway.

Step 22, after receiving described reorientation indication, the network equipment that is connected with a Serving GW sends paging command to the UE that is in idle condition and has activated ISR.

Step 23, after the page response order that receives described UE, the ISR of described network equipment deexcitation UE.

Behind the ISR of step 24, deexcitation UE, the described network equipment will be used to replace a Serving GW that the 2nd Serving GW of load service is provided the Serving GW as described UE.

In the flow process shown in Figure 2, step 21 is beginnings that Serving GW gravity treatment triggers, and works as O﹠amp; When the M system need change load between the service state of Serving GW or the different Serving GW of balance, O﹠amp; M is to Serving GW transmitting control commands, and the unloading command of promptly loading is in order to change loading condition.For ease of describing, the Serving GW of the load that title need change in the embodiment of the invention is a ServingGW, this moment, the one Serving GW needed to all MME and the indication of the reorientation in the SGSN forwarding step 22 that it connected, and requiring MME and SGSN is that the UE that is connected to this Serving GW reselects Serving GW.

An instantiation as shown in Figure 3, Serving GW gravity treatment triggers implementing procedure following (wherein, Old Serving GW is a Serving GW, and New Serving GW is the 2nd Serving GW):

Step 31, O﹠amp; M sends the load unloading command to Old Serving GW.

It unloads load on it this command request, can specifically carry indication in the order and show that requirement unloads whole loads or fractional load.

Step 32, Old Serving GW send the reorientation indication to all MME and the SGSN of its connection.

The load that the reorientation indication requires MME and SGSN will be connected to Old Serving GW reduces.

Step 33, SGSN, MME select New Serving GW as new service node, and carry out Serving GW gravity treatment.

In this step, MME or SGSN are that the UE that is connected to Old Serving GW reselects NewServing GW as the user plane gateways service node, and carry out the reuse adoption process of Serving GW.

After flow process shown in Figure 3, just finished and be identified for replacing a Serving GW that the process of the 2nd Serving GW of load service is provided, simultaneously, the one Serving GW has also sent the reorientation indication, the follow-up processing procedure that just can be implemented as the Idle state UE gravity treatment Serving GW of ISR activation.Because being mainly, the embodiment of the invention solves the alternate treatment that how to realize on interface and the signaling process between the gateway, and as for some scenes that may occur, when for example existing a plurality of UE of can be that the ServingGW of load service is provided, how therefrom choosing aforementioned replacement the one Serving GW provides the 2nd ServingGW of load service, can be by a Serving GW according to the pre-configured strategy of operator, perhaps the algorithm that presets in program according to producer is realized, one of ordinary skill in the art will appreciate that and implement, do not repeat them here.

UE for the ISR activation, when it is in idle condition following time, network can't know that it is specifically under the coverage of UTRAN or under the coverage of E-UTRAN, therefore the network equipment that is connected with a Serving GW need scan the UE that is in idle condition, carry out paging for the UE that has wherein activated ISR, require UE to transfer to the definite position at state of activation and clear and definite its place.Concrete:

If a UE who is in idle condition and has activated ISR is at UTRAN, then the network equipment that is connected with a ServingGW is SGSN; The network equipment with the gateway of the 2nd Serving GW as described UE can be: SGSN initiates Detach (attachment removal) process, when UE is attached to network again, with the gateway of the 2nd Serving GW as described UE.

Further, SGSN sends deexcitation ISR indication to the associated MME of the ISR of deexcitation UE, is used to trigger the ISR of MME deexcitation UE, and this indication can send as a message separately, also can send by carrying the back in other S3 interface message.

After MME receives deexcitation ISR indication,, upgrade or deletion UE context according to the ISR of indication deexcitation UE.

In the enforcement, under the coverage of UE at UTRAN, then the network equipment SGSN that is connected with a Serving GW can receive the Paging Response (page response) of UE.SGSN after receiving Pagingresponse, the ISR of deexcitation UE, and send message informing MME.SGSN can have multiple mode to handle afterwards, for example:

(1) initiation Detach crosses range request UE and is attached to network again, and SGSN will be that UE selects Serving GW again;

Or (2) SGSN sends out a NAS (Non-Access Stratum, Non-Access Stratum) message and gives UE, requires UE to carry out the RAU process, and SGSN is that UE selects a Serving GW in addition.

(1) advantage of planting mode is not need to introduce new NAS message; (2) kind mode then can guarantee professional continuity.

If two UE that are in idle condition and activated ISR are at E-UTRAN, then the network equipment that is connected with a ServingGW is MME; The network equipment with the gateway of the 2nd Serving GW as described UE can be: MME is when calling the gateway reuse adoption process that is triggered by Service Request (service request), with the gateway of the 2nd Serving GW as described UE.

Further, MME sends deexcitation ISR indication to the associated SGSN of the ISR of deexcitation UE, is used to trigger the ISR of described SGSN deexcitation UE, and this indication can send as a message separately, also can carry transmission by other S3 interface message.

After SGSN receives deexcitation ISR indication,, upgrade or deletion UE context according to the ISR of indication deexcitation UE.

In the enforcement, if UE under the coverage of E-UTRAN, then MME can receive the Paging response of UE.MME after receiving Paging Response, the ISR of deexcitation UE, and send message informing SGSN.MME can call the Serving GW reuse adoption process that is triggered by Service Request afterwards, simultaneously the business of this UE is transferred on another Serving GW.

An instantiation as shown in Figure 4, following (wherein, Old Serving GW is a Serving GW, and New Serving GW is the 2nd Serving GW to the Idle state UE gravity treatment Serving GW signaling process that activates ISR, simultaneously, when implementing to describe, MME and SGSN are carried out simultaneously):

Step 41, send O﹠amp to Old Serving GW; The M order.

When there is demand in operator, can pass through O﹠amp; M order as the load unloading command, sends to OldServing GW, requires it to unload load on it, can carry indication in the order, requires unloading all load or sub-load.

Step 42, Old Serving GW send the reorientation indication to all MME and the SGSN of its connection, and the load that requires MME and SGSN will be connected to Serving GW reduces.

Step 43, MME or SGSN send beep-page message to eNodeB or UTRAN.

MME or SGSN send beep-page message for being in idle condition and having activated the UE of ISR in eNodeB or UTRAN.

Step 44, eNodeB or UTRAN send beep-page message to UE.

Step 45, MME or SGSN receive the page response of UE.

Step 46, after MME or SGSN receive the page response of UE, at the ISR of this intranodal deexcitation UE.

Step 47-48, MME send deexcitation ISR indication to SGSN or SGSN to MME, return deexcitation ISR behind the deexcitation ISR and confirm.

In this process, MME or SGSN send deexcitation ISR indication to ISR associated the other side SGSN or MME, and this indication can also can be included in other S3 interface message separately as a message.

And after SGSN or MME received the deexcitation ISR indication that the other side's node sends, the ISR of the relevant UE of deexcitation upgraded or deletion UE context.

The MME of step 49, page response or SGSN carry out Serving GW reuse adoption process.

Concrete, in the step 49, can comprise:

1), MME carries out the Serving GW reuse adoption process by Service Request message trigger.

, can carry out the reuse adoption process of Serving GW when thereby the UE of inactive I SR enters state of activation when triggering the transmission of Service Request message from idle condition.When Service Request message sent to MME, MME can provide former promising UE the Serving GW gravity treatment of service to be another Serving GW under the situation of known Serving GW overload.

2), the mode one of the Serving GW reuse adoption process of SGSN execution.

3), the mode two of the Serving GW reuse adoption process of SGSN execution.

As shown in Figure 5, mode one implementing procedure of the Serving GW reuse adoption process of SGSN execution is as follows:

Step 51, SGSN send Detach message to UE.

When SGSN receive activated ISR and needed the page response of UE of gravity treatment Serving GW after, send Detach message to UE, the type that wherein comprises is designated as: adhere to again.

Step 52, UE initiate the execution of Attach process, and SGSN provides the Serving GW of service for UE reselects.

As shown in Figure 6, mode two implementing procedures of the Serving GW reuse adoption process of SGSN execution are as follows:

Step 61, SGSN send the Re-RAU indication to UE.

When SGSN receive activated ISR and needed the page response of UE of gravity treatment Serving GW after, send a NAS message to UE, its content re-executes the RAU process for requiring UE.

Step 62, UE initiate the execution of RAU process, and SGSN provides the Serving GW of service for UE reselects.

In concrete the enforcement, can adopt the SGSN of Release 8 versions that the Serving GW of service is provided for UE reselects.Reselect that the Serving of service GW is provided is easily for understood by one of ordinary skill in the art and be embodied as UE for the SGSN that how to adopt Release 8 versions.

Based on same inventive concept, the embodiment of the invention also provides the gateway gravity treatment system of subscriber equipment and reselecting network equipment, MME, the SGSN of subscriber equipment gateway, below in conjunction with Figure of description its execution mode is described.

Fig. 7 is the gateway gravity treatment system configuration schematic diagram of subscriber equipment, and as shown in the figure, this system can comprise:

Receiver module 71 is used for after receiving the load unloading command, triggers to UE provides first gateway of load service and sends the reorientation indication to the connected network equipment;

Paging module 72 and the network equipment that is connected with first gateway link to each other, and are used for after receiving the reorientation indication, send paging command to the UE that is in idle condition and has activated ISR;

Deexcitation module 73 links to each other with the network equipment that is connected with first gateway, is used for after the page response order that receives described UE the ISR of deexcitation UE;

Gravity treatment module 74 links to each other with the network equipment that is connected with first gateway, is used for behind the ISR of deexcitation UE, will be used to replace first gateway that the gateway of second gateway of load service as described UE is provided.

Among the embodiment, in the gravity treatment system, can also comprise: sending module 75, with O﹠amp; The M system links to each other, and is used for sending the load unloading command to gateway.

Concrete, can also be:

1, in the gravity treatment system, when the network equipment that is connected with first gateway is SGSN, the described UE that is in idle condition and has activated ISR is when UTRAN, and the gravity treatment module can comprise: attachment removal unit or Routing Area Update unit, wherein:

The attachment removal unit is used to initiate the Detach process, when UE is attached to network again, with the gateway of second gateway as described UE;

The Routing Area Update unit is when being used for by NAS message trigger UE execution RAU process, with the gateway of second gateway as described UE.

Among the embodiment, the gravity treatment module can also comprise:

The first deexcitation indicating member is used for sending deexcitation ISR indication to the associated MME of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described MME deexcitation UE.

Then, in MME, can comprise: the first deexcitation ISR unit, be used to receive deexcitation ISR indication after, according to the ISR of indication deexcitation UE, upgrade or deletion UE context.

2, in the gravity treatment system, when the network equipment that is connected with first gateway is MME, the described UE that is in idle condition and has activated ISR is when E-UTRAN, and the gravity treatment module can comprise:

Gateway gravity treatment unit is used for when calling the gateway reuse adoption process that is triggered by Service Request, with the gateway of second gateway as described UE.

Among the embodiment, the gravity treatment module can also comprise:

The second deexcitation indicating member is used for sending deexcitation ISR indication to the associated SGSN of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described SGSN deexcitation UE.

Then, in SGSN, can comprise: the second deexcitation ISR unit, be used to receive deexcitation ISR indication after, according to the ISR of indication deexcitation UE, upgrade or deletion UE context.

Fig. 8 is the network equipment structural representation of subscriber equipment gateway gravity treatment, and as shown in the figure, this equipment can comprise:

Paging module 72 is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

Deexcitation module 73 is used for after the page response order that receives described UE the ISR of deexcitation UE;

Gravity treatment module 74 is used for behind the ISR of deexcitation UE, will replace former gateway that the gateway of the gateway of load service as UE is provided.

Fig. 9 is the SGSN structural representation, and as shown in the figure, this SGSN can comprise:

Paging module 72 is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

Deexcitation module 73 is used for after the page response order that receives described UE the ISR of deexcitation UE;

Among the embodiment, can also comprise:

Attachment removal unit 741 or Routing Area Update unit 742, wherein:

Attachment removal unit 741 is used for behind the ISR of deexcitation UE, initiates the Detach process, when UE is attached to network again, will replace former gateway that the gateway of the gateway of load service as described UE is provided;

Routing Area Update unit 742 is used for behind the ISR of deexcitation UE, when carrying out the RAU process by NAS message trigger UE, will replace former gateway that the gateway of the gateway of load service as described UE is provided.

Among the embodiment, can also comprise among the SGSN:

The first deexcitation indicating member 743 is used for sending deexcitation ISR indication to the associated MME of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described MME deexcitation UE.

Among the embodiment, can also comprise among the SGSN:

After the second deexcitation ISR unit 744 is used to receive deexcitation ISR indication,, upgrade or deletion UE context according to the ISR of indication deexcitation UE.

Figure 10 is the MME structural representation, and as shown in the figure, this MME can comprise:

Paging module 72 is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

Deexcitation module 73 is used for after the page response order that receives described UE the ISR of deexcitation UE;

Gateway gravity treatment unit 745 is used for behind the ISR of deexcitation UE, when calling the gateway reuse adoption process that is triggered by Service Request, will replace former gateway that the gateway of the gateway of load service as described UE is provided.

Among the embodiment, can also comprise among the MME:

The second deexcitation indicating member 746 is used for sending deexcitation ISR indication to the associated SGSN of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described SGSN deexcitation UE.

Among the embodiment, can also comprise among the MME:

After the first deexcitation ISR unit 747 is used to receive deexcitation ISR indication,, upgrade or deletion UE context according to the ISR of indication deexcitation UE.

In the embodiment of the invention, work as O﹠amp; M system or other network entity to Serving GW send order request its when redistributing load, comprise unloading all load and unloading sub-load in the order.ServingGW as MME and SGSN, sends order to all network equipments that is connected, and requires MME and SGSN gravity treatment Serving GW, and shifts the load of UE as far as possible.Then, for the UE of idle condition and activation ISR, MME and SGSN carry out paging to UE respectively, and handle respectively according to the page response situation.

As seen, when operator wishes to unload the load of Serving GW because of the Operation and Maintenance demand, O﹠amp; The M system sends the order indication to Old Serving GW, and it carries out uninstall process.Portability indication in this order, indicating Old Serving GW is unloading sub-load or whole load, does not get rid of the requirement of other load balancing simultaneously.

Can send order to all MME/SGSN that are connected by Serving GW, requiring MME is that the UE that former cause Old Serving GW serves reselects service node, to shift the load of Old ServingGW.

Then, 1, for idle condition and activate the UE of ISR, MME is paging UE in the tracking area of UE registration; When UE behind MME response beep-page message, MME is with the ISR deexcitation of UE; MME can also send message informing SGSN simultaneously, and the ISR of this UE is by deexcitation, and SGSN acknowledges receipt of the indication of ISR deexcitation to MME; Last MME initiates the ServingGW reuse adoption process by the service request triggering.

2, for the UE of idle condition and activation ISR, SGSN is paging UE in the route district of UE registration; When UE behind SGSN response beep-page message, SGSN is with the ISR deexcitation of UE; SGSN can send message informing MME, and the ISR of this UE is by deexcitation; MME acknowledges receipt of the indication of ISR deexcitation to SGSN.

1), SGSN sends Detach message to UE concrete, initiate reselecting method and can be:, wherein to nullify type be " adhering to " again in indication, and UE receives that initiating the execution of Attach process after the Detach message adheres to.

2), SGSN sends a new NAS message to UE, indication UE execution RAU process.

As seen, the embodiment of the invention proposes a kind of solution at unresolved problem in the existing standard, and the UE that can be implemented as idle condition and activation ISR reselects service Serving GW.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims (24)

1. the gateway reselecting method of a subscriber equipment is characterized in that, this method comprises:

After receiving the load unloading command, provide first gateway of load service to send the reorientation indication for user equipment (UE) to the connected network equipment;

After receive described reorientation indication, the network equipment that is connected with first gateway is to being in idle condition and having activated the UE that idle state signaling reduces ISR and sent paging command;

After the page response order that receives described UE, the ISR of described network equipment deexcitation UE;

Behind the ISR of deexcitation UE, the described network equipment will be used to replace first gateway that the gateway of second gateway of load service as described UE is provided.

2. the method for claim 1 is characterized in that, the described network equipment that is connected with first gateway is serving GPRS support node SGSN, and the described UE that is in idle condition and has activated ISR is at UMTS Terrestrial radio access network UTRAN;

The described network equipment is specially the gateway of second gateway as described UE:

Described SGSN initiates attachment removal Detach process, when UE is attached to network again, with the gateway of second gateway as described UE;

Or,

When described SGSN triggers UE execution routing area updating RAU process by non access stratum NAS message, with the gateway of second gateway as described UE.

3. method as claimed in claim 2 is characterized in that, further comprises the steps:

SGSN sends deexcitation ISR indication to the associated Mobility Management Entity MME of the ISR of described deexcitation UE, is used to trigger the ISR of described MME deexcitation UE.

4. method as claimed in claim 3 is characterized in that, further comprises the steps:

After MME receives deexcitation ISR indication,, upgrade or deletion UE context according to the ISR of indication deexcitation UE.

5. the method for claim 1 is characterized in that, the described network equipment that is connected with first gateway is MME, describedly is in idle condition and has activated the UMTS Terrestrial radio access network E-UTRAN of the UE of ISR in evolution;

The described network equipment is specially the gateway of second gateway as described UE:

MME is when calling the gateway reuse adoption process that is triggered by service request Service Request, with the gateway of second gateway as described UE.

6. method as claimed in claim 5 is characterized in that, further comprises the steps:

MME sends deexcitation ISR indication to the associated SGSN of the ISR of described deexcitation UE, is used to trigger the ISR of described SGSN deexcitation UE.

7. method as claimed in claim 6 is characterized in that, further comprises the steps:

After SGSN receives deexcitation ISR indication,, upgrade or deletion UE context according to the ISR of indication deexcitation UE.

8. as claim 4 or 7 described methods, it is characterized in that described deexcitation ISR indication is carried by the S3 interface message, wherein, described S3 interface is the interface between MME and the SGSN.

9. as the described arbitrary method of claim 1 to 7, it is characterized in that described load unloading command is by operation and safeguard O﹠amp; The M system sends to gateway.

10. the gateway gravity treatment system of a subscriber equipment is characterized in that this system comprises:

Receiver module is used for after receiving the load unloading command, triggers to UE provides first gateway of load service and sends the reorientation indication to the connected network equipment;

The paging module links to each other with the network equipment that is connected with first gateway, is used for after receiving the reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module links to each other with the network equipment that is connected with first gateway, is used for after the page response order that receives described UE the ISR of deexcitation UE;

The gravity treatment module links to each other with the network equipment that is connected with first gateway, is used for behind the ISR of deexcitation UE, will be used to replace first gateway that the gateway of second gateway of load service as described UE is provided.

11. system as claimed in claim 10 is characterized in that, the described network equipment that is connected with first gateway is SGSN, and the described UE that is in idle condition and has activated ISR is at UTRAN;

Described gravity treatment module comprises: attachment removal unit or Routing Area Update unit, wherein:

The attachment removal unit is used to initiate the Detach process, when UE is attached to network again, with the gateway of second gateway as described UE;

The Routing Area Update unit is when being used for by NAS message trigger UE execution RAU process, with the gateway of second gateway as described UE.

12. system as claimed in claim 11 is characterized in that, described gravity treatment module further comprises:

The first deexcitation indicating member is used for sending deexcitation ISR indication to the associated MME of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described MME deexcitation UE.

13. system as claimed in claim 12 is characterized in that, described MME further comprises: the first deexcitation ISR unit, be used to receive deexcitation ISR indication after, according to the ISR of indication deexcitation UE, upgrade or deletion UE context.

14. system as claimed in claim 10 is characterized in that, the described network equipment that is connected with first gateway is MME, and the described UE that is in idle condition and has activated ISR is at E-UTRAN;

Described gravity treatment module comprises:

Gateway gravity treatment unit is used for when calling the gateway reuse adoption process that is triggered by Service Request, with the gateway of second gateway as described UE.

15. system as claimed in claim 14 is characterized in that, described gravity treatment module further comprises:

The second deexcitation indicating member is used for sending deexcitation ISR indication to the associated SGSN of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described SGSN deexcitation UE.

16. system as claimed in claim 15 is characterized in that, described SGSN further comprises: the second deexcitation ISR unit, be used to receive deexcitation ISR indication after, according to the ISR of indication deexcitation UE, upgrade or deletion UE context.

17. as the described arbitrary system of claim 10 to 16, it is characterized in that, further comprise: sending module, with O﹠amp; The M system links to each other, and is used for sending the load unloading command to gateway.

18. the network equipment of subscriber equipment gateway gravity treatment is characterized in that, this network equipment comprises:

The paging module is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module is used for after the page response order that receives described UE the ISR of deexcitation UE;

The gravity treatment module is used for behind the ISR of deexcitation UE, will replace former gateway that the gateway of the gateway of load service as UE is provided.

19. a professional general packet radio service gprs support node SGSN is characterized in that, comprising:

The paging module is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module is used for after the page response order that receives described UE the ISR of deexcitation UE;

Also comprise: attachment removal unit or Routing Area Update unit, wherein:

The attachment removal unit is used for behind the ISR of deexcitation UE, initiates the Detach process, when UE is attached to network again, will replace former gateway that the gateway of the gateway of load service as described UE is provided;

The Routing Area Update unit is used for behind the ISR of deexcitation UE, when carrying out the RAU process by NAS message trigger UE, will replace former gateway that the gateway of the gateway of load service as described UE is provided.

20. SGSN as claimed in claim 19 is characterized in that, further comprises:

The first deexcitation indicating member is used for sending deexcitation ISR indication to the associated MME of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described MME deexcitation UE.

21. SGSN as claimed in claim 20 is characterized in that, further comprises:

The second deexcitation ISR unit, be used to receive deexcitation ISR indication after, according to the ISR of indication deexcitation UE, upgrade or deletion UE context.

22. a Mobility Management Entity MME is characterized in that, comprising:

The paging module is used for after receiving reorientation indication, sends paging command to the UE that is in idle condition and has activated ISR;

The deexcitation module is used for after the page response order that receives described UE the ISR of deexcitation UE;

Gateway gravity treatment unit is used for behind the ISR of deexcitation UE, when calling the gateway reuse adoption process that is triggered by Service Request, will replace former gateway that the gateway of the gateway of load service as described UE is provided.

23. MME as claimed in claim 22 is characterized in that, further comprises:

The second deexcitation indicating member is used for sending deexcitation ISR indication to the associated SGSN of the ISR of described deexcitation UE, and described deexcitation ISR indication is used to trigger the ISR of described SGSN deexcitation UE.

24. MME as claimed in claim 23 is characterized in that, further comprises:

The first deexcitation ISR unit, be used to receive deexcitation ISR indication after, according to the ISR of indication deexcitation UE, upgrade or deletion UE context.

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