WO2012093832A2 - 이동통신 시스템에서 혼잡 제어 방법 - Google Patents
이동통신 시스템에서 혼잡 제어 방법 Download PDFInfo
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- WO2012093832A2 WO2012093832A2 PCT/KR2012/000041 KR2012000041W WO2012093832A2 WO 2012093832 A2 WO2012093832 A2 WO 2012093832A2 KR 2012000041 W KR2012000041 W KR 2012000041W WO 2012093832 A2 WO2012093832 A2 WO 2012093832A2
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- 238000000034 method Methods 0.000 title claims abstract description 71
- 238000010295 mobile communication Methods 0.000 title claims abstract description 9
- 238000012217 deletion Methods 0.000 claims description 7
- 230000037430 deletion Effects 0.000 claims description 7
- 238000007726 management method Methods 0.000 description 28
- 230000008569 process Effects 0.000 description 18
- 230000004044 response Effects 0.000 description 10
- 238000012545 processing Methods 0.000 description 9
- 238000004891 communication Methods 0.000 description 6
- 238000010586 diagram Methods 0.000 description 6
- 230000008859 change Effects 0.000 description 4
- 238000003672 processing method Methods 0.000 description 4
- 230000007704 transition Effects 0.000 description 4
- 230000004048 modification Effects 0.000 description 3
- 238000012986 modification Methods 0.000 description 3
- 230000011664 signaling Effects 0.000 description 2
- CSRZQMIRAZTJOY-UHFFFAOYSA-N trimethylsilyl iodide Substances C[Si](C)(C)I CSRZQMIRAZTJOY-UHFFFAOYSA-N 0.000 description 2
- 230000004913 activation Effects 0.000 description 1
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- 238000012790 confirmation Methods 0.000 description 1
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- 238000013468 resource allocation Methods 0.000 description 1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0289—Congestion control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/18—Management of setup rejection or failure
Definitions
- the present invention relates to a congestion control method in a mobile communication system. More specifically, the present invention relates to a method for controlling network congestion based on an access point name (APN).
- APN access point name
- mobile communication systems have been developed to provide voice services while guaranteeing user activity.
- mobile communication systems are gradually expanding to not only voice but also data services, and now they have developed to the extent that they can provide high-speed data services.
- a shortage of resources and users demand faster services, and thus, a more advanced mobile communication system is required.
- the present invention has been made to solve the above problems, and an object thereof is to provide a method for controlling network congestion based on an access point name (APN).
- API access point name
- Congestion control method of a mobility management entity (MME) in the mobile communication system of the present invention for solving the above problems is a packet data network (Packet) for at least one access point name (APN)
- PDN Data Network
- Receiving step of receiving a mobility management request signal from a terminal having a Data Network (PDN) connection a determination step of determining whether a congestion state of the APN and a rejection step of rejecting the mobility management request when determining a congestion state Characterized in that it comprises a.
- PDN Data Network
- an IMS related flow for voice communication which is a profit stream service, may continue to be serviced, and a data communication related flow that does not generate profits may be selectively stopped.
- FIG. 1 is a flowchart illustrating a process of processing a PDN connection request of a terminal based on an APN according to the prior art.
- FIG. 2 is a diagram illustrating a problem that occurs when a method of controlling congestion based on a conventional APN is applied to a service request message or a tracking area update message, which is a mobility management control signal.
- FIG. 3 is a diagram illustrating a problem of the prior art that may occur when the APN based congestion control processing method is applied to a mobility management control signal.
- FIG 5 illustrates a congestion control method according to embodiment 1-B of the present invention.
- FIG. 6 illustrates a congestion control method according to embodiment 1-C of the present invention.
- FIG. 7 illustrates a congestion control method according to embodiment 1-D of the present invention.
- FIG 8 illustrates a congestion control method according to embodiment 2-A of the present invention.
- FIG 9 illustrates a congestion control method according to embodiment 2-B of the present invention.
- the congestion of the present invention described below may refer to a case in which a work capacity more than the capacity that can be processed per unit time is allocated to a node such as a mobility management entity, a serving gateway, a PDN gateway, and the like. It is assumed that it can be used interchangeably with an overload.
- an advanced E-UTRA (or LTE-A) system supporting carrier aggregation will be the main target, but the main points of the present invention are similar.
- Other communication systems having a technical background and a channel form may be applied in a slight modification without departing from the scope of the present invention, which will be determined by those skilled in the art.
- FIG. 1 is a flowchart illustrating a process of processing a PDN connection request of a terminal based on an APN according to the prior art.
- the current standard provides a method of controlling session control signals based on the APN, as shown in FIG. 1.
- the session control signal may include a PDN connection request, a bearer resource allocation request, and the like.
- the mobility management entity (MME) 130 loads the load state from the serving gateway (SGW) 140 and the PDN gateway (PGW) 150 in step S105.
- SGW serving gateway
- PGW PDN gateway
- step S110 the user equipment (UE) 110 transmits a PDN connection request message including a APN to be connected to the MME 130 through an eNB 120.
- the MME 130 then checks the load for the requested APN in step S120.
- the MME 130 determines that its overload is above a certain threshold, the MME 130 requests a specific IMS related APN for voice communication or a specific VPN related for enterprise service. Only a request for an APN may be accepted.
- the MME 130 may reject the web browsing-related APN with a back-off time.
- the MME 130 transmits a PDN connection reject message (PDN connection reject) to the terminal 110 through the base station 120 in step S130.
- PDN connection reject includes a back off time
- the terminal 110 retransmits the PDN connection request in step S140 after the received back off time elapses.
- the terminal 110 may retransmit the PDN connection request for the APN other than the APN rejected in step S150.
- Congestion control based on APN described in FIG. 1 can be used for PDN connection related session control signals belonging to a specific APN.
- the mobility management control signal is not associated with only one PDN connection belonging to a specific APN.
- the mobility management control signal is a signal applied in units of terminals, the mobility management control signal is associated with all sessions of the terminal, and thus a phenomenon associated with at least two or more APNs occurs. This will be described with reference to FIG. 2.
- FIG. 2 illustrates a problem that occurs when applying a method of controlling congestion based on a conventional APN in processing a service request message or a tracking area update message, which is a mobility management control signal.
- the terminal 110 forms a PDN connection to a plurality of APNs, and then switches to an idle state. Thereafter, the terminal 110 transmits a service request message to the MME 130 through the base station 120 in step S210 in order to switch back to the active state.
- the service request message includes a plurality of PDN connection requests for one terminal.
- step S220 the MME 130 checks the load status of APNs currently activated for the terminal.
- APN A and APN C are overloaded and APN B is not overloaded.
- the session control signal is processed in the control node (control node) that is currently serving the terminal 110, that is, MME (130).
- MME control node
- the mobility management signal indicates the movement of the terminal 110
- a new MME different from the MME serving the terminal 110 needs to process the signal. The situation may arise. That is, when the UE transmits the TAU, the MME receiving the TAU is a new MME instead of the conventional MME, and the new MME may already be congested.
- the new MME must determine whether to process the mobility management control signal received from the terminal 110. However, if the determination is based on APN, the new MME must acquire the APN related information currently used by the terminal from the MME serving the terminal, and control plane (control plane) to the SGW connected to the basic MME as a new MME. After the change, it is necessary to determine whether to reject the mobility management control signal (eg, TAU) based on the APN. Therefore, an overload may occur due to operations necessary for reject decision.
- TAU mobility management control signal
- FIG. 3 is a diagram illustrating a problem of the related art that may occur when the APN based congestion control processing method is applied to a mobility management control signal.
- step S310 the terminal 110 transmits a tracking area update (TAU) message to the new MME 130A through the base station 120.
- TAU tracking area update
- the new MME 130A is a different MME from the conventional MME 130B serving the terminal 110 and is in a congestion state.
- the new MME 130A transmits a UE context request message (UE Context Request) to the conventional MME 130B in step S320 to process the TAU message transmitted from the terminal 110 even though it is in a congested state.
- the new MME 130A then receives a UE context response message (UE Context Response) at step S330 and transmits a confirmation message for this at step S340.
- UE Context Request UE context request message
- UE Context Response UE context response message
- the new MME 130A may check the APNs currently activated for the UE from the UE context, and check the load status of each APN in step S350.
- APN A and APN C are overloaded and APN B is in a normal state.
- the new MME 130A releases a control plane connected between the conventional MME 130B and the SGW 140 and forms a control plane between itself and the SGW 140 in step S360. Perform.
- the new MME 130A is in a congested state, and thus the TAU transmitted from the terminal 110 should be rejected. That is, in order to reject the TAU of the terminal 110, an unreasonable situation occurs that the new MME 130A in a congested state should perform a step of S320 or less.
- the present invention has been made to solve the problems described in FIGS. 1 to 3, and proposes a method for efficiently controlling congestion based on APN.
- the first embodiment of the present invention describes a solution when the core network node (that is, the MME) that handles mobility management is not changed.
- the second embodiment of the present invention describes a solution when the core network processing mobility management is changed.
- the first embodiment of the present invention described below describes a congestion control method when the core network node (that is, the MME) that handles mobility management is not changed.
- the mobility management control signal processing method of the MME will be described by dividing into embodiments 1-A to 1-D.
- the MME receiving the service request message or the TAU of the terminal since the MME receiving the service request message or the TAU of the terminal is not changed, it may be assumed that the MME has a context of the terminal including subscription information of the terminal.
- FIG. 4 is a diagram illustrating a congestion control method according to embodiment 1-A of the present invention.
- the subscription information of the terminal includes predetermined default APN information.
- the default APN information is information on a PDN connection that the terminal basically uses in the active state.
- whether to process the mobility management control signal is determined based on the congestion state of the default APN. That is, the MME that receives the mobility management control signal from the terminal rejects the mobility management control signal if the default APN is congested. In addition, the MME provides a backoff time based on a prediction about when congestion with respect to the default APN is resolved in the reject message.
- step S410 it is assumed that the PDN connection to the plurality of APN is formed for the terminal 410.
- step S420 the terminal 410 transmits a service request message (Service Request) to the MME 430 through the base station 420 to transition from the idle state to the active state. Then, the MME 430 checks the status of the default APN and the default APN from the subscription information of the terminal 410 in step S430.
- Service Request Service Request
- the MME 430 confirms that the default APN is congested in step S440, and transmits a service rejection message to the terminal 410 in step S450.
- the denial of service message includes a default APN and a back off time.
- the terminal resends the service request message after the back off time elapses.
- FIG. 5 is a diagram illustrating a congestion control method according to embodiment 1-B of the present invention.
- the MME when any one of the PDN connections to the activated APN is congested, the MME rejects the mobility management control signal received from the terminal.
- the MME transmits a rejection message including the APNs in a congested state and a back off time for each of the congested APNs to the terminal.
- the MME may transmit the rejection message to the UE with the APNs rejecting and the back off time having the largest value among the back off time as the representative value.
- step S410 it is assumed that the PDN connection to the plurality of APN is formed for the terminal 410.
- the terminal 410 transmits a service request message (Service Request) to the MME 430 through the base station 420 in order to transition from the idle state to the active state in step S520.
- the MME 430 checks the status of PDN connections activated for the terminal 410.
- the MME 430 determines that at least one PDN connection among the APNs of the activated PDN connections is congested. Then, in step S550, the MME 430 transmits a service rejection message (Service Reject) to the terminal 410.
- the denial of service message includes an APN rejected and a back off time for each of the rejected APNs.
- the terminal 410 resends the service request message after the back off time elapses.
- FIG. 6 illustrates a congestion control method according to embodiment 1-C of the present invention.
- each of the APNs related to the deactivated PDN connection includes a back off time in a partial service rejection or acceptance message (Partial Service Reject / Accept) and is transmitted to the terminal through a NAS message.
- the partial denial of service or acceptance message includes the rejected APNs, the back off time corresponding to the APNs, and the cause of the partial rejection due to the overload of the APNs.
- the terminal does not request a PDN connection for the APN during the received back off time. If the MME does not provide the back off time to the terminal, the terminal uses the preset default value, and requests the PDN connection after the corresponding default value elapses.
- step S610 it is assumed that the PDN connection to the plurality of APN is formed for the terminal 410.
- the terminal 410 transmits a service request message (Service Request) to the MME 430 through the base station 420 in order to transition from the idle state to the active state in step S620.
- the MME 430 checks the status of the PDN connections that are activated for the terminal 410 in step S630.
- the MME 430 classifies the PDN connection to the APN in congestion and the PDN connection to the APN in normal state. In the embodiment of the present invention, it is assumed that the PDN connection to APN A and APN C is overloaded (congested) and the PDN connection to APN B is normal.
- the MME 430 transmits an initial context setup request message to the base station 420.
- the initial context setup request message activates only PDN connection to APN B and includes a partial service rejection indicating that the PDN connection request to the remaining APNs is rejected.
- the partial denial of service may include a rejected APN and a back off time for each rejected APN.
- the base station 420 transmits a radio bearer establishment message (Radio Bearer Establishment) to the terminal 410 in step S645.
- the radio bearer establishment message includes only partial service rejection that activates only PDN connection for APN B and rejects PDN connection request for the remaining APNs.
- the partial denial of service may include a rejected APN and a back off time for each rejected APN.
- the MME 430 deletes the PDN connections to the APN A and APN C which are overloaded. To this end, the MME 430 transmits a Delete Session Request message to the SGW 440 in step S650 to delete the PDN connection to APN A. The SGW 440 then transmits and receives a session deletion request and response to the PGW A 450A through steps S655 to S660. After the session is deleted, the MME 430 receives a session deletion response message from the SGW 440 in step S665.
- step S670 the MME 430 transmits a Delete Session Request message to the SGW 440 in order to delete the PDN connection to the APN C.
- the SGW 440 then transmits and receives a session deletion request and response to the PGW C 450A through steps S675 to S680.
- the MME 430 receives a session deletion response message from the SGW 440 in step S685.
- an update process of deleting bearers whose EPS bearer information of the terminal 410 is also rejected should be performed.
- This update process may be performed in any of the following three ways.
- the UE may locally deactivate the EPS bearers corresponding to the PDN connection to the rejected APNs.
- some denial of service or acceptance message includes at least one of information on bearers that are additionally activated or information on released bearers, and the terminal receiving the message receives EPS bearer information stored in the terminal. You can update it.
- the UE may locally deactivate bearers other than the activated bearers through RRC reconfiguration.
- FIG. 7 is a diagram illustrating a congestion control method according to embodiment 1-D of the present invention.
- the UE specifies the APN associated with the data to be transmitted and transmits the service request message, and the MME determines whether to accept the service request according to the congestion state of the PDN connection to the specified APN.
- an idle terminal When data to be transmitted is generated, an idle terminal may be transitioned to an active state through a service request, but the data may need to be transmitted through a PDN connection to an APN in a congested state.
- bearers are partially generated according to the acceptance or rejection of some service request. If the bearer associated with data to be transmitted by the UE cannot be formed, the acceptance or rejection of such some service requests may be meaningless. .
- the UE specifies at least one APN that needs activation in the service request message. Receiving this, the MME rejects the service request if any one of the specified APNs is congested.
- the reject message may include the back off times or the longest representative back off time for each rejected APN and rejected APN as in the 1-B embodiment.
- the MME transmits a partial service rejection or acceptance message to the terminal to reject only the APNs in the congested state.
- the MME includes the rejected APNs and the backoff times for each rejected APN in the message, and then deactivates the corresponding PDN connection through the session deletion request.
- the terminal receiving the partial denial of service or acceptance message does not transmit a PDN connection request for the corresponding APN until the back off time elapses.
- step S710 it is assumed that the PDN connection to the plurality of APN is formed for the terminal 410.
- step S7720 the terminal 410 transmits a service request message (Service Request) specifying at least one APN to activate through the base station 420 to the MME 430.
- a service request message Service Request
- the MME 430 checks the status of PDN connections activated for the terminal 410.
- step S740 the MME 430 determines whether the APNs specified by the terminal 410 are congested. If any one of the APNs specified by the terminal 410 is congested, the MME 430 proceeds to step S750 and transmits a service rejection message including a back off time to the terminal 410.
- the MME 430 proceeds to step S760 to confirm that only the APNs not specified are congested.
- the MME 430 transmits a partial service rejection or acceptance message to the terminal 410.
- the partial denial of service or acceptance message includes a rejected APN and a back off time for each of the rejected APNs.
- the terminal 410 may transmit the bearer EPS bearer IDs included in the service request message instead of the APN.
- the MME 430 finds APNs corresponding to the EPS bearers based on the information in the stored UE context, and then determines acceptance or rejection by determining a congestion situation for the APNs.
- the APNs included in the service request message may be used as a criterion of rejection or acceptance at the terminal, not the APN for the PDN connection to which the buffered data is transmitted for transmission.
- the APN is configured.
- the congestion state of the APN may be applied for each terminal. That is, even in the same Internet APN, it may be determined that APN has caused congestion for some terminals and APN has not caused congestion for other terminals according to subscription information of an applied plan. .
- a second embodiment of the present invention described below describes a congestion control method when a core network node (i.e., MME) that handles mobility management is changed.
- MME core network node
- the terminal transmits a tracking area update request message, which is a mobility management control signal, to the changed new MME.
- a tracking area update request message which is a mobility management control signal
- the existing MME will delete the control signal connection with the SGW, so an update operation of changing the control signal connection to the new MME must be performed. If not, the SGW having bearer information of the UE may not be able to perform paging because it is not connected to any MME.
- FIG 8 illustrates a congestion control method according to embodiment 2-A of the present invention.
- the new MME that receives the TAU from the terminal finds the conventional MME using a globally unique temporary ID (GUTI) included in the TAU.
- the GUTI is assigned to the UE by the MME and includes a globally unique MME ID (GUMMEI) and an M-TMSI (MME-TMSI).
- GUMMEI globally unique MME ID
- MME-TMSI M-TMSI
- GUMMEI globally unique MME ID
- MME-TMSI M-TMSI
- the new MME requests and acquires the context of the UE from the conventional MME, and then controls congestion according to the above-described embodiment 1-A or 1-B. That is, the new MME rejects the TAU of the terminal if the default APN included in the context of the terminal is congested (embodiment 1-A), or if any one of the active APNs is congested.
- the TAU reject message includes a back off time for each APN in congestion and the APN in congestion.
- the new MME that transmits the TAU rejection message deactivates PDN connections for the corresponding APNs. To this end, the new MME sends a Delete Session Request message to the SGW.
- the UE After receiving the TAU reject message, the UE attempts to access the network through an attach request other than the TAU after the back off time elapses. In this case, when the back off time for the plurality of APNs is included in the TAU rejection message, the terminal attempts to attach after the back off time for the default APN elapses. On the other hand, if the default APN is not included in the TAU reject message, the terminal immediately attempts to access the network through an attach request message, but for the rejected APNs only after a predetermined back off time elapses the PDN connection request message send.
- the terminal 410 When the terminal 410 moves and camps in the cell and the MME in charge of the cell is changed, the terminal 410 transmits a TAU to the new MME 430A in step S805. Then, the new MME 430A transmits a UE context request message (UE Context Request) to the conventional MME 430B in step S810 to obtain the environment information for the terminal 410. Then, the conventional MME 430B transmits a UE context response message (UE Context Response) including the UE context to the new MME 430A in step S815, and receives a response thereto.
- UE Context Request UE Context Request
- UE Context Response UE context response message
- step S825 the new MME 430A checks the status of the PDN connection and the PDN connection that are activated for the terminal 410 through the context of the terminal 410.
- the new MME 430A confirms that the PDN connection to the default APN is congested or the PDN connection to any one APN is congested.
- the new MME 430A transmits a TAU rejecting message (Tracking Area Update Reject) to the terminal 410 through the base station 420.
- the TAU reject message includes a back off time for each APN in congestion and the APN in congestion.
- the new MME 430A transmits a Delete Session Request message to the SGW 440 for deleting PDN connections for APNs A, B, and C. Then, the SGW 440 transmits a bearer modification request message (Modify Bearer Request) for each PGW in steps S845, S850, and S855, and receives a response to delete the PDN connection formed for the terminal.
- a bearer modification request message Modify Bearer Request
- the terminal 410 attempts to access a network by transmitting an attach request message to the new MME 430A in step S860.
- the new MME 430A may include the back off time, or the APN and back off time simultaneously in the TAU reject message.
- the new MME 430A may update the control plane to be connected to the new MME 430A by transmitting a bearer update request message instead of transmitting a session delete request message to the SGW 440. have.
- FIG 9 illustrates a congestion control method according to embodiment 2-B of the present invention.
- the new MME 430A is in a congested state, it is necessary to process the context processing of the terminal and the session with the SGW.
- the rejected terminal should always perform the attach (attach) process, the signaling in the attach process is much more complicated and burden than the signaling in the TAU process. Therefore, there is a possibility that the new MME 430A, which is out of the congestion state, enters the congestion state again while processing the access procedure of the terminal. In order to solve this problem, there is a need for a method for delaying terminal related processing until the new MME 430A in a congested state is released.
- Example 2-B of the present invention provides a solution to this.
- the new MME 430A transmits a TAU rejection message including a back off time for the terminal so that the terminal does not transmit an additional request, so that the terminal can delay the processing related to the terminal until it escapes from the congestion state.
- the new MME 430A requests the conventional MME 430B to suspend bearers of the UE so that the downlink data packet is discarded so that paging overhead does not occur.
- step S905 the terminal 410 transmits a TAU including default APN and GUTI information to the new MME 430A through the base station 420. Then, in step S910, the new MME 430A checks the congestion state of the default APN. If the default APN is congested, the new MME 430A transmits a TAU reject message including a back off time to the terminal 410 through the base station 420 in step S915.
- the new MME 430A transmits a suspend request message to the conventional MME 430B managing the terminal 410 in step S920. Then, in step S920, the conventional MME 430B transmits a suspend notification message to the SGW 440 to switch to a suspend state that does not process downlink data of the terminal 410.
- the interrupt request message transmitted by the new MME 430A to the conventional MME 430B may include a back off time as a default time.
- the default time is included, when the conventional MME 430B does not receive a request for the context of the terminal 410 even after the default time has elapsed, the conventional MME 430B is the context of the terminal 410.
- the bearers also deactivation (SGW) to switch the terminal to the de-registration state.
- the terminal switches to the deregistration state.
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Description
Claims (17)
- 이동통신 시스템에서 이동성 관리 엔티티(Mobility Management Entity, MME)의 혼잡 제어 방법에 있어서,적어도 하나 이상의 액세스 포인트 네임(Access Point Name, APN)에 대한 패킷 데이터 네트워크(Packet Data Network, PDN) 연결을 구비하는 단말로부터 이동성 관리 요청 신호를 수신하는 수신 단계;상기 APN의 혼잡(congestion) 상태 여부를 판단하는 판단 단계; 및특정 APN에 대한 혼잡 상태 판단 시, 상기 이동성 관리 요청을 거절하는 거절 단계를 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제1항에 있어서,상기 이동성 관리 요청 신호는 서비스 요청(Service Request) 메시지인 것을 특징으로 하는 혼잡 제어 방법.
- 제2항에 있어서,상기 판단 단계는,상기 단말에 대해 설정된 디폴트 APN의 혼잡 상태 여부를 판단하며,상기 거절 단계는,상기 디폴트 APN이 혼잡 상태로 판단되는 경우, 서비스 요청 거절 메시지를 상기 단말에 전송하는 것을 특징으로 하는 혼잡 제어 방법.
- 제3항에 있어서, 상기 서비스 요청 거절 메시지는,상기 단말이 상기 서비스 요청을 재전송하기 위해 대기해야 하는 시간인 백 오프 타임을 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제2항에 있어서, 상기 이동성 관리 요청 신호는 서비스 요청이며,상기 판단 단계는,상기 단말에 대해 설정된 모든 APN의 혼잡 상태 여부를 판단하며,상기 거절 단계는,상기 모든 APN 중 적어도 하나의 APN 이라도 혼잡 상태로 판단되는 경우, 서비스 요청 거절 메시지를 상기 단말에 전송하는 것을 특징으로 하는 혼잡 제어 방법.
- 제5항에 있어서, 상기 서비스 요청 거절 메시지는,거절되는 APN에 대한 정보와, 상기 단말이 상기 서비스 요청을 재전송하기 위해 대기해야 하는 시간인 백 오프 타임을 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제2항에 있어서,상기 판단 단계는,상기 단말에 대해 설정된 모든 APN의 혼잡 상태 여부를 판단하고, 혼잡 상태의 APN과 정상 상태의 APN을 분류하며,상기 거절 단계는,상기 혼잡 상태의 APN에 대한 일부 서비스 거절 메시지를 상기 단말에게 전송하는 것을 특징으로 하는 혼잡 제어 방법.
- 제7항에 있어서, 상기 일부 서비스 거절 메시지는,거절되는 APN에 대한 정보와, 상기 단말이 상기 서비스 요청을 재전송하기 위해 대기해야 하는 시간인 백 오프 타임을 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제8항에 있어서,혼잡 상태의 APN에 대한 PDN 연결을 삭제하기 위한 세션 삭제 요청 메시지를 서빙 게이트웨이에 전송하는 단계를 더 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제2항에 있어서,상기 서비스 요청 메시지는 단말이 전송할 데이터와 관련된 특정 APN을 포함하며,상기 판단 단계는,상기 서비스 요청 메시지에 포함된 APN의 혼잡 상태 여부를 판단하며,상기 거절 단계는,상기 서비스 요청 메시지에 포함된 APN이 혼잡 상태로 판단되는 경우, 서비스 거절 메시지를 상기 단말에 전송하는 것을 특징으로 하는 혼잡 제어 방법.
- 제1항에 있어서,상기 이동성 관리 요청 신호는 트래킹 영역 업데이트(Tracking Area Update, TAU) 메시지인 것을 특징으로 하는 혼잡 제어 방법.
- 제11항에 있어서,상기 수신 단계 이후에,상기 단말을 서빙하였던 MME로부터 상기 단말에 대한 컨텍스트 정보를 획득하는 단계를 더 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제12항에 있어서,상기 판단 단계는,상기 컨텍스트 정보로부터 상기 단말에 대해 설정된 APN의 혼잡 여부를 판단하며,상기 거절 단계는,상기 단말에 대한 디폴트 APN 이 혼잡 상태이거나 또는 상기 APN 중 적어도 하나의 APN 이라도 혼잡 상태인 경우, TAU 거절 메시지를 상기 단말에 전송하는 것을 특징으로 하는 혼잡 제어 방법.
- 제13항에 있어서,상기 APN에 대한 PDN 연결을 삭제하기 위한 세션 삭제 요청 메시지를 서빙 게이트웨이에 전송하는 단계를 더 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제13항에 있어서,상기 TAU 거절 메시지는 상기 단말이 상기 서비스 요청을 재전송하기 위해 대기해야 하는 시간인 백 오프 타임을 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제15항에 있어서,상기 백 오프 타임 경과 후, 상기 단말로부터 접속 요청 메시지(Attach Request)를 수신하는 단계를 더 포함하는 것을 특징으로 하는 혼잡 제어 방법.
- 제11항에 있어서, 상기 거절 단계 이후,상기 단말의 베어러들을 중단시키기 위한 중단 요청 메시지를 상기 단말을 서빙하였던 MME에게 전송하는 단계를 더 포함하는 것을 특징으로 하는 혼잡 제어 방법.
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JP2013548347A JP5968908B2 (ja) | 2011-01-03 | 2012-01-03 | 移動通信システムにおける輻輳制御方法 |
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CN201280011534.3A CN103404194B (zh) | 2011-01-03 | 2012-01-03 | 用于在移动通信系统中控制拥塞的方法 |
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WO2015048992A1 (en) * | 2013-10-02 | 2015-04-09 | Telefonaktiebolaget L M Ericsson (Publ) | Handling overload of a network node |
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JP2014505421A (ja) | 2014-02-27 |
US20130286828A1 (en) | 2013-10-31 |
EP2663122A4 (en) | 2017-10-04 |
CN103404194A (zh) | 2013-11-20 |
EP2663122A2 (en) | 2013-11-13 |
US9749897B2 (en) | 2017-08-29 |
CN103404194B (zh) | 2016-12-28 |
KR101752707B1 (ko) | 2017-07-03 |
JP5968908B2 (ja) | 2016-08-10 |
KR20120078833A (ko) | 2012-07-11 |
WO2012093832A3 (ko) | 2012-11-08 |
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