KR101403205B1 - System and method for delivering data in mobile telecommunication network - Google Patents

Abstract

In a system for asynchronously generating an uplink bearer and a downlink bearer, when an unexpected delay occurs in the setting of the uplink bearer and the downlink bearer, an unnecessary call to the bearer management entity To a method and apparatus for preventing a request from being delivered. In the first embodiment, the bearer management entity notifies the bearer creation state to the gateway that delivers the data traffic, and the gateway manages the data traffic. In the second embodiment, the bearer preparation state is notified to the radio access network, It does not generate the uplink data traffic.

EPS, MME, Asynchronous UL / DL establishment

Description

TECHNICAL FIELD [0001] The present invention relates to a method and system for transmitting data in a mobile communication network,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system according to Internet Protocol (IP), and more particularly, to a system for performing asynchronous uplink / downlink bearer setup when a terminal is changed from an idle mode to an active state, To a system and a method for reducing a call request that may be unnecessarily transmitted to a management unit.

1 is a diagram showing an evolved packet system (hereinafter referred to as "EPS") architecture, which is an evolved packet system under the 3rd Generation Partnership Project (3GPP).

Referring to FIG. 1, the EPS includes an E-UTRAN (Evolved UTRAN) 103, a Mobility Management Entity (MME) 113, a Serving Gateway (SGW) 105, and a Packet or Public Data Network (PDN) gateway (PGW) 107 have.

The E-UTRAN 103 is an evolved access network that is connected wirelessly with a user equipment (hereinafter referred to as "UE ") 101 using EPS, and is an evolved Node B eNB ") (not shown) is included as an E-UTRAN entity. In this specification, the eNB and the E-UTRAN are treated the same. The MME 113 is connected to the MME 113 via a network such as NAS (Non Access Stratum) signaling, NAS signaling security, mobility management between 3GPP networks, location related functions of idle mode UE, Function, authentication, and bearer management. The SGW 105 manages mobility between eNBs, mobility management between 3GPP networks, idle mode downlink packet buffering (E-UTRAN), lawful interception, packet routing and packet routing and forwarding. The PGW 107 may include policy enforcement, per-user based packet filtering, charging support, lawful interception, UE IP allocation, , And packet screening.

The Policy Control and Charging Rules Function (PCRF) 111 manages policies, quality of service (QoS), and the like to be applied to the UE 101. The Serving GPRS Support Node (SGSN) 115 is an entity related to a legacy packet network (for example, General Packet Radio Services (GPRS) RAN or GERAN (Global System for Mobile Communications) , And an HSS (Home Subscriber Server) 116 manage user subscription information and location information. The entities may have additional functionality not mentioned.

2 is a diagram illustrating a signaling procedure illustrating an operation of requesting a service to transmit data in a dormant state in a typical EPS.

In the idle state, the UE 101, which is not in a wireless connection with the EPS, sends a Service Request message to the MME 113 through NAS signaling in step 201 in order to transmit data. The MME 113 checks the bearer information that has been received before the UE 101 enters the idle state, and transmits an Initial Context Setup Request message, which is a command to generate a radio bearer corresponding to the bearer information, to the SGW (Between the eNB and the SGW) set in the uplink bearer (eNB-105). The uplink bearer information includes an address of the SGW 105 and a GPRS Tunnel Protocol (TEPS) tunnel endpoint ID. In step 203, the eNB 102 generates a radio bearer with the UE 101 according to the uplink bearer information. When the step 203 is completed, the uplink bearer setup in the network direction is completed in the UE 101, and the UE 101 can transmit data to the network in step 204. [

In order to transmit the downlink bearer (between eNB and SGW) information to the SGW 105, the eNB 102 transmits an Initial Context Setup Response message including the downlink bearer information generated in step 203 to the MME 113 in step 205 . The downlink bearer information includes the address of the eNB and the GTP TEID. In step 206, the MME 113 transmits downlink bearer information to the SGW 105 through an Update Bearer Request message, and receives an Update Bearer Response message from the SGW 105 in step 207. The downlink bearer setup is completed after step 206, and data to be transmitted to the UE 101 can be transmitted as in step 208. [

The MME 113 can not process the Initial Context Setup Response message received in step 205 due to a load condition or the like in a typical EPS operating in the above manner and the downlink message to the UE 101 before the Update Bearer Request message is transmitted, A packet may be received at the SGW 105. In this case, the SGW 105 has a problem that it judges that the UE 101 is still in the idle state and sends a request message to the MME 113 to paging the UE 101 unnecessarily.

The present invention provides a method and system for preventing signaling from being unnecessarily increased to a mobility management entity having a bearer management function due to an asynchronous bearer generation procedure in a system for asynchronously generating an uplink bearer and a downlink bearer .

The present invention provides a method and system for optimizing signaling delivered to a bearer manager in an asynchronous bearer generation procedure.

A preferred embodiment of the present invention is a data transmission method in a system for asynchronously generating an uplink bearer and a downlink bearer,

The method comprising: receiving a service request indication including an identifier of the first terminal and bearer information; receiving the downlink data transmitted from the second terminal, storing the downlink data according to the service request indication, And receiving a message including the downlink bearer information and transmitting the stored downlink data to the first terminal through a downlink bearer set by the downlink bearer information, .

The method according to the first embodiment of the present invention is a method for asynchronously generating an uplink bearer and a downlink bearer in the case of an EPS, and at the same time when the MME 113 starts the uplink bearer generation procedure, The SGW 105 notifies the SGW 105 that the downlink bearer will be generated and the SGW 105 recognizing the uplink data generation procedure transmits the uplink data from the UE 101 to the PGW 107, When receiving the downlink data, the SGW 105 notifies the MME 113 of the reception of the downlink data by buffering the uplink data, And notifying the MME 113 of an unnecessary call request.

The eNB 102 does not perform the uplink data transmission scheduling to the UE 101 so that the UE 101 does not transmit the uplink data after generating the uplink bearer, And starting the uplink data transmission scheduling to receive uplink data from the UE 101. [

A system according to an embodiment of the present invention is a communication system for providing a packet-based mobile communication service supporting a dormant mode and a terminal using the communication system, wherein when a packet service is requested from the dormant terminal, A mobility management unit (MME) for requesting the radio access network to generate a radio bearer and managing the generation of an uplink bearer and a downlink bearer; a radio network controller And SGW and PGW for receiving bearer information and transferring data packets between the terminal and the packet data network (PDN).

According to the present invention, in the mobile communication system in which the uplink bearer and the downlink bearer are generated asynchronously, unnecessary terminal calls transmitted to the bearer manager for managing bearer generation can be reduced, and the advantage of increasing the operation efficiency of the bearer manager .

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

SUMMARY OF THE INVENTION It is a principal object of the present invention to provide a bearer management method in which when a bearer management unit notifies a bearer generation process to a core network node or an access network node when an uplink and a downlink bearer are generated asynchronously in a communication system, As shown in Fig.

Considering that most of the packet network uses the IP protocol and the Internet such as WWW (World Wide Web) is the most popular packet service, when the UE requests the radio bearer setup and transmits the uplink data, The first data packet to be transmitted is mostly a Domain Name Service (DNS) request. Generally, since the DNS server is located in the communication network of the provider, the response to the DNS request occurs very quickly, so it is often the case that a DNS response to the terminal is received during the downlink bearer generation process. Likewise, it can be applied to other cases of providing packet services instead of DNS services.

3 is a diagram illustrating signaling for buffering upstream data until the MME 113 having a bearer management function informs the gateway of bearer generation and a downlink bearer is generated according to the first embodiment of the present invention.

Referring to FIG. 3, a UE 101 in a dormant state that has not established a wireless connection with an EPS sends a Service Request message to the MME 113 in step 301 in order to transmit data. The MME 113 confirms the bearer information being served before the UE 101 enters the idle state and sends a Service Request Indication message to the SGW 105 to notify the SGW 105 that the bearer creation request is in progress, Lt; / RTI > The Service Request Indication message includes a terminal identifier such as an International Mobile Station Identifier (IMSI) and bearer information for a radio bearer to be activated. If the Service Request Indication message is not transmitted, the SGW 105 operates according to the existing technique of FIG.

In step 303, the MME 113 transmits an Initial Context Setup Request message, which is a command for generating the radio bearer, to the eNB 102 together with the uplink bearer (between eNB and SGW) set in the SGW 105. The uplink bearer information includes the address of the SGW 105 and the GTP TEID associated with the radio bearer. In step 304, the eNB 102 generates a radio bearer with the UE 101 according to the radio bearer information. The radio bearer is connected to a bearer between the UE 101 and the eNB and an EPS bearer (i.e., GTP tunnel) connecting between the eNB and the SGW / PGW. At this time, downlink bearer information for downlink bearer between SGW 102 and SGT associated with the radio bearer is generated, and the downlink bearer information includes the address of the eNB and the GTP TEID. When the step 304 is completed and a radio bearer is generated, the UE 101 completes the uplink bearer setup in the network direction, and the UE 101 can transmit the uplink data to the network in step 305. In order to prevent the uplink data transmitted by the UE 101 from being transmitted to the network server such as the DNS server and generating downlink data corresponding to the uplink data, the SGW 105, which received the Service Request Indication in step 302, 101 without further transferring the uplink data.

In step 306, the eNB 102 transmits an Initial Context Setup Response message including the downlink bearer information generated in step 304 to the MME 113 to forward the downlink bearer (between the eNB and the SGW) to the SGW 105 . The downlink bearer information includes the address of the ENB and the GTP TEID. In step 307, the MME 113 transmits the downlink bearer information to the SGW 105 in an Update Bearer Request message. Since the SGW 105 has confirmed that the downlink bearer has been established by the downlink bearer information, the uplink data buffered in step 306 is transmitted to the PGW 107 in step 308. In step 309, the SGW 105 sends an Update Bearer Response message to the MME 113. Downlink data, which is a response to the uplink data transmitted in step 308, is transmitted to the UE 101 in step 310.

4 is a diagram illustrating signaling for buffering downlink data until the MME 113 having the bearer management function informs the gateway of bearer generation and a downlink bearer is generated according to the first embodiment of the present invention.

Referring to FIG. 4, in a dormant state in which the UE 101 does not establish a wireless connection with the EPS, a Service Request message is sent to the MME 113 in step 401 in order to transmit data. In step 402, the MME 113 confirms the bearer information of the radio bearer which has been in service before the UE 101 enters the idle state. In step 402, the MME 113 transmits a Service Request Indication message to inform the SGW 105 that bearer generation is in progress, (105). The Service Request Indication message includes a terminal identifier such as an IMSI and bearer information for a radio bearer to be activated. If the Service Request Indication message is not transmitted, the SGW 105 operates as in the prior art.

In step 403, the MME 113 transmits an Initial Context Setup Request message, which is a command for generating the radio bearer, to the eNB 102 together with the uplink bearer (between eNB and SGW) set in the SGW 105. The uplink bearer information includes the address of the SGW 105 and the GTP TEID associated with the radio bearer. In step 404, the eNB 102 generates a radio bearer with the UE 101 according to the radio bearer information. At this time, downlink bearer information for the downlink bearer between the eNB 102 and the SGW is generated. When the uplink bearer setup in the network direction is completed in the UE 101, the UE 101 can transmit uplink data to the network in step 405. [

In step 407, the SGW 105 receives the downlink data due to the response to the uplink data or another reason. At this time, the downlink data may be received by the SGW 105 before step 408 in which the downlink bearer information is transmitted to the SGW 105. In this case, the SGW 105, which does not yet have downlink bearer information, buffers the downlink data without transmitting the downlink data to the eNB 102, and waits for reception of the downlink bearer information. The SGW 105 is notified that the bearer with the UE 101 is being generated from the MME 113 in step 402 and does not make an unnecessary call request for the UE 101 to the MME 113. [

In step 406, the eNB 102 transmits an Initial Context Setup Response message including the downlink bearer information generated in step 404 to the MME 113 (113) in order to transmit the downlink bearer (between the eNB and the SGW) ). The downlink bearer information includes the address of the eNB and the GTP TEID. In step 408, the MME 113 transmits the downlink bearer information to the SGW 105. Since the SGW 105 has confirmed that the downlink bearer has been established by the downlink bearer information, the downlink data which has been buffered is transmitted to the eNB 102 in step 409. At step 410, the SGW 105 sends an Update Bearer Response message to the MME 113. The order of steps 409 and 410 may be changed as shown.

5 is a flowchart illustrating an operation of waiting for the scheduling of uplink data until the downlink bearer is generated by informing the eNB of the access network of the bearer establishment process of the MME 113 having the bearer management function according to the second embodiment of the present invention Lt; / RTI >

Referring to FIG. 5, in a dormant state in which the UE 101 does not establish a wireless connection with the EPS, a Service Request message is sent to the MME 113 in step 501 in order to transmit data. In step 502, the MME 113 confirms the bearer information of the radio bearer which is being served before the UE 101 is brought to a dormant state. In step 502, the MME 113 transmits an Initial Context Setup Request message to the SGW 105, (Between the eNB and the SGW) set in the uplink bearer (eNB). The uplink bearer information includes the address of the SGW 105 and the GTP TEID associated with the radio bearer.

In step 503, the eNB 102 generates an uplink radio bearer with the UE 101 according to the radio bearer information. At this time, downlink bearer information for the downlink bearer between the eNB 102 and the SGW is generated. If necessary, in step 502, information explicitly designating whether or not scheduling of uplink data is directly allowed for each bearer is transmitted together with QoS information of the corresponding bearer. The uplink bearer between the UE 101 and the eNB 102 and the uplink bearer between the eNB 102 and the SGW 105 in the network direction from the UE 101 are completed. The UE 101 does not send the uplink data because the scheduling of the radio bearer does not start immediately. That is, the eNB 102 waits without scheduling the uplink radio bearer for the UE 101 until it is notified from the MME 113 that setting of the downlink bearer is completed.

In step 505, the eNB 102 transmits an Initial Context Setup Response message including the downlink bearer information generated in step 503 to the MME 113 (step 505), to transmit the downlink bearer (between the eNB and the SGW) ). The downlink bearer information includes the address of the eNB 102 and the GTP TEID. In step 506, the MME 113 transmits the downlink bearer information to the SGW 105 in an Update Bearer Request message. In step 507, the SGW 105 sends an Update Bearer Response message to the MME 113.

In step 508, the MME 113 receiving the Update Bearer Response message sends an Uplink Allowed message to the eNB 102 indicating that the downlink bearer setup is completed. The uplink allowed message includes an identifier for identifying the UE 101 and a list of uplink radio bearers to allow scheduling. If scheduling of the entire radio bearer is allowed, the list of uplink radio bearers may be omitted. The step 508 may be performed immediately after the step 506 and before the step 507. When it is notified that the setting of the downlink bearer is completed, the eNB 102 performs scheduling of the uplink radio bearer in step 509. [ In accordance with the scheduling of the uplink radio bearer, the UE 101 can transmit uplink data and receive downlink data in steps 510 and 511.

Figure 1 illustrates a 3GPP EPS architecture.

FIG. 2 is a diagram illustrating a signaling procedure illustrating an operation of requesting a service to transmit data in a dormant state in a typical EPS; FIG.

3 illustrates signaling for buffering uplink data until a downlink bearer is generated according to a first embodiment of the present invention;

4 illustrates signaling for buffering downlink data until a downlink bearer is generated according to the first embodiment of the present invention;

5 is a diagram illustrating signaling of an operation for waiting for scheduling of uplink data until a downlink bearer is generated according to a second embodiment of the present invention;

Claims (14)

A method for transmitting data in a mobile communication network, Transmitting, by the MME, a service request indication to the serving gateway (SGW) to inform the MME that bearer generation is in progress, when a service request is received from the terminal to the mobility management unit (MME) through the access network; When uplink data transmitted through an uplink bearer generated between the UE and the access network is received by the SGW, the SGW does not forward the uplink data to a gateway (PGW) of a packet data network (PDN) Buffering in accordance with instructions, Transmitting downlink bearer information for a downlink bearer generated between the UE and the access network to the SGW; Wherein the SGW confirms that the downlink bearer is set up by the downlink bearer information and transmits the buffered uplink data to the PGW. The method according to claim 1, And an identifier for the UE and bearer information for a radio bearer to be activated. The method according to claim 1, Transmitting, by the SGW, an update bearer response message to the MME after transmitting the uplink data; And forwarding the downlink data to the MS via the downlink bearer when the SGW receives downlink data corresponding to the uplink data from the PGW. A data delivery system in a mobile communication network, A mobility management unit (MME) for receiving a service request from a terminal through an access network and generating a service request indication to inform that bearer generation is in progress; After receiving the service request indication from the MME, when the uplink data transmitted through the uplink bearer generated between the UE and the access network is received, the uplink data is transmitted to the gateway (PGW) of the PDN And a serving gateway (SGW) for buffering according to the service request indication without delivering the service request, The MME transmits downlink bearer information for a downlink bearer generated between the UE and the access network to the SGW, Wherein the SGW confirms that the downlink bearer is set up by the downlink bearer information and transmits the buffered uplink data to the PGW. 5. The method according to claim 4, And an identifier for the UE and bearer information for a radio bearer to be activated. 5. The method of claim 4, The SGW transmits an update bearer response message to the MME after transmitting the uplink data. When downlink data corresponding to the uplink data is received from the PGW, the SGW transmits the downlink data to the terminal through the downlink bearer The data transmission system comprising: A method for transmitting data in a mobile communication network, Transmitting, by the MME, a service request indication to the serving gateway (SGW) to inform the MME that bearer generation is in progress, when a service request is received from the terminal to the mobility management unit (MME) through the access network; Transmitting uplink data to a gateway (PGW) of a packet data network (PDW) when uplink data transmitted through an uplink bearer generated between the UE and the access network is received by the SGW; When the SGW receives downlink data as a response to the uplink data from the PGW, buffering the downlink data according to the service request indication without transmitting the downlink data to the terminal; Transmitting downlink bearer information for a downlink bearer generated between the UE and the access network to the SGW; Wherein the SGW confirms that the downlink bearer is set up by the downlink bearer information and transmits the buffered downlink data to the UE. 8. The method of claim 7, And an identifier for the UE and bearer information for a radio bearer to be activated. A data delivery system in a mobile communication network, A mobility management unit (MME) for generating a service request indication informing that a bearer is being generated when a service request is received from a terminal through an access network; After receiving the service request indication from the MME, when the uplink data transmitted through the uplink bearer generated between the UE and the access network is received, the uplink data is transmitted to the gateway (PGW) of the PDN And a serving gateway (SGW) for buffering the downlink data according to the service request indication without transmitting the downlink data to the terminal when downlink data corresponding to the uplink data is received from the PGW, The MME transmits downlink bearer information for a downlink bearer generated between the UE and the access network to the SGW, Wherein the SGW confirms that the downlink bearer is set up by the downlink bearer information and delivers the buffered downlink data to the terminal. 10. The method of claim 9, And an identifier for the UE and bearer information for a radio bearer to be activated. A method for transmitting data in a mobile communication network, The method comprising the steps of: when a service request for a terminal (UE) is received from a base station of an access network to a mobility management unit (MME), the MME transmits a command for generating a radio bearer to the base station; Setting up an uplink bearer between the base station and the mobile station in accordance with the generation command and waiting for scheduling of the uplink radio bearer until the setup of the downlink bearer is completed; And scheduling the uplink radio bearer after the base station establishes the downlink bearer with the mobile station. 12. The method of claim 11, Reporting the downlink bearer setup to the MME after the base station sets up the downlink bearer and receiving a response to the report from the MME. A data delivery system in a mobile communication network, A base station of an access network for generating a service request for a terminal (UE) And a mobility management unit (MME) for receiving the service request from the base station and transmitting a command for generating a radio bearer to the base station, The base station establishes an uplink bearer with the UE according to the generation command, waits for scheduling of the uplink radio bearer until the setup of the downlink bearer is completed, sets up the downlink bearer with the UE And performs scheduling of the uplink radio bearer. 14. The base station according to claim 13, Report the establishment of the downlink bearer to the MME after establishing the downlink bearer and receive a response to the report from the MME.

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