KR20110115672A - Roaming determining method for acquiring roanming subscriber position information on oma h-slp type based on gps - Google Patents

Abstract

The present invention relates to a roaming determination method and system for obtaining roaming subscriber location information of GPS-based OMA H-SLP. The present invention, the terminal, the first step of transmitting a service request including the country / network information of the identification number of the target terminal to the service server; A second step of the service server transmitting a location request to the LBSP including the country / network information; A third step of transmitting, by the LBSP, a location request including the country / network information to the LM when the authentication process of the terminal is completed; And when the LM determines that the terminal roams outside the country by using the country / network information included in the location request received from the LBSP, and determines that the terminal roams outside, the area where the terminal roams by GMLC. A fourth step of transmitting a GPS Roam Reqest, which is a roaming information request including a Mobile Switching Center (MSC) and a Serving GPRS Support Node (SGSN); Characterized in that it comprises a.

Description

ROAMING DETERMINING METHOD FOR ACQUIRING ROANMING SUBSCRIBER POSITION INFORMATION ON OMA H-SLP TYPE BASED ON GPS {ROAMING DETERMINING METHOD FOR ACQUIRING ROANMING SUBSCRIBER POSITION INFORMATION ON OMA H-SLP TYPE BASED ON GPS}

The present invention relates to a roaming determination method, and more particularly, to a roaming determination method and system for obtaining roaming subscriber position information of GPS-based OMA H-SLP method for reducing the load on GLMC.

Location Base Service (LBS) refers to a service that identifies a location of a person or a thing and provides additional information related to the location based on a mobile communication terminal such as a mobile phone or a PDA. In order to provide a location based service, a process of determining a location of a mobile communication terminal must be preceded.

Positioning techniques for determining the location of a mobile communication terminal for providing location-based services are broadly classified into cell-based technologies using base station reception signals of mobile communication networks and GPS-based technologies using GPS receivers. Cell-based technology has a big error range, so GPS-based technology (eg, A-GPS (Assisted GPS)) that links a GPS (Global Positioning System) system and a mobile communication core network to provide more accurate location-based services This is becoming commonplace.

However, GPS-based technology requires a separate facility investment in addition to the core network for mobile communication services.

Meanwhile, in order to provide a smooth location-based service, location information of a mobile communication terminal is provided regardless of whether the mobile communication terminal is in a home network area or a roaming network or visited network area. It should be possible.

However, there may be a special case of exchanging network information including mutual BSA information through mutual alliances between domestic and overseas mobile service providers, but in a more general communication environment in which roaming network base station information is not disclosed. As a premise, a mobile communication user may visit a foreign country and use a roaming service in a service area of an overseas mobile communication provider. In this case, since the base station information (BSA, Base Station Almanac) in the roaming network is not disclosed to the domestic mobile service provider managing the home network, there is a problem in that the location of the mobile communication terminal cannot be determined.

In order to solve this problem, by providing a location-based service for the subscriber terminal roamed to a roaming network in a communication environment in which the base station information is not provided by using the GMLC according to the applicant's previous application (Application No. 2009-0098143) There has been provided a method of locating the risk.

However, according to the applicant's previous application (Application No. 2009-0098143), GMLC requests the roaming location information of the target subscriber to GMLC without regard to domestic / international (roaming) for the GPS roaming service subscriber. Thus, a problem occurs that an unnecessary procedure occurs.

In more detail, in the case of the OMA SUPL roaming H-SLP scheme, the OMA RLP protocol is used to obtain an initial position for the target terminal. Roaming location information of target subscriber for location information is needed through OMA RLP. The existing GMLC method roams target subscriber without any distinction between domestic and foreign (roaming) for all GPS roaming service subscribers. There was a problem in that an unnecessary flow procedure was generated by requesting location information, which caused a load on the Gateway Mobile Location Center (GMLC). More specifically, as shown in Figure 1, the roaming terminal (UE, 800) transmits a service request to the service server 100 (S10). Thereafter, the service server 100 receiving the roaming request transmits the location request to the LBSP 200 (S11), and the LBSP 200 transmits the location request to the LM 300 (S12). Accordingly, even though the roaming processing rate is only about 10% for the GPS roaming service subscriber, the LM 300 can use the GPS Roam Request (MSID), which is the roaming location information of the target subscriber, regardless of domestic / international (roaming). ) To the GMLC 500 (S13), an unnecessary procedure or a flow procedure occurs, which causes the GMLC 500 to give more load than necessary. On the other hand, the process of steps S15 to S33 to omit the description thereof in order to more clearly highlight the conventional problem.

Accordingly, in order to solve the problem, a technical development for reducing the load on the GMLC is required in the related art.

The present invention is to solve the above problems, roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information to reduce the load on the GMLC according to the roaming location information request of all GPS roaming subscribers It is to provide.

In addition, the present invention provides a method for determining roaming determination for the subscriber station without the GMLC to provide a roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information to reduce the load on the GMLC. It is to.

Roaming determination method for obtaining the roaming subscriber location information of the GPS-based OMA H-SLP method according to an embodiment of the present invention for achieving the above object, the terminal, the service server, the country / network information of the identification number of the target terminal A first step of transmitting a service request including; A second step of the service server transmitting a location request to the LBSP including the country / network information; A third step of transmitting, by the LBSP, a location request including the country / network information to the LM when the authentication process of the terminal is completed; And when the LM determines that the terminal roams outside the country by using the country / network information included in the location request received from the LBSP, and determines that the terminal roams outside, the area where the terminal roams by GMLC. A fourth step of transmitting a GPS Roam Reqest, which is a roaming information request including a Mobile Switching Center (MSC) and a Serving GPRS Support Node (SGSN); Characterized in that it comprises a.

In the roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information according to another embodiment of the present invention, the country / network information, MCC (Mobile Country Code) and MNC (Mobile Network Code) information It is characterized by that.

In the fourth step, the roaming determination method for acquiring roaming subscriber location information of the GPS-based OMA H-SLP method according to another embodiment of the present invention includes the Mobile Country Code (MCC) and the determination when the LM roams. If MNC (Mobile Network Code) is a code corresponding to a foreign country, not domestic, characterized in that the terminal is determined to roam abroad.

In the roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information according to another embodiment of the present invention, when the terminal transmits a service request to a service server, the service server requests a location request from the LBSP. A first step of transmitting LOCAL_FINDPOS); A second step of transmitting, by the LBSP, a location request (K HUB BIE-IOP Protocol (MQ)) to the LM when the authentication process of the terminal is completed; A third step of the LM transmitting a POS request to an SLP; Transmitting, by the SLP, an SMS transmission request (roam_bit = set) including a message for asking the MP whether the terminal roams; A fifth step of transmitting, by the SLP, a POS response which is a location response to the LM according to an SMS return response (Ack) return to the SLP of the MP; A sixth step of transmitting the SMS transmission result to the SLP when the MP roams by determining whether the terminal roams according to the SMS transmission request (roam_bit = set); And a seventh step of transmitting, by the SLP, a POS Indication that is a roaming response to the LM; Characterized in that it comprises a.

According to another embodiment of the present invention, a roaming determination method for acquiring roaming subscriber location information of a GPS-based OMA H-SLP method is performed after the seventh step, when it is determined that the LM is roaming, roaming with the GMLC. An eighth step of transmitting a GPS Roam Reqest, which is a roaming information request including a mobile switching center (MSC) and a Serving GPRS Support Node (SGSN) in a region; And further comprising:

The roaming determination method for obtaining roaming subscriber location information of GPS-based OMA H-SLP method according to an embodiment of the present invention has an effect of reducing the load on GMLC according to roaming location information requests of all GPS roaming subscribers. to provide.

In addition, the roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information according to another embodiment of the present invention provides GMLC with a method of determining roaming determination for a subscriber station without using GMLC. Provide the effect of reducing the load on the

1 is a flowchart illustrating a roaming determination method for obtaining roaming subscriber location information of a conventional GPS-based OMA H-SLP scheme;
2 is a flowchart illustrating a first method of a roaming determination method for obtaining roaming subscriber location information of a GPS-based OMA H-SLP method according to an embodiment of the present invention.
3 is a flowchart illustrating a second method of a roaming determination method for obtaining roaming subscriber location information of a GPS-based OMA H-SLP method according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a first method (SI method) of a roaming determination method for obtaining roaming subscriber location information of a GPS-based OMA H-SLP method according to an embodiment of the present invention.

Roaming terminal (User Equipment: UE, 800) is a service server 100, Mobile Country Code (MCC) and MNC (Moblie) corresponding to country information and network information of its International Mobile Station Identity (IMSI) The service request is transmitted including the Network Code) information (S40).

The service server 100 receiving the roaming request transmits a location request to the Location Base Service Platform (LBSP) 200 including MCC (Mobile Country Code) and MNC (Moblie Network Code) information (S41). Here, the LBSP 200 is a system that performs a function with the Open API Platform.

When the authentication process of the roaming terminal 800 is completed, the LBSP 200 transmits a location request to the LM 300 including a mobile country code (MCC) and a mobile network code (MNC) (S42). Here, the LM 300 is a Location Client Service (LCS) client that performs a location request to a location manager.

The LM 300 determines whether the terminal 800 roams to the outside by using the Mobile Country Code (MCC) and the Mobile Network Code (MNC) included in the location request message received from the LBSP 200. If it is determined that it is roaming, the GPS Roam Reqest (MDN, IMSI), which is a roaming information request including a Mobile Switching Center (MSC) and a Serving GPRS Support Node (SGSN) in an area where the roaming terminal 800 roams, is used by the GMLC 500. Transmit (S43). Here, the GMLC 500 is a system for performing cell-based positioning with a gateway mobile location center, and the subscribers identified through various methods by a GPS or a base station. This system delivers location information to a system that needs it. Meanwhile, the GPS Roam Reqest may include MDN (Mobile Directory Number) or IMSI (International Mobile Subscribe Identify) information of the terminal 800.

Here, when determining the roaming, the LM 300 determines that the terminal 800 roams when the MCC (Mobile Country Code) and MNC (Mobile Network Code) information is not domestic.

The LM 300 receives a GPS Roam Response (MDN, IMSI) corresponding to a roaming information response including a mobile switching center (MSC) and a Serving GPRS Support Node (SGSN) from the GMLC 500 (S44). A roaming response (MSC, SGSN) including a mobile switching center (SGN) and a Serving GPRS Support Node (SGSN) is transmitted to the LBSP 200 (S45). Here, the GPS Roam Response (MDN, IMSI) includes the Mobile Directory Number (MDN) or International Mobile Subscribe Identify (IMSI) information of the terminal 800, and the roaming response (MSC, SGSN) and the MSC (Mobile Country Code) Contains Serving GPRS Support Node (SGSN) information.

The LBSP 200 transmits a roaming response (MSC, SGSN) including the received Mobile Country Code (MSC) and Serving GPRS Support Node (SGSN) information to the service server 100 (S46).

The service server 100 transmits a roaming location request (LOCA_FINDPOS), which is a roaming location location request of the terminal 800, to the LBSP 200 (S47).

Accordingly, the LBSP 200 transmits a roaming position request (LBSP BIE-IOP Protocol (MQ)), which is a roaming position positioning request, to the LM 300 (S48).

The LM 300 transmits a roaming position request (MDN, IMSI) requesting a roaming position value po, which is an actual position request value of the roaming terminal 800, to the H-PG (Home-PG: 600) (S49). .

Accordingly, the H-PG 600 obtains a roaming position value pos corresponding to the position request value of the roaming terminal 800 through the V-PG (Visitor-PG: 700) and the OMA RLP (S50). Here, PG is a Positioning Gateway, which handles location results through OMA RLP-based protocol.

The H-PG 600 transmits a roaming position response (MDN, IMSI, pos) including the obtained roaming position value pos to the LM 300 (S51).

The LM 300 transmits a POS request (MDN, IMSI, pos), which is a GPS-based location request including the obtained roaming position value pos, to the SLP 400 (S52).

The SLP 400 receives a POS request (MDN, IMSI, pos), which is a GPS-based location request, and reserves a session, and then transmits a POS response (MDN, IMSI, pos), which is a GPS-based location response, to the LM 300. (S53).

After step S53, the LM 300 transmits SLP information (IP, PORT) including the IP address and port information of the SLP to which the roaming terminal 800 communicates to the LBSP 200 (S54). .

Accordingly, the LBSP 200 transmits SLP information (IP, PORT) to the service server 100 (S55).

The service server 100 transmits the SLP information (IP, PORT) to the roaming terminal 800 (S56).

The SLP 400 sets an initial call flow between the roaming terminal 800 and the SLP 400 through the Secure User Plane (SUPL) protocol, which is a protocol defined by the OMA International Standard (SET Initiated Call) (S57). POS Indication (MDN) including the calculated position result value by transmitting / receiving satellite information for positioning and calculating the final position of the roaming terminal 800 using the roaming terminal 800 and the transmitted / received satellite information. IMSI, posResult) is transmitted to the LM 300 (S58).

The service server 100 transmits a location re-request (LOCA_FINDPOS) to the LBSP 200 (S59).

The LBSP 200 transmits a location re-request (LBSP BIE-IOP Protocol (MQ)) to the LM 300 (S60). The process of steps S59 and S60 is a preliminary procedure for preventing the session connection between the service server 100 and the LM 300 being interrupted.

According to steps S59 and S60, the LBSP 200 performs a position result response ((x, y) LBSP BIE-IOP Protocol (MQ)) reflecting the POS Indication which is the position result value calculated in step S58. 300) (S61).

Upon receipt of step S61, the LBSP 200 transmits the location result (coordinate, address, map) to the service server 100 (S62).

Accordingly, the service server 100 generates the information including the map information with the calculated position result value and transmits it to the roaming terminal 800 (S63).

3 is a flowchart illustrating a second method (NI method) of roaming determination methods for obtaining roaming subscriber location information of a GPS-based OMA H-SLP method according to another embodiment of the present invention. The roaming terminal 800 transmits a service request to the service server 100 (S70).

The service server 100 receiving the roaming request transmits a location request (LOCAL_FINDPOS) to the LBSP 200 (S71).

After the authentication process of the roaming terminal 800, the LBSP 200 transmits a location request (LBSP BIE-IOP Protocol (MQ)) to the LM 300 (S72).

The LM 300 transmits a POS Request (MDN, IMSI), which is a location request, to the SLP 400 (S73). Here, the POS request includes a mobile directory number (MDN) and international mobile station identity (IMSI) information of the terminal 800.

The SLP 400 transmits an SMS transmission request (roam_bit = set) to the MP 650 (S74), and the SMS transmission request includes a message for asking whether the terminal 800 roams.

When the MP 650 returns an SMS transmission response (Ack) to the SLP 400 (S75), the SLP 400 transmits a POS response (MDN, IMSI, Ack), which is a location response, to the LM 300 (S76). ).

When the MP 650 roams by determining whether the roaming terminal 800 roams according to an SMS transmission request (roam_bit = set), the MP 650 transmits an SMS transmission result (actually, Roaming) to the SLP 400 (S77).

Accordingly, the SLP 400 transmits a roaming response POS Indication (roaming response) to the LM 300 (S78).

The LM 300 determines whether the terminal 800 roams to the foreign country or the domestic country by using the roaming response included in the POS Indication according to step S79 and determines that the LM 300 is roaming to the GMLC 500 as the MDN (Mobile Directory Number). And a GPS Roam Reqest (MDN, IMSI), which is a roaming information request including the IMSI (International Mobile Station Identity) information (S79). Accordingly, the LM 300 may reduce the load of the GMLC 500 for GPS Roam Reqest (MDN, IMSI) reception by transmitting the GPS Roam Reqest (MDN, IMSI) to the GMLC 500 only when roaming. have.

The LM 300 receives a GPS Roam Response (MDN, IMSI, Roaming Information (MSC, SGSN)), which is a roaming information response including a Mobile Switcing Center (MSC) and a Serving GPRS Support Node (SGSN) from the GMLC 500. In operation S80, the LBSP 200 transmits a roaming response (MSC, SGSN) including a mobile switcing center (MSC) and a serving GPRS support node (SGSN) (S81).

Accordingly, the LBSP 200 transmits a roaming response (MSC, SGSN) including a Mobile Switcing Center (MSC) and a Serving GPRS Support Node (SGSN) to the service server 100 (S82).

After checking the roaming position positioning of the roaming terminal 800, the service server 100 transmits a roaming position request (LOCA_FINDPOS) for the roaming position positioning to the LBSP 200 (S83).

The LBSP 200 transmits a roaming position request (LBSP BIE-IOP Protocol (MQ)) for roaming position positioning to the LM 300 (S84).

The LM 300 transmits a roaming location request (MDN, IMSI) requesting a roaming location value po, which is an actual location request value of the roaming terminal 800, to the H-PG 600 (S85).

Accordingly, the H-PG 600 obtains a roaming position value po of the roaming terminal 800 through the V-PG 700 and the OMA RLP (S86).

The H-PG 600 transmits a roaming position response including the obtained roaming position value pos to the LM 300 (S87).

The LM 300 transmits a POS request (MDN, IMSI, pos), which is a GPS-based location request, to the SLP 400 including the obtained roaming position value pos (S88).

When the SLP 400 transmits an SMS transmission request (roam_bit = unset) to the MP 650 (S89), the MP 650 transmits an SMS transmission response (Ack) as a result. Accordingly, the SLP 400 transmits an SMS to the terminal 800 (S91). Here, according to the SMS transmission request of the SLP 400 to the MP 650, the roam bit of the MP 650 is unset.

The SLP 400 transmits a triggering message to the roaming terminal 800 through the MP 650 (S91), and the terminal 910 receiving the triggering message connects to the SLP 400 after TCP / IP setting ( See step S94 to be described later).

On the other hand, the SLP 400 according to the reception of the POS request (MDN, IMSI, pos), which is a GPS-based location request (see S88), the POS response (MDN, IMSI, pos), which is a GPS-based location response, to the LM 300. It is transmitted (S92).

After the step S91, the MP 650 transmits an SMS transmission result (success) indicating the SMS transmission success to the terminal 800 to the SLP 400 (S93).

The SLP 400 establishes an initial call flow between the roaming terminal 800 and the SLP 400 through the SUPL protocol (SET Initiated Call) (S94), and transmits / receives satellite information for positioning by using the roaming terminal. The final position of the roaming terminal 800 is calculated using the 800 and the transmitted / received satellite information, and the POS Indication (MDN, IMSI, posResult), which is the calculated position result value, is transmitted to the LM 300 (S95). .

The service server 100 transmits a location re-request (LOCA_FINDPOS) to the LBSP 200 (S96).

The LBSP 200 transmits a location re-request (LBSP BIE-IOP Protocol (MQ)) to the LM 300 (S97). The process of steps S96 and S97 is a preliminary procedure for preventing the session connection between the service server 100 and the LM 300 being interrupted.

According to steps S96 and S97, the LBSP 200 LM determines the location result response ((x, y) LBSP BIE-IOP Protocol (MQ)) in which the location result value (POS Indication) calculated in step S95 is reflected. Received from 300 (S98).

Upon receipt of step S98, the LBSP 200 transmits the location result (coordinate, address, map) to the service server 100 (S99).

Accordingly, the service server 100 transmits the information including the map of the roaming terminal 800 to the roaming terminal 800 by including it in the map information with the calculated location result value (S100).

While the present invention has been described with reference to preferred embodiments of the present invention, various modifications, changes, and modifications will be possible without departing from the scope of the present invention as set forth in the claims of the present application. In particular, embodiments of the present invention have been disclosed for the case of 2G and 3G mobile communication networks, but may be applied according to the same principle regardless of the other various types of intelligent networks.

100: service server 200: LBSP
300: LM 400: SLP
500: GMLC 600: H-PG
650: MP 700: V-PG
800: UE

Claims (5)

A first step of transmitting, by the terminal, the service request including the country / network information among the identification numbers of the terminal to the service server;
A second step of the service server transmitting a location request to the LBSP including the country / network information;
A third step of transmitting, by the LBSP, a location request including the country / network information to the LM when the authentication process of the terminal is completed; And
When the LM determines that the terminal roams outside the country by using the country / network information included in the location request received from the LBSP, and determines that the terminal is roaming outside the country, GMLC of the area roaming by the terminal Transmitting a GPS Roam Reqest, which is a roaming information request including a Mobile Switching Center (MSC) and a Serving GPRS Support Node (SGSN); Roaming determination method for acquiring roaming subscriber position information of GPS-based OMA H-SLP method comprising a.
According to claim 1, wherein the country / network information,
Roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information, characterized in that the MCC (Mobile Country Code) and MNC (Mobile Network Code) information.
The method of claim 2, wherein in the fourth step,
GPS-based OMA, if the LM is roaming determination, if the MCC (Mobile Country Code) and the MNC (Mobile Network Code) is a code corresponding to a foreign country other than domestic, it is determined that the target terminal roamed to the foreign country Roaming determination method for obtaining roaming subscriber location information of H-SLP method.
When the terminal transmits a service request to a service server, the service server transmits a location request (LOCAL_FINDPOS) to the LBSP;
A second step of transmitting, by the LBSP, a location request (K HUB BIE-IOP Protocol (MQ)) to the LM when the authentication process of the terminal is completed;
A third step of the LM transmitting a POS request to an SLP;
Transmitting, by the SLP, an SMS transmission request (roam_bit = set) including a message for asking the MP whether the terminal roams;
A fifth step of transmitting, by the SLP, a POS response that is a location response to the LM according to the return of an SMS transmission acknowledgment (Ack) to the SLP of the MP;
A sixth step of transmitting the SMS transmission result to the SLP when the MP roams by determining whether the terminal roams according to the SMS transmission request (roam_bit = set); And
A seventh step of the SLP sending a POS Indication that is a roaming response to the LM; Roaming determination method for acquiring roaming subscriber position information of GPS-based OMA H-SLP method comprising a.
The method according to claim 4, which is performed after the seventh step,
An eighth step of transmitting a GPS Roam Reqest, which is a roaming information request including a mobile switching center (MSC) and a Serving GPRS Support Node (SGSN) of an area roamed by the GMLC, when the LM determines that the roaming service is roaming; Roaming determination method for obtaining GPS-based OMA H-SLP roaming subscriber location information further comprising a.

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