KR20140041052A - System for measuring location of mobile terminal and method using thereof - Google Patents

Abstract

The present invention provides a method and system for measuring the location of a terminal. The method includes the steps of: enabling a mobility management entity to receive a subscriber location request message from a gateway mobile location server; enabling the mobility management entity to obtain identification information of a base station to which a target terminal belongs through paging; enabling the mobility management entity to request the location information of the base station from a serving mobile location server; and enabling the mobility management entity to return the location information of the base station to the gateway mobile location server if the location information of the base station is received from the serving mobile location server. [Reference numerals] (S301,S307) Location query request; (S304) Subscriber location request; (S306) Base station information request; (S308) Base station location information; (S309) Base station location response; (S310) Subscriber location response; (S311) Location query response

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a system and method for acquiring location information of a terminal,

The present invention relates to a wireless access system, and more particularly, to a system and method for acquiring location information of a terminal that performs location measurement of a terminal using paging.

LBS (Location Based Service) technology has been developed based on various positioning infrastructures through development of mobile communication technology and advanced positioning technology. In particular, GPS technology is open to the public free of charge, and due to policy support from around the world, LBS is becoming a major application service in the field of mobile communication.

In order to provide the LBS, it is essential to acquire the location information of the terminal. The method of acquiring location information of a conventional terminal has utilized a method using a GPS satellite, a method using a mobile communication environment, and a proximity to a fixed object such as a wireless LAN. Although the method using proximity to fixed objects such as GPS popular method and wireless LAN is more accurate than the method using mobile communication environment in terms of accuracy, the GPS technique is used when the satellite signal of GPS is not received or the signal is attenuated large There is a disadvantage that it can not. The positioning technique using the signal strength information of the wireless LAN is advantageous to utilize the existing wireless Internet infrastructure but it can not be used in a region where the wireless LAN is not installed and it has a disadvantage that it must be built along with the database.

The positioning technique using the mobile communication environment can cover almost every place of life and it does not need any additional equipment, but it has a relatively inaccurate accuracy in terms of accuracy.

Furthermore, in the fourth generation mobile communication technology, no separate standard for the positioning technique using the mobile communication environment is defined. Accordingly, the present invention proposes a positioning technique using a mobile communication environment in an evolved mobile communication network.

The present invention provides a terminal positioning system applicable to a fourth generation mobile communication environment.

More specifically, the present invention is to improve the accuracy of position measurement when measuring a terminal position using a mobile communication environment.

Furthermore, the present invention is intended to provide a system capable of simply measuring the position of a terminal through paging.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

According to another aspect of the present invention, there is provided a method for acquiring terminal location information, the method including: receiving a subscriber location request message from a gateway mobile location server; Acquiring identification information of a base station to which the target terminal belongs by paging the mobility management entity; The mobility management entity requesting location information of the base station to a serving mobile location server; And returning the location information of the base station to the gateway mobile location server when the mobility management entity receives location information of the base station from the serving mobile location server.

In this case, the paging step may include: the mobility management entity transmitting a paging message to the base station; Broadcasting the paging message by the base station; Connecting the target terminal to the base station; And transmitting, when the target terminal accesses the base station, the base station information message including the base station identifier to the mobility management entity.

The target terminal may attempt to connect to the base station only when it is determined that the paging message is to call itself.

Further, the serving mobile location server may receive location information of the base station corresponding to the pager identifier from the location information storage server.

At this time, the location information storage server may read the location information of the base station corresponding to the base station identifier from the database mapped with the base station location information for each base station identifier.

Here, the location information of the base station may be a geographical location of the base station including latitude and longitude values.

A load-aware channel switching (LCS) algorithm may be applied to the communication between the gateway mobile location server and the mobility management entity, and the base station may be an antenna base station (RRH).

The technical solutions obtained by the present invention are not limited to the above-mentioned solutions, and other solutions not mentioned are clearly described to those skilled in the art from the following description. It can be understood.

The present invention can provide a terminal positioning system applicable to a fourth generation mobile communication environment.

Specifically, the present invention can improve the accuracy of position measurement when measuring a terminal position using a mobile communication environment.

Furthermore, the present invention can provide a system capable of simply measuring the position of a terminal through paging.

The effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description will be.

1 is an exemplary diagram illustrating a distributed network.
2 is a schematic diagram of a terminal positioning system according to the present invention.
3 is a flowchart of the operation of the positioning system shown in Fig.
4 is a diagram for explaining a network trigger service request procedure of the MME.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the terms " part, "" module," and " module ", etc. in the specification mean a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software have.

Embodiments of the present invention may be supported by standard documents disclosed in at least one of the IEEE 802 systems, 3GPP systems, 3GPP LTE and LTE-Advanced (LTE-Advanced) systems, and 3GPP2 systems, which are wireless access systems. That is, the self-explanatory steps or parts of the embodiments of the present invention which are not described in order to clearly illustrate the technical idea of the present invention can be supported by the documents.

The positioning method of the terminal 10 according to the present invention is preferably applied to a distributed network in which a digital base station (DU) 22 and an antenna base station (RRH) 24 are located remotely. 1 is an exemplary diagram illustrating a distributed network. As in the example shown in FIG. 1, the distributed network divides an existing integrated base station into a digital base station 22 and an antenna base station 24, and installs a plurality of antenna base stations 24 in one digital base station 22 It is. One antenna base station 24 can perform the role of a conventional integrated type base station and can exert the same effect as building up more base stations 24 in the same area as the existing integrated type base station. Accordingly, it is expected that traffic reduction of wireless communication, shaded area reduction, and positioning accuracy of the terminal 10 are increased.

Hereinafter, a positioning method of the terminal 10 according to the present invention will be described in detail with reference to the following drawings. In the following example, a user equipment (UE) 10 refers to a positioning object in a wireless access system and includes a device, a mobile station (MS), a mobile terminal, May be interpreted equivalent to a subscriber station (SS) or a mobile subscriber station (MSS). Further, the base station 20 referred to in the following examples may be referred to as a fixed station, a Node B, an evolved Node B (eNB), an Advanced Base Station (ABS), a relay station, an access point, ≪ / RTI >

2 is a schematic diagram of a terminal positioning system according to the present invention. 2, the terminal positioning system according to the present invention includes a location based service platform (LBSP) 100, a gateway mobile location center (GMLC) 200, a home subscriber server A Home Subscriber Server (HSS) 300, a Mobility Management Entity (MME) 400, an Evolved Serving Mobile Location Center (E-SMLC) 500, (ABAS) 600, a base station 20, and a terminal 10 as a positioning target. Although the location information storage server 600 and the serving mobile location server 500 are illustrated as being separate components in the example of FIG. 2 and FIG. 3 described below, the location information storage server 600 may, As shown in FIG.

The LBSP 100 shown in FIG. 2 is a server for providing location information of a terminal 10 as a positioning target. The LBSP 100 receives a request from a subscriber, a content provider, a service provider, You can collect locations. The LBSP 100 can provide various additional services based on the location information of the terminal 10. [ For example, the LBSP 100 can be used for traffic information, location-based advertisements, location-based insurance services, location-based disaster guidance services, and the like, based on location information of the terminal 10. In order to collect the location information of the terminal 10, the LBSP 100 may store the identification information of the terminal 10. The identification information of the terminal 10 may be received from the location information requestor or received from the terminal 10 when the terminal 10 subscribes to the location-based service. The LBSP 100 may transmit the identification information of the terminal 10 to be tracked to the GMLC 200 and request the location information of the terminal 10. [

The LBSP 100 may charge the requester while providing the location information of the terminal 10 to the requester who wants to use the location based service. The billing may vary depending on the number of the terminals 10 that have collected location information and the type of location information service to be provided.

The GMLC 200, which is the first external node of the LBSP 100, acts as a gateway between the exchange network and the location information server. The GMLC 200 may transmit a lighting information request message to the HSS 300.

The HSS 300 is a centralized database for managing subscriber information and includes a registration / change management of the terminal 10, authentication of the terminal 10, a location of the terminal 10 (MME to which the terminal 10 belongs) , Session routing, billing, and the like, or subscriber information for session control.

The MME 400 manages the connection between the terminal 10 and the mobile communication network, and can perform functions such as authentication and mobility management. The authentication function is for authenticating the terminal 10 to be connected to the mobile communication network. The mobility management function is for ensuring the mobility of the terminal 10. Specifically, when the terminal 10 is separated from the serving base station 20 by more than a critical distance (or the signal strength from the neighboring base station 20 is stronger than the signal from the serving base station 20) And may process a handoff procedure for changing the connection of the terminal 10 to the target base station 20. That is, the MME 400 is connected to the base station 20 and can manage the connection between the base station 20 and the terminal 10.

The terminal 10 performs location registration with the base station 20 that is in charge of the currently located area and the base station 20 can provide the mobile communication call with the terminal 10 that has performed the location registration. The base station 20 also transmits location information of the terminal 10, registrant information, a call request, a data transmission request, a wireless Internet access request, etc. to the MME 400 and transmits a call request, data information and the like from the MME 400 And can provide it to the terminal 10.

The E-SMLC 500 may request the location information of the base station 20 communicating with the current terminal 10 to the ABAS 600 based on the base station 20 information received from the MME 400.

The ABAS 600 is for providing location information of the base station 20 to the E-SMLC 500 and the ABAS 600 may include a location information database for storing location information of the base station 20. The location information database may include a base station identifier (e.g., base station identification (ID)) and geographical location information (e.g., latitude and longitude information) for each base station. In the distributed network system as shown in FIG. 1, latitude and longitude information for each RRH 24 may be included in the location information database.

Hereinafter, the operation of the positioning system shown in FIG. 2 will be described in detail with reference to an operation flowchart of the positioning system of FIG.

3 is a flowchart of the operation of the positioning system shown in Fig. Referring to FIG. 3, the LBSP 100 may transmit a location inquiry message of the terminal 10 to the GMLC 200 (S301). The location inquiry request message is for measuring the location of the terminal 10, and may include the identification information of the terminal 10.

The GMLC 200 receiving the location inquiry request message from the LBSP 100 transmits a Routing Information Request (RIR) to the HSS 300 to obtain routing information of the MME 400 to which the terminal 10 belongs, Message (S302). The routing information request message may include identification information of the terminal 10. The HSS 300 may provide a Routing Information Answer (RIA) message to the GMLC 200 in response to the routing information request, including the routing information of the MME 400 to which the terminal 10 belongs (S303). Specifically, the HSS 300 extracts the routing information of the MME 400 that is mapped with the identification information of the terminal 10 in its own database, and transmits the routing information response message.

The routing information request message of the GMLC 200 is a message for requesting the routing information of the MME 400 to access the MME 400. For example, the routing information of the MME 400 may include an IP address and a port number of the MME 400.

A load-aware channel switching (LCS) algorithm may be applied to the data communication between the GMLC 200 and the HSS 300. The GMLC 200 and the HSS 300 collect channel queues and status information of neighboring nodes, respectively, and can communicate with each other using a channel having the least load.

The identification information of the terminal 10 for performing steps S301 through S303 may include any one of a terminal's telephone number, International Mobile Equipment Identity (IMEI), and International Mobile Subscriber Identity (IMSI).

Referring back to FIG. 3, the GMLC 200 may transmit a Provide Subscriber Location Request message to the MME 400 corresponding to the routing information received from the HSS 300 (S304). The MME 400 having received the subscriber location request message from the GMLC 200 can acquire the location of the terminal 10 through a network triggered service request procedure, that is, paging (S305 ). Paging refers to a function of identifying a position (for example, which base station 20 or a central office, etc.) of the corresponding terminal 10 when an incoming call is generated in mobile communication. The MME 400 transmits a Network Triggered Service Request procedure to a plurality of Base Stations (BS) 20 supporting Idle Mode, (20) information message including an identifier of the base station (20).

The network trigger service request procedure between the MME 400 and the base station 20 will be described with reference to FIG.

In the broadband wireless access system, idle mode is supported in order to minimize the power consumption of the terminal 10. The idle mode is a state in which the UE 10 can receive downlink (DL) broadcast traffic even if it does not register with the specific base station 20 when moving in a radio link environment composed of multiple base stations 20. During the idle mode, the terminal 10 does not need to perform a handoff procedure when moving between the base stations 20 included in the same paging zone. Therefore, since the mobile terminal 10 does not need to transmit uplink information for the handoff procedure, the power consumption can be reduced.

A paging group may include one or more base stations 20, and one base station 20 may be included in one or more paging groups. The paging group is defined in the management system. The paging group can use the paging group-action backbone message. Also, the paging controller can manage the list of the terminals 10 in the idle mode using the paging-announce message, which is one of the backbone network messages, and manage the initial paging of all the base stations belonging to the paging group.

When the terminal 10 requests the base station 20 to switch to the idle mode, the base station 20 can switch the terminal 10 to the idle mode by transmitting its paging group ID .

When downlink data to be transmitted to the idle terminal 10 occurs while the terminal 10 is in the idle mode, the MME 400 may transmit a paging message to all the base stations 20 in the paging group S401). In step S402, the base stations 20 in the paging group receiving the paging message broadcast the paging advertisement message to the terminals 10 managed by the base stations 20 through the paging channel (PCH). The terminal 10 set to the idle state may periodically monitor the paging channel to determine whether the broadcasted paging message is to page itself. When receiving a paging message calling itself (S403), the terminal 10 enters a normal mode and can perform communication with the base station 20. [ At this time, the base station 20 to which the terminal 10 in the steady state is connected can transmit a base station information message including its identifier to the MME 400 (S404).

3, the MME 400 receiving the base station information message through paging can transmit an AP Location Request message including the base station 20 identifier to the E-SMLC 500 (S306). The E-SMLC 500 may request location information of the base station corresponding to the identifier of the base station 20 with the ABAS 600 (S307). The ABAS 600 that has requested the location information of the base station 20 from the E-SMLC 500 can provide the location information of the base station 20 corresponding to the identifier of the base station 20 to the E-SMLC 500 (S308 ). The E-SMLC 500 receiving the location information of the base station 20 from the ABAS 600 transmits an AP Location Response message including the location information of the base station 20 in response to the location request message of the base station 20 MME 400 (S309).

The above-described Load-aware Channel Switching (LCS) algorithm may be applied to the data communication between the MME 400 and the E-SMLC 500. Accordingly, the MME 400 and the E-SMLC 500 collect channel queues and status information of neighboring nodes, respectively, and perform mutual communication using channels having the least load.

In response to the subscriber location request message, the MME 400 may transmit a Provide Subscriber Location Response message including the location information of the base station 20 to the GMLC 200 (S310).

In response to the location inquiry request message, the GMLC 200 may provide the location inquiry response message including the location information of the base station 20 to the LBSP 100 (S311).

The LBSP 100 regards the location information of the base station 20 included in the location inquiry response message as location information of the terminal 10 and can provide various additional services based on the location information of the terminal 10. [ As described above, the LBSP 100 can provide the terminal 10 with services such as traffic information, location based advertisement, location based insurance service, location based disaster guidance service, and the like.

In the above-described embodiment, the base station 20 includes a terminology such as a fixed station, a NodeB, an evolved NodeB, an advanced base station (ABS), a relay station, an access point, As shown in FIG. In particular, when the present invention is applied to a distributed network environment in which the RRH 24 and the DU 22 are separated, the base station 20 may be replaced with an RRH 24. [ That is, in the environment where the RRH 24 and the DU 22 are separated from the integrated base station 20, the location of the RRH 24 may be set to be returned to the location of the terminal 10. As described above with reference to Fig. 1, since a plurality of antennas can be placed in coverage that can be covered by one integrated base station 20, positioning accuracy of the terminal 10 can be improved.

Embodiments in accordance with the present invention may be implemented by various means, for example, hardware, firmware, software, or a combination thereof. In the case of hardware implementation, the paging method according to an embodiment of the present invention may include one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices ), FPGAs (field programmable gate arrays), processors, controllers, microcontrollers, microprocessors, and the like.

In the case of firmware or software implementation, the positioning method according to an embodiment of the present invention may be implemented in the form of a module, a procedure, a function, or the like for performing the functions or operations described above. The software code can be stored in a memory unit and driven by the processor. The memory unit may be located inside or outside the processor, and may exchange data with the processor by various well-known means.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Accordingly, the above description should not be construed in a limiting sense in all respects and should be considered illustrative. The scope of the present invention should be determined by rational interpretation of the appended claims, and all changes within the scope of equivalents of the present invention are included in the scope of the present invention.

It is clear that the claims that are not expressly cited in the claims may be combined to form an embodiment or be included in a new claim by an amendment after the application.

10: Terminal
20: Base station
22: digital base station (DU)
24: antenna base station (RRH)
100: Location-based service server (LBSP)
200: Gateway Mobile Location Server GMLC
300: Home Subscriber Server (HSS)
400: Mobility Management Entity (MME)
500: Evolved Serving Mobile Location Server (E-SMLC)
600: Location information storage server (ABAS)

Claims (20)

The mobility management entity receiving a subscriber location request message from a gateway mobile location server;
Acquiring identification information of a base station to which the target terminal belongs by paging the mobility management entity;
The mobility management entity requesting location information of the base station to a serving mobile location server; And
And returning the location information of the base station to the gateway mobile location server when the mobility management entity receives location information of the base station from the serving mobile location server
Terminal location information acquisition method comprising a. The method of claim 1, wherein the paging step,
The mobility management entity sending a paging message to the base station;
Broadcasting the paging message by the base station;
Connecting the target terminal to the base station; And
When the target terminal accesses, transmitting, by the base station, a base station information message including a base station identifier to the mobility management entity;
Terminal location information acquisition method comprising a. 3. The method of claim 2,
Wherein the target terminal attempts to connect to the base station only when it is determined that the paging message is to call itself. The method of claim 2, wherein the serving mobile location server,
And receiving location information of the base station corresponding to the base station identifier from a location information storage server. The method of claim 4, wherein the location information storage server,
And the location information of the base station corresponding to the base station identifier is read from the database mapped with the base station location information for each base station identifier. 5. The method of claim 4,
Wherein the location information of the base station is a geographical location of the base station including latitude and longitude values. The method according to claim 1,
The gateway mobile location server receiving a location inquiry message of the target terminal from a location based service server;
The gateway mobile location server requesting routing information of a mobility management entity to which the target terminal belongs to a home subscriber server; And
Wherein the gateway mobile location server further comprises receiving routing information of the mobility management entity from the home subscriber server. The method of claim 7, wherein
Wherein the routing information includes an IP address and a port address of the mobility management entity. The method according to claim 1,
Wherein a load-aware channel switching (LCS) algorithm is applied to communication between the gateway mobile location server and the mobility management entity. The method according to claim 1,
And the base station is an antenna base station. A location information storage server for storing geographical location information for each base station;
A mobility management entity for obtaining identification information of a base station to which a target terminal belongs through paging; And
A location information server for receiving the location information of the base station from the location information server and returning the location information of the base station to the mobility management entity when the location information of the base station is requested from the mobility management entity,
Terminal location information acquisition system comprising a. 12. The method of claim 11 wherein the paging is
When the base station receives the paging message from the mobility management entity,
The base station broadcasting the paging message,
And when the target terminal accesses the base station, the base station transmits a base station information message including a base station identifier to the mobility management entity. 13. The method of claim 12,
Wherein the target terminal attempts to connect to the base station only when it is determined that the paging message is to call itself. The server of claim 12, wherein the serving mobile location server comprises:
And receiving location information of the base station corresponding to the base station identifier from a location information storage server. 15. The method of claim 14,
Wherein the location information of the base station is a geographical location of the base station including latitude and longitude values. The method of claim 11,
A location based service server for providing a location based service based on the location information of the target terminal; And
When the location inquiry of the target terminal is requested from the location based service server,
Gateway mobile location server for transmitting a subscriber location request message requesting the location of the target terminal to the mobility management entity
Terminal location information acquisition system further comprising. 17. The method of claim 16,
Further comprising a home subscriber server for providing the gateway mobile location server with routing information of the mobility management entity to which the target terminal belongs. The method of claim 17,
Wherein the routing information includes an IP address and a port address of the mobility management entity. 17. The method of claim 16,
Wherein a load-aware channel switching (LCS) algorithm is applied to communication between the gateway mobile location server and the mobility management entity. The method of claim 11,
Wherein the base station is an antenna base station (RRH).

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