KR100695208B1 - Method for Position Detection in Indoor Environment by Using Heterogeneous Access Points - Google Patents

Abstract

The present invention relates to a method for identifying location information indoors using heterogeneous APs.

To this end, the present invention comprises the steps of (a) receiving a location information service request signal from the mobile communication terminal through the LBSP server; (b) identifying a location of the mobile communication terminal through the PDE; (c) receiving a unique identification number of the heterogeneous AP covering the mobile communication terminal through the ILIS if it is determined that the mobile communication terminal is located inside the building as a result of checking the location of the mobile communication terminal; (d) checking whether there is a unique identification number, and if there is a unique identification number, confirming mounting position information of an AP having a unique identification number through ILIS; And (e) calculating location information of the mobile communication terminal based on the mounting location information of the AP, and providing a location information service to the mobile communication terminal through the mobile communication network.

According to the present invention, when the mobile communication terminal is located in the GPS receiving sound region, it is possible to solve the problem that the location is not confirmed, and it is possible to accurately distinguish between the mobile communication terminal and the floor by using various models of beacons, and the positioning range. Is also enlarged.

AP, Access Point, Beacon, Geolocation, LBS, Indoor Location Tracking

Description

Method for checking position information indoors using heterogeneous API {Method for Position Detection in Indoor Environment by Using Heterogeneous Access Points}

1 is an exemplary diagram of a mobile communication terminal screen provided with a friend search service using a location information checking function of a mobile communication terminal;

2 is a view schematically showing a system for checking location information indoors using heterogeneous APs according to a preferred embodiment of the present invention;

3 is a flowchart illustrating a method of confirming location information indoors using heterogeneous APs according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

210: beacon 220: mobile communication terminal

230: mobile communication network 232: radio base station

234: exchanger 236: home location register

238: PDSN 240: gateway

242: PDE 244: MPC

246: LBSP server 248: NMS

250: ILIS 252: Internet Network

260: content provider

The present invention relates to a method for identifying location information indoors using heterogeneous APs. More specifically, when the mobile communication terminal is located indoors in the location-based service, the location information in the room using a heterogeneous AP that receives a unique identification number from the beacons of various models and checks the location of the mobile communication terminal using the same. It is about a confirmation method.

Recently, in order to provide communication services such as the Internet beyond the space, many companies are spurring the development of a new technology called wireless Internet. Wireless Internet refers to an environment and technology that enables users to use Internet services through a wireless network while the user is on the move. The development of mobile communication technology and the rapid increase in the penetration rate of mobile communication terminals further promoted the development of this wireless Internet environment.

Meanwhile, among various wireless Internet services using a mobile communication terminal, location based services (LBS) have gained much attention due to their wide utility and convenience. Location-based service refers to a communication service that locates a mobile communication terminal such as a mobile phone, a personal digital assistant (PDA), a notebook PC, and provides additional information related to the identified location. Location-based services include rescue requests, crime reports, friend location, location loss when a mobile terminal is lost, Geographical Information System (GIS) for providing proximity information, differential pricing of mobile communication charges based on location, and traffic information. It can be used in various fields and situations, such as vehicle navigation and logistics control, and location-based customer relationship management (CRM).

Currently, a representative service among a plurality of location-based services provided through the wireless Internet is a friend search service. The friend finder service is a service that displays the location of a mobile communication terminal holder by checking the location information of a friend or acquaintance requested by a location-based system and displaying it on a map.

1 is an exemplary diagram of a mobile communication terminal screen provided with a friend search service using a location information checking function.

First, a user who wants to check the location of a friend or acquaintance connects to the wireless Internet using a mobile communication terminal. Wireless Internet is one of 'NATE' provided by SK Telecom, 'Magic-N' of KTF and 'EZ-i' provided by LG Telecom. When the user selects a location service among the initial menus provided by accessing the wireless Internet, the user is provided with a screen of 1A. The user selects the '② Find a friend' service through the top-down method on the screen of 1A and is provided with the screen of 1B. The user selects a menu for finding a counterpart's location using a friend's phone number among the displayed menus, and inputs a phone number of a mobile communication terminal for which location is to be checked through the screen of 1C provided. When the phone number is input, the mobile communication network checks the location information of the mobile terminal to confirm the location having the input phone number, and provides it to the user's mobile terminal. The user mobile communication terminal displays the received location information on the map such as 1D.

In order to provide such a service, the mobile communication system needs a task of acquiring the location information of the mobile communication terminal to which the location is requested to be identified. Location Determination Technology (LDT) is a technology for identifying the location of a mobile communication terminal. It is a network-based method using a base station received signal and a handset based using a Global Positioning System (GPS) signal. -Based) method, and recently, a hybrid method that combines the two technologies to improve the position accuracy has been developed.

The network-based method does not need to add a new module to an existing mobile communication terminal, and thus does not require additional cost for developing a mobile communication terminal. However, the position error depends on the cell size or location determination method of a wireless base station. The disadvantage is that the accuracy is reduced to about 500 m to several km.

Therefore, it is not suitable for services that require the exact location of mobile terminals such as rescue requests, crime reports, friend location, lost location, geographic information systems, traffic information, car navigation, logistics control, and location-based CRM. not. Therefore, a handset based method using a GPS signal has been used as a method of searching for accurate location information of a mobile communication terminal.

GPS is a system that can be located anywhere in the world by 24 GPS satellites orbiting the earth at an altitude of about 20,000 kilometers. GPS uses radio waves in the 1.5 GHz band, and has a coordination center called Control Station on the ground to collect and synchronize the information transmitted from the GPS satellites. do. In general, triangulation is used as a method of positioning using a GPS system. Three GPS satellites are required for triangulation, and a total of four GPS satellites are required, including one observation satellite for time error.

In more detail, since the GPS already knows the position of each of the three GPS satellites, the GPS is measured by positioning the distance between the GPS satellites and the GPS receiver. Since the distance from the GPS satellite to the GPS receiver is transmitted from the GPS satellite, the propagation time can be known from the difference between the time when the radio wave is transmitted from the GPS satellite and the time received by the GPS receiver having the built-in clock. Multiply the speed of light to calculate the distance.

In order to check the position of the GPS terminal using such a handset-based method, the mobile communication terminal must have a built-in GPS receiver for receiving radio waves from a GPS satellite.

However, the handset-based method requires the GPS terminal to receive radio waves from the GPS satellites in order to determine the location of the GPS terminal. If located, there is a problem that can not be located. Therefore, when a service for requesting location information of a GPS terminal located in a GPS reception shadow area is requested, the mobile communication system may not provide a corresponding service. In order to improve this, a method of positioning a mobile communication terminal using a beacon using a LD (Location Detector) is used.However, a method using an LD has a high cost of equipment and difficulty in distinguishing between floors. There is a need for a technology that can lift up this gap, have a small margin of error, and can even distinguish between layers.

In order to solve this problem, the present invention, when the mobile communication terminal is located indoors in the location-based service, using a heterogeneous AP to receive the unique identification number from the beacons of various models to determine the location of the mobile communication terminal using the same Its purpose is to provide a method for checking location information indoors.

In order to achieve the above object, the present invention, when a mobile communication terminal is located in a room where a heterogeneous access point (AP) is installed, a position determining entity (PDE) for storing the location information of the mobile communication terminal, a base station of the region where the mobile communication terminal NMS (Network Management System) that stores information, Intergrated LBS Indoor Solution (ILIS) that stores information about the location of multiple APs, and mobile communication terminal location information to manage location information services to provide location information services and A method of identifying location information of a mobile communication terminal in a room using a heterogeneous AP providing a location information by using a local based system platform (LBSP) server to connect and providing location information. Receiving a location information service request signal from a mobile communication terminal through; (b) identifying a location of the mobile communication terminal using the PDE; (c) receiving a unique identification number of the heterogeneous AP covering the mobile communication terminal through the ILIS if it is determined that the mobile communication terminal is located inside the building as a result of checking the location of the mobile communication terminal; (d) checking whether there is a unique identification number, and if there is a unique identification number, confirming mounting position information of an AP having a unique identification number through ILIS; And (e) calculating location information of the mobile communication terminal based on the mounting location information of the AP, and providing location information service to the mobile communication terminal through the mobile communication network. Provides a method of confirming location information of a mobile communication terminal.

In addition, in order to achieve another object of the present invention, when the mobile communication terminal is located indoors, the mobile terminal is provided with a unique identification number from a heterogeneous access point (AP) in a room using a heterogeneous AP for identifying the location of the mobile communication terminal. A positioning system of a mobile communication terminal, comprising: an AP installed in a building in which a mobile communication terminal is located, the beacon transmitting a unique identification number (beacon ID) to the mobile communication terminal when the mobile communication terminal enters a detection range; A position determining entity (PDE) for receiving and storing location information of a mobile communication terminal and drafting location information of the stored mobile communication terminal when a request for providing location information is received; A Local Based System Platform (LBSP) server for receiving location information of the mobile communication terminal and delivering the location information to a content provider, thereby providing location information service to the mobile communication terminal; A NMS (Network Management System) that performs data processing for management / statistics, and stores and manages base station information of a region where a mobile communication terminal is located as BSA (Base Station Almanac) source information; ILIS (Intergrated LBS Indoor Solution) for storing information on the mounting position of the beacons; And a mobile position center (MPC) for delivering GPS information between the PDE, the LBSP server, the NMS, the BSA information, the location information of the mobile communication terminal, the Geographical Information System (GIS), and the management statistical data. Provided is a positioning system of a mobile communication terminal indoors using heterogeneous APs.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

 2 is a diagram schematically illustrating a system for checking location information indoors using heterogeneous APs according to a preferred embodiment of the present invention.

The system for checking indoor location information using a heterogeneous AP according to the present invention includes a beacon 210, a mobile communication terminal 220, a mobile communication network 230, and a content provider 260. Herein, the mobile communication network 230 includes a wireless base station 232, a switch 234, a home location register 236, a packet data serving node 238, a gateway 240, a position determining entity (PDE) 242, and an MPC ( Mobile Position Center (244), Local Based System Platform (LBSP) server 246, Network Management System (NMS) 248, and Intergrated LBS Indoor Solution (ILIS) 250, gateway 240 and LBSP The server 246 is connected to the Internet network 252.

The beacon 210 is an Access Point (AP) installed in a ship, an aircraft, or a building to assist in location identification by automatically or manually transmitting an alarm signal. In the present invention, the beacon 210 is located in a mobile communication terminal 220 located indoors. One or more heterogeneous beacons are installed in the building using technologies such as Location Detector, ZigBee, Bluetooth, and Wireless Fidelity (Wi-Fi) to detect location. When the mobile communication terminal 220 enters the detection range of the beacon 210 located indoors, the mobile communication terminal 220 receives the unique identification number of the beacon 210, that is, the beacon ID and transmits it to the mobile communication network 230. .

The mobile communication terminal 220 is a mobile communication terminal capable of receiving a beacon ID transmitted from heterogeneous beacons such as LD, Zigbee, Bluetooth, and Wi-Fi, and for a predetermined period of time, 5 seconds, 10 seconds, 30 seconds, and 1 minute. The received beacon ID and the mobile identification number (MIN: Mobile Identification Number) of the mobile communication terminal 220 or the mobile terminal unique number (ESN: Electronic Serial Number) is transmitted to the mobile communication network 230 to transmit its own location information. to provide.

In addition, the mobile communication terminal 220 is an MS-Based terminal having a built-in receiver for receiving GPS information from a GPS satellite. The mobile communication terminal 220 generates location information by using GPS information received in a predetermined unit, and generates the generated location information. Stored in an internal flash memory, the mobile communication terminal provides the location information from the flash memory when the location information request is received from the LBSP server 246 through the wireless base station 232 and the switching center 234.

The wireless base station 232 transmits the location information, the registrant information and the call request, the data transmission request, the wireless Internet access request, etc. of the mobile communication terminal 220 to the switch 234, and the call request and data from the switch 234. Information and the like are transmitted to the mobile communication terminal 220. The wireless base station 232 is composed of a base station transmitter, a base station controller and a repeater.

Here, in the case of synchronous, the base station transmitter will be a base transceiver station (BTS), the base station controller will be a base station controller (BSC), in the case of asynchronous, the base station transmitter is a radio transceiver subsystem (RTS), and the base station controller is a radio network (RNC). Controller). Of course, the wireless access network according to the embodiment of the present invention is not limited thereto, and may include a GSM network other than a CDMA network and an access network of a fourth generation mobile communication system to be implemented in the future.

The wireless base station 232 may obtain information such as latitude and longitude at which the base station transmitter is located from the GPS, and transmit the location information to the mobile communication terminal 220 through a parameter message of the forward link call channel. The mobile communication terminal 220 can check the new location information by using the location information of the base station transmitter of the cell to which it belongs. Location registration is performed when the mobile communication terminal 220 is powered on or off, when the mobile communication terminal 220 moves between switching stations, and when the parameters of the mobile communication terminal 220 are changed.

The exchange 234 performs normal call processing functions such as basic and supplementary service processing, incoming and outgoing call processing, location registration procedure and handoff procedure processing, interworking with other networks, and also performs clock distribution for GPS, GPS It performs functions such as transmitting and receiving information and auxiliary data, transmitting location information request signal and location information.

A home location register (HLR) 236 is a database that stores a service profile regarding subscriber information of the mobile communication terminal 220. The home location register (HLR) 236 is a mobile communication terminal including a subscriber's telephone number and mobile communication. It has information about a terminal identification number, a terminal unique number, and a service type of the terminal 220.

A packet data serving node (PDSN) (hereinafter referred to as PDSN) 238 performs a function of providing a data service to the mobile communication terminal 220. The PDSN 238 is an evolution of an inter-working function (IWF) used to support data communication in a 2nd generation (2G) mobile communication system. The PDSN 238 implements the present invention. It is also possible to use a manganese interlock device instead.

The gateway 240 converts the WAP protocol and the Internet TCP / IP (Internet Transmission Control Protocol / Internet Protocol) protocol used in the mobile communication system to connect the PDSN 238 and the Internet network 252.

The PDE 242 receives and stores the location information of the mobile communication terminal 220 from the exchange 234 or the PDSN 238, and then requests for providing the location information of the mobile communication terminal 220 from the LBSP server 246. If there is, performs the function of providing the location information of the stored mobile communication terminal 220. In addition, the mobile communication terminal 220 is responsible for call processing by the IS-801 standard that provides the GPS information received from the GPS satellites to the LBSP server 246.

The MPC 244 serves as a gateway for providing location information service. That is, GPS information, base station location information, terminal location information, GIS information, management / statistical data, and the like are transferred between the PDE 242, the LBSP server 246, and the NMS 248.

The LBSP server 246 is a server connected to the content provider 260 that provides a service based on terminal location information through the Internet network 252, and is connected to the Internet network 252 through a dedicated line.

The LBSP server 246 requests a change request of the location information and the location information of the mobile communication terminal 220 to the PDE 242 through the MPC 244, and the mobile communication terminal 220 is located through the NMS 250. By requesting the location information of the base station of the region, the location information of the identified mobile communication terminal 220 is provided to the content provider 260 and connected to receive the location information related service. In addition, it may include a function of the billing server for calculating the usage fee for the location information service, or may be connected to a separate billing server located outside.

The NMS 248 performs data processing for management / statistics of the location information confirmation system according to the present invention, and is a server for managing base station location information. Here, the base station location information is provided by searching for the location of the mobile communication terminal 220 by displaying the Geographical Information System (GIS) coordinates where each base station is located, and based on the base station coordinates of the region where the mobile communication terminal 220 is located. Base Station Almanac (BSA) source information that narrows the search range for quick search by calculating the terminal location.

ILIS 250 is a server that stores information about the mounting position of the beacon 210, using the ID of the beacon 210 and the unique number or identification number of the mobile communication terminal transmitted from the mobile communication terminal 220 The server checks the location of the mobile communication terminal and transmits the PDSN 238, the PDE 242, the LBSP server 246, and the mobile communication terminal 220.

The content provider (CP) 260 performs mobile communication through the Internet network 252 for additional information according to the location information service, that is, road information, location of major public offices, location of major shopping malls, convenience facilities, and speed camera location. Function to provide to the terminal 220.

 3 is a flowchart illustrating a method of confirming location information indoors using heterogeneous APs according to a preferred embodiment of the present invention.

The user of the mobile communication terminal 220 selects a location information service menu from various menus of the mobile communication terminal 220 equipped with a location-based applet in order to receive the location information service. When the location information service menu is selected, the mobile communication terminal 220 transmits a location information service request signal to the LBSP server 246 of the mobile communication network 230. At this time, the terminal identification number (MIN) or the terminal unique number (ESN) of the mobile communication terminal 220 is provided to the LBSP server 246 (S302).

Upon receiving the location information service request signal, the LBSP server 246 requests the PDE 242 to provide location information of the mobile communication terminal 220 through the MPC 244 or the NMS 248. At this time, the location information of the mobile communication terminal 220 requested to the PDE 242 is the schematic location information of the network-based method (S304).

The PDE 242 checks the approximate location information of the mobile communication terminal 220, and if it is determined that the mobile communication terminal 220 is located inside the building, the ILIS 250 for accurate calculation of the location of the mobile communication terminal 220. Request information of the beacon ID (S306). At this time, it is determined whether the location information of the mobile communication terminal 220 is stored in the PDE 242, and the location information is stored. If the stored location information is determined to be the latest location information, the location information may be provided. have.

The ILIS 250, which has received the beacon ID information from the PDE 242, requests the beacon ID information from the mobile communication terminal 220 through the wireless base station 232 (S308). The mobile communication terminal 220 checks beacon IDs of various models covering the area where it is located, and transmits the beacon ID information of all the identified models to the ILIS 250 (S310).

When one or more beacon IDs are transmitted to the ILIS 250, the transferred beacon IDs and terminal information are transmitted to the LBSP server 246 (S312), and the LBSP server 246 checks whether a beacon ID exists (S314). .

If it is determined that the beacon ID does not exist, i.e., if the beacon ID is displayed as Null, this means that the mobile communication terminal 220 is located outside the building or inside the building where the beacon 210 is not installed. , Or indicates that the beacon 210 is located in an area outside the range of the area in charge. Accordingly, if the beacon ID is null, the LBSP server 246 requests the PDE 242 to check the location information of the mobile communication terminal 210 through another method (S316).

In this case, the PDE 242 requests the location information from the mobile communication terminal 220 (S318) and checks the location information of the mobile communication terminal 220 in a manner according to the IS-801 standard. In this case, a network-based method using a base station reception signal, a handset-based method using a GPS signal, or a hybrid method in which the two technologies are mixed may be used.

When the location information of the mobile communication terminal 220 is confirmed, the measured location information is transmitted to the PDE 242 (S320), and the PDE 242 sends the location information of the mobile communication terminal 220 to the LBSP server 246. Provided (S322).

Here, in step S314, the mobile communication terminal 220 is located within the coverage of the beacon 210 in the building in which the beacon 210 is installed, and confirms the presence of the beacon ID, if the beacon ID exists, that is, beacon ID Is not Null, the LBSP server 246 requests the mounting location of the beacon 210 having the beacon ID identified by the ILIS 250, that is, the GIS coordinates (S324).

The ILIS 250 extracts the location information of the beacon 210 having the requested beacon ID and provides the LBSP server 246 according to the request for providing the location information of the beacon 210 of the LBSP server 246. do. To this end, the ILIS 250 should store the ID of the beacon installed in advance and the GIS coordinates where the beacon is located (S326).

 The LBSP server 246, which receives the GIS information of the beacon 210 from the ILIS 250 through the step S326, calculates location information of the mobile communication terminal 220. The LBSP server 246 uses the location information of the mobile communication terminal 220 calculated from the GIS information of the beacon 210, or the location information of the mobile communication terminal 220 provided from the PDE 242 through step S322. The content provider 260 is connected to the content provider 260 through the internet network 252, and the location information service of the content provider 260 is provided to the mobile communication terminal 210 using the mobile communication network 230 (S328).

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, when the mobile communication terminal is located indoors in the location-based service, by confirming the location of the mobile communication terminal through the ID of the beacons (AP) of various models installed in the building, When the GPS terminal is located in the GPS receiving sound region, that is, the interior space, the underground space, the tunnel, etc., it is possible to solve the problem of not being able to check the location, and it is possible to distinguish between the exact location and the floor by using various models of beacons. In addition, the positioning range can be expanded.

Therefore, even if the mobile communication terminal user is located in the GPS receiving area and moves to the GPS sound region, the user can receive the location information providing service.

Claims (14)

Position Determining Entity (PDE) that stores the location of the terminal by identifying the location of the mobile communication terminal, Network Management System (NMS) that stores the base station information of the area where the mobile communication terminal is located, Heterogeneous Access Points (APs) in systems including an Integrated LBS Indoor Solution (ILIS) that stores information and a Local Based System Platform (LBSP) server that connects with content providers to provide location information services by managing the terminal location information In the method in the LBSP server to provide the location information of the mobile communication terminal using the heterogeneous AP when the mobile communication terminal is located in the room is installed, (a) receiving a location information service request signal from the mobile communication terminal; (b) identifying a location of the mobile communication terminal from the PDE; (c) acquiring a unique identification number of the heterogeneous AP covering the mobile communication terminal from the ILIS if it is determined that the mobile communication terminal is located in a building; (d) checking whether the unique identification number exists, and if the unique identification number exists, confirming mounting position information of the AP having the unique identification number from the ILIS; And (e) calculating location information of the mobile communication terminal based on mounting location information of the AP and providing the location information service to the mobile communication terminal through a mobile communication network; Position information confirmation method of a mobile communication terminal indoors using a heterogeneous AP comprising a. The method of claim 1, wherein step (a) comprises: When the LBSP server receives the location information service request signal from the mobile communication terminal, simultaneously receiving a mobile identification number (MIN) and a terminal serial number (ESN) of the mobile communication terminal. Location information confirmation method of a mobile communication terminal indoors using a heterogeneous AP characterized in that. According to claim 1, wherein the position identified in step (b) is, The location of the mobile communication terminal in the PDE is location information confirmation method of the indoor mobile communication terminal using a heterogeneous AP, characterized in that the location information roughly calculated through a network-based (Network-Based) method. The method of claim 1, If it is determined in step (c) that the mobile communication terminal is not located inside the building, or if it is determined in step (d) that the unique identification number does not exist, the network-based network provided by the IS-801 standard is provided by the PDE. Indoor mobile communication using a heterogeneous AP, characterized in that the location information of the mobile communication terminal is checked using at least one of a (network-based) method, a handset-based method, or a hybrid method. How to check the location information of the terminal. The method of claim 1, wherein step (d) The location information of the mobile communication terminal using a heterogeneous AP, characterized in that the ILIS to display the mounting location information of the AP in a Geographical Information System (GIS) coordinates to transmit to the LBSP server. The method of claim 1, wherein step (e) If there are a plurality of mounting location information of the AP, all of the identified mounting location information of the plurality of APs are transmitted to the LBSP server, and the LBSP server uses the plurality of AP mounting location information of the mobile communication terminal. A method of confirming location information of a mobile communication terminal in a room using heterogeneous AP, characterized in that for calculating location information. The method of claim 1, The AP is a beacon (Beacon) installed in the building to detect the mobile communication terminal within the detection range, the unique identification number is the location information of the mobile communication terminal indoors using a heterogeneous AP, characterized in that the ID of the beacon checking way. When the mobile communication terminal is located indoors, receiving a unique identification number from a heterogeneous access point (AP) as a location identifying system of the mobile communication terminal indoors using a heterogeneous AP to confirm the location of the mobile communication terminal, An AP installed in a building in which the mobile communication terminal is located, the beacon transmitting a unique identification number (beacon ID) to the mobile communication terminal when the mobile communication terminal enters a detection range; A position determining entity (PDE) for receiving and storing location information of the mobile communication terminal and providing location information of the stored mobile communication terminal when a request for providing location information is received; A Local Based System Platform (LBSP) server for receiving the location information of the mobile communication terminal and delivering the location information service to the content provider, thereby providing the location information service to the mobile communication terminal; A NMS (Network Management System) which performs data processing for management / statistics, and stores and manages base station information of a region where the mobile communication terminal is located as base station Almanac (BSA) source information; ILIS (Intergrated LBS Indoor Solution) for storing information about the mounting position of the beacon; And Mobile Position Center (MPC) for delivering GPS information between the PDE, the LBSP server, the NMS, the BSA information, location information of the mobile communication terminal, Geographical Information System (GIS) information, and management statistical data. Positioning system of a mobile communication terminal indoors using a heterogeneous AP, characterized in that it comprises a. The system of claim 8, wherein the positioning system comprises: A wireless base station transferring location information, a call signal, and a data signal between the mobile communication terminal and the mobile communication network; A switch in charge of a call processing function and a basic and additional service processing function of the mobile communication network; A home location register (HLR) for storing subscriber information of the mobile communication terminal; A packet data serving node (PDSN) for providing a data service to the mobile communication terminal; A gateway for interchanging a WAP protocol and a Transmission Control Protocol / Internet Protocol (TCP / IP) protocol to connect the packet data serving node with an Internet network; And Content Provider (CP) for providing a location information service to the mobile communication terminal by using the location information of the mobile communication terminal Positioning system of the mobile communication terminal indoors using a heterogeneous AP, characterized in that it further comprises. The method of claim 8, wherein the beacon, Location of a mobile communication terminal in a room using heterogeneous AP, characterized in that one or more of a LD (Location Detector) beacon, ZigBee beacon, Bluetooth (Bluetooth) beacon, Wi-Fi (Wi-Fi: Wireless Fidelity) beacon is installed Confirmation system. The method of claim 8, wherein the mobile communication terminal, Indoor using heterogeneous AP, characterized in that for transmitting the unique identification number (beacon ID) received from the beacon with a terminal identification number (MIN) or a terminal unique number (ESN) to the location information confirmation system in a predetermined unit of time. Positioning system of mobile communication terminal in. The method of claim 8, wherein the mobile communication terminal, Built-in receiving unit for receiving GPS information from a GPS satellite, the location of the mobile terminal using a heterogeneous AP, characterized in that the GPS terminal for generating the location information of the mobile communication terminal based on the received GPS information system. The method of claim 8, wherein the LBSP server, Positioning system of a mobile communication terminal indoors using a heterogeneous AP, characterized in that it includes a billing server function in order to calculate the usage fee for the location information service, or connected to an external billing server. The method of claim 8, wherein the BSA source information, Indoors using heterogeneous APs by displaying GIS coordinates of the location of the base station and narrowing the search range to perform a quick location search by searching the location of the mobile communication terminal based on the GIS coordinates. Positioning system of mobile communication terminal in.

Images