KR20070033671A - Method and system for setting location transmission condition of mobile communication terminal - Google Patents

Abstract

The present invention relates to a method and a system for setting a location transmission condition of a mobile communication terminal.

The present invention performs a voice call function and performs a mobile communication terminal for periodically identifying and managing a user's location using an address mapping table based on base station information, and performs wireless communication for providing a location-based service to the mobile communication terminal. A wireless access network that performs handoff and wireless support management functions, processes basic and additional services of the mobile communication terminal, incoming and outgoing call processing of subscribers, location registration and handoff procedures, and other networks. A mobile communication switching center performing an operation including an interworking function, and receiving location information of the mobile communication terminal from a visitor location register (VLR) installed in the mobile communication switching center to recognize registration, delete registration, and confirm location. Home Location Register (HLR) and signals to perform operations including In a mobile communication network including a signaling transfer point (STP) for relaying and exchanging messages, the mobile communication system providing the location-based service is transmitted from the mobile communication terminal via the mobile communication network. A positioning server (PDE) for calculating a latitude / longitude coordinate of the mobile communication terminal using navigation data, and transmitting the address matching table and a location transmission condition to the mobile communication terminal; And a location center (MPC: Mobile Position) for acquiring the longitude / latitude coordinates of the mobile communication terminal calculated by the location determination server in connection with the location determination server and transmitting the location information to various LBS platforms providing location based services. It provides a mobile communication system for setting the location transmission conditions of the mobile communication terminal comprising a.

According to the present invention, the mobile communication terminal inquires the location information based on the base station, thereby reducing the frequent location inquiry and location transmission to the server. Thus, by minimizing battery consumption of the mobile communication terminal and minimizing the load of the mobile communication network, there is an effect of building an infrastructure that can provide a variety of location-based services at an optimal cost.

Location information, inquiry, GPS, base station, LBS

Description

Method and system for setting location transmission condition of mobile communication terminal {Method and System for Location Transmission Condition Setting of Mobile Communication Terminal}

1 is a block diagram schematically illustrating a system for querying a location of a mobile communication terminal according to an embodiment of the present invention;

2 is a flowchart illustrating a method of querying a location of a mobile communication terminal according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

102: GPS satellite 110: mobile communication terminal

120: wireless access network 130: mobile communication switching center

132: home location register 134: signal relay

140: positioning server 142: GPS antenna

150: location center

The present invention relates to a method and a system for setting a location transmission condition of a mobile communication terminal. More specifically, by using the location management program operating according to the condition received from the server periodically checks the position of the mobile communication terminal based on the base station information to move according to the condition received from the server when the base station information is changed When transmitting location information to an application and a server in a communication terminal and inquiring more precise location information, the location transmission condition setting of the mobile communication terminal which checks the existing base station information first and performs a more precise location information inquiry process It relates to a method and a system.

As computers, electronics, and communication technologies have advanced dramatically, various wireless communication services using wireless networks have been provided. Accordingly, a service provided by a mobile communication system using a wireless communication network is developing into a multimedia communication service that transmits data such as circuit data, packet data, and the like, as well as a voice service.

Recently, due to the development of information and communication, IMT-2000 (International Mobile Telecommunication 2000), which is a third generation mobile communication system established as a standard in ITU-R, has been commercialized. IMT-2000 is a Code Division Multiple Access (CDMA) 2000 1X, 3X, Evolution Data Only (EV-DO), Wideband CDMA (WCDMA), etc., which is an IS-95C network that has evolved from existing IS-95A and IS-95B networks. It is a service that can provide a wireless communication service by using.

IMT-2000 is a mobile communication system aimed at realizing direct roaming worldwide including personal mobility and service mobility, the same level of call quality as wired telephone, high speed packet data service and various application services by combining wired and wireless network. As a result, the quality of the existing voice and WAP (Wireless Application Protocol) service can be improved, as well as various multimedia services (MOD, VOD) can be provided at a higher speed.

Meanwhile, with the establishment of the Internet based on TCP / IP (Transmission Control Protocol / Internet Protocol), various types of data including text, voice, image, video, etc. can be searched using the Internet. In addition to the rapid development of a system capable of transmitting in real time, the use of a variety of communication services using the Internet in a better environment has been increasing the diffusion of high-speed communication network and the like.

In addition, in recent years, in order to provide a communication service that transcends space, a wireless Internet service for providing an Internet communication service to a mobile communication service subscriber through a wireless communication network has emerged, and many companies have been developing technology for the wireless Internet. The wireless Internet service is an advanced personalization service according to the use of the terminal of the individual and has a feature of providing a unique information based on the mobility of the user. Mobile communication service subscribers can receive various types of information such as news, weather, sports, securities, finance, exchange rates, and traffic information in various forms such as text, voice, still image, and video through wireless Internet service.

Among various wireless Internet services using a mobile communication terminal, in particular, a location based service (LBS) has gained much attention due to its wide utility and convenience. The location-based service refers to a communication service that locates a mobile communication terminal such as a mobile phone and a personal digital assistant (PDA) and provides additional information related to the identified location. Location-based services can be applied to a variety of areas, including rescue requests, response to crime reports, geographic information systems (GIS) for providing information on neighboring areas, traffic information, vehicle navigation and logistics control, and customer relationship management (CRM). Can be used.

In the conventional location-based service to determine the location of the mobile terminal, when the terminal requests the location information of the terminal from the server in the idle (Idle) state, the terminal is released from the standby state and transmits to the server after obtaining the location information In addition, the server receives and utilizes the data or retransmits it to the terminal, and performs the process of inquiring the location information from the application program in the terminal.

The conventional location information inquiry method has a problem in that the location information inquiry process is complicated and causes a load on the mobile communication network. As a result, it is difficult to execute commercial services, and the activation of location-based services is inhibited.

In order to solve the above problems, the present invention, by using a location management program operating according to the conditions received from the server periodically checks the location of the mobile communication terminal based on the base station information transmitted from the server when the base station information is changed According to the received condition, the mobile terminal transmits the location information to the application program and the server in the mobile communication terminal, and in the case of inquiring more precise location information, first checks the existing base station information and then performs the more precise location information inquiry process. The purpose of the present invention is to provide a method and a system for setting a location transmission condition.

In order to achieve the above object, the present invention provides a mobile communication terminal performing a voice call function and periodically identifying and managing a user's location using an address mapping table based on base station information, and location-based services in the mobile communication terminal. A wireless access network that performs wireless communication to provide a service, performs handoff and wireless support management functions, processes basic and additional services of the mobile communication terminal, incoming and outgoing call processing of subscribers, location registration procedure and hand. A mobile communication switching center performing an operation including an off procedure processing and an interworking function with another network, and receiving location information of the mobile communication terminal from a visitor location register (VLR) installed in the mobile communication switching center. A home location register (H) that performs operations including registration recognition, registration deletion, and location checking. In a mobile communication network including a Home Location Register (LR) and a Signaling Transfer Point (STP) for relaying and exchanging signaling messages, the mobile communication system for providing the location-based service, the mobile communication terminal A location server for calculating the longitude / latitude coordinates of the mobile communication terminal using navigation data transmitted through the mobile communication network from the mobile communication network, and transmitting the address matching table and the location transmission condition to the mobile communication terminal. (PDE: Positioning Determination Entity); And a location center (MPC: Mobile Position) for acquiring the longitude / latitude coordinates of the mobile communication terminal calculated by the location determination server in connection with the location determination server and transmitting the coordinates to various LBS platforms that provide location based services. It provides a mobile communication system for setting the location transmission conditions of the mobile communication terminal comprising a.

According to another object of the present invention, a mobile communication terminal performing a voice call function and periodically identifying and managing a user's location using an address mapping table, and wireless communication for providing a location-based service to the mobile communication terminal The mobile terminal using a wireless access network for performing an operation, a signaling transfer point (STP) for relaying and exchanging signal messages, and navigation data transmitted from the mobile communication terminal through the wireless access network. A position determination server (PDE) for calculating a longitude / latitude coordinate of a communication terminal and transmitting the address matching table and a position transmission condition to the mobile communication terminal and the position determination server in association with the positioning server; The location by obtaining the longitude / latitude coordinates of the mobile communication terminal In a mobile communication network including a mobile center (MPC) for transmitting to various LBS platforms for providing a base service, the method for providing the location-based service, comprising: (a) the mobile terminal to the mobile terminal; Downloading an address mapping table and the location transfer condition; (b) managing, by the mobile communication terminal, location information by periodically checking a change of the location by using neighboring base station information based on the address mapping table; (c) determining whether more accurate location information is needed than the location information stored in the mobile communication terminal, and if the accurate location information is needed, comparing the location information of a previous period with the current location information based on the base station information; Determining whether there is a change of; (d) inquiring the correct position information by using a precise position measuring method when the position is changed; (e) In step (c), if there is no change of the location, it is determined whether a check for entry into a specific area is performed. If the entry check is not necessary, the service is terminated. Determining whether to enter the specific area based on the base station information when the entry check to the specific area is required; And (f) entering the specific area and performing the inquiry of the correct location information when the information matches the base station information of the specific area. To provide.

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.

1 is a block diagram schematically illustrating a mobile communication system for querying a location of a mobile communication terminal according to an exemplary embodiment of the present invention.

The mobile communication system according to the preferred embodiment of the present invention is a GPS satellite 102, a mobile communication terminal 110, a radio access network (RAN) 120, a mobile switching center (MSC) 130 ), A home location register (HLR: `` HLR '') 132, a signaling relay point (STP: `` STP '') 134, a location server (PDE: Positioning Determination Entity 140, a GPS antenna 142, and a Mobile Center Center (MPC) 150.

The mobile communication terminal 110 is a terminal that not only performs a voice call but also provides a user with a location-based service using wireless communication. The mobile communication terminal 110 receives GPS radio signals from one or more GPS satellites 102, extracts navigation data included in the GPS radio signals, and transmits the navigation data to the positioning server 140 through the wireless access network 120. It is a terminal equipped with a transmitting GPS antenna, a GPS receiver, and a GPS chipset. Mobile communication terminal 110 according to an embodiment of the present invention is a mobile terminal equipped with a mobile station modem (MSM ^TM ) chip equipped with the gpsOne ^TM algorithm, which is a positioning technology of Qualcomm, Inc. Also includes.

Mobile communication terminal 110 according to a preferred embodiment of the present invention is a PDA (Personal Digital Assistant), cellular phone, PCS (Personal Communication Service) phone, hand-held PC (Hand-Held PC), GSM (Global System for Mobile) Phones, wideband CDMA (W-CDMA) phones, CDMA-2000 phones, Mobile Broadband System (MBS) phones, and the like. Here, MBS phone refers to a mobile phone to be used in the fourth generation system currently being discussed.

In addition, the mobile communication terminal 110 according to a preferred embodiment of the present invention stores a location management program, and the location management program operates according to the location transmission condition received from the location determination server 140. The location management program determines the location of the mobile communication terminal 110 by using information of a base station that provides a mobile communication service to the current mobile communication terminal 110 based on the address mapping table which is the base station information stored in the mobile communication terminal 110. The controller periodically checks and transmits the location change information to the location determination program or the location server 140 stored therein according to the location transmission condition received from the location server 140 only when the base station is changed.

In addition, when the mobile communication terminal 110 wants to inquire a more precise location than the location inquired based on the base station information, the mobile communication terminal 110 first checks the base station information already existing in the mobile communication terminal 110 and then performs a more precise location inquiry process. Perform. Here, the precise location query method uses a network-based location query method such as TDOA (Angle Of Arrival), AOA (Angle Of Arrival), ETDOA (Enhanced Time Difference Of Arrival), and a GPS-based location query method.

When the mobile terminal 110 checks the entry into a specific location, the location mapping server 140 receives an address mapping table, which is base station information of a specific region, and stores the received address mapping table. It determines whether it includes the boundary of the required area, and when the entry to a specific area is completed, a precise location inquiry process is performed.

In this case, the mobile communication terminal 110 performs a base station-based location inquiry and entry check into a specific region without using the address mapping table to communicate with the location determination server 140.

The mobile terminal 110 is used after decompressing and decoding the address mapping table received from the location determination server 140. The method of decoding the address mapping table is transmitted from the location determination server 140.

The radio access network 120 receives and processes a radio communication request of the mobile communication terminal 110 and performs a handoff and a radio support management function. The radio access network 120 includes a base station transmitter 122 and a base station controller 124 and supports both synchronous and asynchronous. Here, in the case of synchronous, the base station transmitter 122 will be a base transceiver station (BTS), the base station controller 124 will be a base station controller (BSC), and in the case of asynchronous, the base station transmitter 122 is a radio transceiver subsystem (RTS). The base station controller 124 may be a Radio Network Controller (RNC). Of course, the wireless access network 120 according to an 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 base station transmitter 122 receives a call request signal from the mobile communication terminal 110 through a traffic channel of the signal channel, and transmits the received call request signal to the base station controller 124. In addition, the base station transmitter 122 is a network endpoint device that is directly connected to the mobile communication terminal 110 by performing baseband signal processing, wired and wireless conversion, and transmission and reception of wireless signals.

The base station controller 124 controls the base station transmitter 122, allocates and releases radio channels for the mobile communication terminal 110, controls the transmission output of the mobile communication terminal 110 and the base station transmitter 122, and inter-cell soft handoff. It performs soft handoff and hard handoff decision, transcoding and vocoding, global positioning system (GPS) clock distribution, and operation and maintenance function for base station. The base station controller 124 transmits the call request signal received through the base station transmitter 122 to the mobile communication switching station 130.

The mobile communication switching center 130 performs basic and additional service processing, incoming and outgoing call processing of a subscriber, location registration procedure and handoff procedure, and interworking with other networks. The mobile switching center 130 of the IS-95 A / B / C system includes an access switching subsystem (ASS) that performs distributed call processing, an interconnection network subsystem (INS) that performs centralized call processing, operation and Subsystems include a Central Control Subsystem (CCS), which is responsible for the centralization of maintenance, and a Location Registration Subsystem (LRS), which performs storage and management of information on mobile subscribers.

In addition, the mobile switching center 130 for the third and fourth generation may include an Asynchronous Transfer Mode (ATM) switch (not shown). The ATM switch increases the transmission speed and the efficiency of line use by transmitting packets on a cell basis. Let's do it. In addition, the ATM switch performs a call processing on a cell basis, a Mobility Control Subsystem that performs a subscriber registration, an update function for performing wireless communication of the mobile communication terminal 110, and an interface function with the base station controller 124. Subsystems such as a Call Control Subsystem, a Service Control Subsystem for performing billing functions for various supplementary service subscribers, and an Intelligent Peripheral Subsystem for providing various supplementary services. .

The HLR 132 generally receives the location information of the mobile communication terminal 110 from a visitor location register (VLR) (not shown) installed in the mobile communication switching station 130 to recognize registration, delete registration, It performs functions such as checking the location. In addition, the profile information of the mobile communication terminal 110 is stored in the HLR 132. Here, the profile information refers to a mobile identification number (MIN), an electronic serial number (ESN), and subscribed mobile communication service information of the mobile communication terminal 110.

The STP 134 is a signal relay station that relays and exchanges signaling messages in the common line signaling scheme of the ITU-T. The signal network constructed by using the STP 134 operates in a non-compliant mode that does not correspond to a call line and a signal link, and various signals are transmitted through an STP other than an exchange having a call line, thereby improving economic efficiency and reliability. have. In addition, the STP 134 also performs a function of notifying the signal exchange to another switching station when it is impossible to convert the signal message and relay the signal.

The location server 140 calculates the longitude and latitude coordinates of the mobile communication terminal 110 using the navigation data transmitted from the mobile communication terminal 110 via the mobile communication network. In addition, the location determination server 140 transmits aiding data for assisting the location determination of the mobile communication terminal 110 and calculates a distance between the GPS satellite 102 and the mobile communication terminal 110. That is, the mobile communication system according to the preferred embodiment of the present invention uses the C (Conventional) -GPS method of positioning using only the navigation data transmitted by the mobile communication terminal 110, but more preferably A (Assisted) -Use GPS method.

The A-GPS method uses the AED data from the mobile communication network to compensate for the drawback of the long time to first fix (TTFF) in the C-GPS method and the difficulty of positioning due to the failure of a building or a tall building. It is a method of positioning more quickly and accurately by receiving. To this end, the mobile communication terminal 110 and the mobile communication network transmit and receive messages using a protocol defined in the IS (Interim Standard) -801-1 standard.

When the positioning server 140 determines the location of the mobile communication terminal 110 using the A-GPS method in more detail, the positioning server 140 is a mobile communication in which a location request signal is transmitted. Receiving wireless base station information from the terminal 110, and confirms the MAR (Maximum Antenna Range) value set in the corresponding wireless base station. Here, MAR refers to the maximum radius at which the radio wave transmitted from the antenna provided in the radio base station reaches, usually set to 3 km, 5 km or the like.

The positioning server 140 confirming the location information and the MAR value of the wireless base station is defined in the IS-801-1 standard including information of the GPS satellite 102 that can receive the GPS radio waves from the wireless base station. The Provide_GPS_Acquisition_Assistance message is transmitted to the mobile communication terminal 110 through the mobile communication network. That is, the positioning server 140 receives the orbit information of the GPS satellites 102 from the reference GPS antenna 142 which monitors all the GPS satellites 102 in real time, and determines the location of the wireless base station in which the mobile communication terminal 110 is located. Using the latitude and longitude coordinates and the MAR value, the mobile communication terminal 110 extracts information of the GPS satellite 102 that can receive the GPS radio waves well. Then, the extracted GPS satellite 102 is included in the Provide_GPS_Acquisition_Assistance message and transmitted.

Receiving the Provide_GPS_Acquisition_Assistance message, the mobile communication terminal 110 extracts information of the GPS satellite 102 included in the message and searches only the GPS satellite 102 to receive GPS radio waves.

The mobile communication terminal 110 receiving the GPS radio waves from one or more GPS satellites 102 calculates the strength, pseudorange, etc. of the satellite signal using the received GPS radio waves, and calculates the calculated data according to the IS-801-. Using the Provide_Pseudorange_Measurement message defined in the standard 1 to the location determination server 140 via the mobile communication network. Upon receiving the Provide_Pseudorange_Measurement message from the mobile communication terminal 110, the location determination server 140 calculates the latitude and longitude coordinates of the mobile communication terminal 110 by selecting and selecting data included in the Provide_Pseudorange_Measurement message.

Meanwhile, although IS-801-1 is described as an example of a protocol standard for positioning using GPS in FIG. 1, technical specifications to be improved in the future may be used. In addition to the C-GPS method and the A-GPS method, the technical idea of the present invention may include a differential GPS (D-GPS) and an advanced GPS technology to be proposed in the future to improve the accuracy of positioning.

When transmitting the address mapping table to the mobile terminal 110, the location determination server 140 according to the preferred embodiment of the present invention compresses and transmits the address mapping table in order to reduce the amount of data transmission, and even during transmission Encrypt and send to prevent tapping.

The location center 150 acquires the latitude and longitude coordinates of the mobile communication terminal 110 calculated by the location server 140 in connection with the location server 140 and transmits the coordinates to various LBS platforms that provide location based services. do.

The LBS platform is a platform for providing the necessary base technology between the mobile communication network and the LBS application server. The LBS platform provides access to the network, location information service, user information service, network management, and location data processing for real-time mass location information. To perform.

2 is a flowchart illustrating a method of querying a location of a mobile communication terminal according to an exemplary embodiment of the present invention.

According to a preferred embodiment of the present invention, the mobile communication terminal 110 downloads and stores an address mapping table and a location transmission condition from the location determination server 140 (S210).

The mobile communication terminal 110 checks and manages the location change of the mobile communication terminal 110 periodically using the base station information of the neighbor based on the downloaded and stored address mapping table (S220).

When the periodic location information is checked in step S220, when the location information of the previous cycle is the same as the current location information, the location inquiry program in the mobile communication terminal 110 according to the location transmission condition received from the location determination server 140 and The location server 140 transmits a return signal indicating that there is no change of location, or does not even transmit a return signal.

It is determined whether more accurate location information is needed than the location information stored in the mobile communication terminal 110 (S230). If more accurate location information is needed, first, the location of the previous cycle and the current location information based on the base station information. Determine whether there is a change in location (240), and if the location is changed, GPS-based, Advanced Forward Link Trilateration (AFLT), and network-based location lookup methods such as TDOA (Angle of Arrival) and AOA (Angle Of Arrival) ), The ETDOA (Enhanced Time Difference Of Arrival), etc. to search for a more accurate location (S270).

If there is no change of location in step S240, it is determined whether a check for entry into a specific region is performed (S250). If necessary, it is determined whether to enter a specific region based on the base station information (S260), and enters a specific region and performs an inquiry of the correct location information only when it matches the base station information of the specific region (S270).

In step S260, a criterion for checking entry into a specific area is set to include a boundary of an area required by the set of base stations including all of the specific areas based on the base station information.

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, the mobile communication terminal inquires the location information based on the base station, thereby reducing the frequent location inquiry and location transmission to the server. Thus, by minimizing battery consumption of the mobile communication terminal and minimizing the load of the mobile communication network, there is an effect of building an infrastructure that can provide a variety of location-based services at an optimal cost.

Claims (12)

A mobile communication terminal performing a voice call function and periodically identifying and managing a user's location by using an address mapping table based on base station information, and performing wireless communication for providing a location-based service to the mobile communication terminal. Wireless access network performing handoff and wireless support management function, basic and additional service processing of mobile communication terminal, incoming and outgoing call processing of subscriber, location registration and handoff procedure processing, interworking function with other network A mobile communication switching center performing an operation including receiving registration information, deleting a registration, and identifying a location by receiving location information of the mobile communication terminal from a visitor location register (VLR) installed in the mobile communication switching center. Of the Home Location Register (HLR) and signaling messages that perform the operation. In a mobile communication network including a signaling transfer point (STP) for performing the system and exchange, in the mobile communication system for providing the location-based service, Compute the longitude / latitude coordinates of the mobile communication terminal using navigation data transmitted from the mobile communication terminal via the mobile communication network, and transmit the address matching table and the location transmission condition to the mobile communication terminal. A Positioning Determination Entity (PDE); And A mobile positioning center (MPC: Mobile Position Center) for acquiring the longitude / latitude coordinates of the mobile communication terminal calculated by the location determination server in connection with the location determination server and transmitting the coordinates to various LBS platforms providing a location based service. ) A mobile communication system for setting the location transmission conditions of the mobile communication terminal comprising a. The method of claim 1, The mobile communication terminal receives a GPS radio signal from one or more GPS satellites, extracts the navigation data included in the GPS radio signal, and transmits the GPS data to the positioning server through the wireless access network, a GPS receiver, and a GPS chipset. A mobile communication system for setting the location transmission conditions of the mobile communication terminal comprising a). The method of claim 1, The mobile communication terminal is a mobile communication system for setting the location transmission conditions of the mobile communication terminal, characterized in that the built-in location management program. The method of claim 3, wherein The location management program periodically checks the location using the base station information of the service area based on the address mapping table stored in the mobile communication terminal, and if the location is changed, A mobile communication system for setting the location transmission conditions of the mobile communication terminal, characterized in that operating according to. The method of claim 1, The mobile communication terminal uses the address mapping table to perform an operation including a location inquiry using the base station information and an entry check into a specific region without communication with the location determination server. Mobile communication system for setting the transmission conditions. The method of claim 1, And the location determining server compresses and encrypts the address mapping table when the address mapping table is transmitted to the mobile communication terminal, and transmits the location mapping condition of the mobile communication terminal. The method of claim 1, The mobile communication terminal is used after decompressing and decoding the address mapping table received from the positioning server, and the decoding method is received from the positioning server. A mobile communication system for setting a condition of location transmission. The method of claim 1, The LBS platform is a platform for providing the necessary base technology between the mobile communication network and the LBS application server. The LBS platform provides a connection function with a network, a location information service, a user information service, network management, and location data processing for real-time mass location information. A mobile communication system for setting a location transmission condition of a mobile communication terminal, characterized in that to perform an operation including a. A mobile communication terminal that performs a voice call function and periodically identifies and manages a user's location by using an address mapping table, a wireless access network that performs wireless communication for providing a location-based service to the mobile communication terminal, and relays a signaling message. And calculating a longitude / latitude coordinate of the mobile communication terminal using a signaling transfer point (STP) for performing an exchange and navigation data transmitted from the mobile communication terminal via the wireless access network. A location determination server (PDE) for transmitting the address matching table and a location transmission condition to the mobile communication terminal, and the path / operation of the mobile communication terminal calculated by the location determination server in conjunction with the location determination server. Various LBS providing the location-based service by acquiring latitude coordinates Platforms (Platform) position center sending a: in the mobile communication network including a (MPC Mobile Position Center), in the method for providing the location-based service, (a) downloading the address mapping table and the location transmission condition to the mobile communication terminal; (b) managing, by the mobile communication terminal, location information by periodically checking a change of the location by using neighboring base station information based on the address mapping table; (c) determining whether more accurate location information is needed than the location information stored in the mobile communication terminal, and if the accurate location information is needed, comparing the location information of a previous period with the current location information based on the base station information; Determining whether there is a change of; (d) inquiring the correct position information by using a precise position measuring method when the position is changed; (e) In step (c), if there is no change of the location, it is determined whether to check for entry into a specific area, and if the check for entry into the specific area is not necessary, the service is terminated, and the specific Determining whether to enter the specific area based on the base station information when the entry check into the area is necessary; And (f) entering the specific area and performing the inquiry of the correct location information when the information matches the base station information of the specific area; Method for setting the location transmission conditions of the mobile communication terminal comprising a. The method of claim 9, wherein in step (b), At the periodic check of the location information, if the location information of the previous period and the current location information are the same, the location inquiry program and the location server in the mobile communication terminal according to the location transmission condition received from the location determination server. Transmitting a return signal indicating that there is no change of the location, or not transmitting the return signal. The method of claim 9, wherein in steps (d) and (f), The accurate location information can be retrieved by GPS-based, Advanced Forward Link Trilateration (AFLT) and network-based location lookup methods, TDOA (Angle Of Arrival), AOA (Angle Of Arrival), and ETDOA (Enhanced Time Difference Of Arrival). Method of setting a location transmission condition of the mobile communication terminal comprising at least one of. The method of claim 9, wherein in step (f), The entry check into the specific area is set to include a boundary of an area required by the set of base stations including all of the specific area based on the base station information. How to set up a condition.

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