KR20070079468A - Method for automatic location registration, mobile communication terminal and system using the same - Google Patents

Abstract

A method for automatically storing location information, a mobile terminal using the same, and a system thereby are provided to transmit all location information to a server at a time after automatically storing location information on a mobile terminal, so that a location based service can be provided, without increasing load of the server, in case tracking for a user's location is required or conversion into a specific environment occurs. An automatic location storage system using a mobile terminal(110) comprises a positioning determination entity(160). The mobile terminal(110) automatically acquires location information during a preset location information storage time, accumulatively stores it, and transmits the accumulated and stored location information. The positioning determination entity(160) calculates longitudinal and latitudinal coordinates of the mobile terminal(110) by using the location information transmitted from the mobile terminal(110), and provides a location based service to the mobile terminal(110), based on the received or calculated location information.

Description

Method for Automatic Location Registration, Mobile Communication Terminal and System Using the Same}

1 is a block diagram schematically showing an automatic location storage system using a mobile communication terminal according to an embodiment of the present invention;

2 is a flowchart illustrating a method of automatically storing location information in a mobile communication terminal according to an embodiment of the present invention;

3 is a flowchart illustrating a location-based service method of a mobile communication system 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: router 142: Internet

150: location center 160: location determination server

162: GPS antenna 170: user terminal

The present invention relates to an automatic location storage method and a mobile communication terminal and system using the same. More specifically, the present invention relates to periodically accumulating and storing location information on a mobile communication terminal and simultaneously transmitting the location information to a server. The present invention relates to a method and system for transmitting location information to a server at a time when the distance difference between the information and the recently acquired location information is more than a predetermined distance.

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 for transmitting data such as circuit data, packet data, and the like, as well as 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 that aims to implement various application services by combining global direct roaming including personal mobility and service mobility, same call quality as wired telephone, high speed packet data service and wired / wireless network. As a result, as well as improving existing voice and wireless application protocol (WAP) service quality, 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, in order to use a variety of communication services using the Internet in a better environment, the spread of high-speed communication networks, etc. are increasing.

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. 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 a conventional location-based service system, when a user selects a location-based service of a mobile communication terminal, the mobile communication terminal transmits current location information to a server, and the server receiving the location information receives the current longitude and latitude coordinates of the mobile communication terminal. Measured to provide location-based services.

However, in this method, whenever the location-based service is used, the server receives the location information from the mobile terminal one-time and measures the longitude and latitude of the mobile terminal to provide the location-based service to the mobile terminal. Or, in the case of a specific service, the number of times of receiving location information is too high, which causes a load on the server.

In order to solve the above-mentioned problems, the present invention relates to periodically accumulating and storing location information on a mobile communication terminal and simultaneously transmitting the location information to a server, wherein a predetermined amount of location information is acquired and periodically stored in the mobile communication terminal. It is an object of the present invention to provide a method and system for transmitting location information to a server at a time when there is a request or when the distance difference between the last stored location information and the recently obtained location information is more than a predetermined distance.

In order to achieve the above object, the present invention provides a mobile communication system that automatically stores a location, performs a conventional voice call and automatically obtains location information for a predetermined location information storage time; A mobile communication terminal for accumulating and transmitting stored location information; And calculating the longitude and latitude coordinates of the mobile communication terminal using the location information transmitted from the mobile communication terminal via the mobile communication network, and providing a location-based service using the received or calculated location information of the mobile communication terminal. It provides an automatic location service system for a mobile communication terminal comprising a server.

According to another object of the present invention, there is provided a method for automatically storing a location of a mobile communication terminal interworking with a positioning server through a mobile communication network, the method comprising: (a) obtaining a current location information of a mobile communication terminal; (b) accumulating and storing the location information obtained in (a) according to a predetermined storage period during a preset location information storage time; and (c) transmitting the accumulated and stored location information to the location server at one time.

According to another object of the present invention, there is provided a mobile communication terminal having an automatic location storage function, comprising: key input means for receiving a key or command for setting a location information storage time; A wireless communication processor which processes a wireless communication function including wireless data communication; Storage means for storing a location storage program for storing location information for a preset location information storage time; Display means for outputting message information generated while executing the location storing program; And control means for executing the location storing program to set the location information storage time using the key input means and the display means, to acquire the location information according to a preset acquisition period, and to accumulate and store the location information in a separate storage period. Provided is a mobile communication terminal having an automatic location storing function.

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 an automatic location storage system using a mobile communication terminal according to a preferred embodiment of the present invention.

A mobile communication system according to a preferred embodiment of the present invention is a GPS (Global Positioning System) satellite 102, a mobile communication terminal 110, a radio access network (RAN) 120, a mobile communication switching center (MSC: Mobile) Switching Center (130), Home Location Register (HLR) 132, Signaling Transfer Point (STP) 134, Router (Router) 140, Internet (142), location center 150, location determination server 160, GPS antenna 162 and the user terminal 170.

The mobile communication terminal 110 is a terminal that not only performs a normal voice call but also provides a user with location-based services 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 160 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.

The mobile communication terminal 110 may be a personal digital assistant (PDA), a cellular phone, a personal communication service (Personal Communication Service) phone, a handheld user terminal (Hand-Held user terminal), a GSM (Global System for Mobile) phone, a W-CDMA (Wideband 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.

The mobile communication terminal 110 according to a preferred embodiment of the present invention measures location information, stores a certain amount of location information in the mobile communication terminal 110, and transmits the location information at the same time when a request is made by the positioning server 160. As a mobile communication terminal 110, one or more of a GPS method, an RFID method, a Zigbee method, and a Cell-ID method may be used as a method for obtaining location information. By switching the location information acquisition method to obtain the optimal location information by itself.

The location information storage of the mobile communication terminal 110 is performed during a preset location information storage time, and the location information storage time is set by the user using the mobile communication terminal 110 or the location determination server using the user terminal 170. Direct connection to (160) can be set. The mobile communication terminal 110 acquires, accumulates, stores and transmits the location information to the location determination server 160 during the location information storage time set by the user.

The mobile communication terminal 110 acquires location information according to an acquisition period, and stores the acquired location information according to a storage period. The stored location information is transmitted to the positioning server 160 when the distance difference between the last stored location information and the recently acquired location information differs by a predetermined distance or more. Alternatively, it may be immediately transmitted to the location server 160 at the request of the location server 160 or the user regardless of the distance difference.

Meanwhile, in storing the location information, when the user does not set the location information storage time, the mobile communication terminal 110 arbitrarily stores a certain amount of location information. Here, the predetermined amount of location information refers to being stored by a predetermined memory capacity of the mobile communication terminal 110. When the predetermined memory capacity is exceeded, the mobile communication terminal 110 deletes previously stored location information and obtains the most recently acquired location information. Save location information.

The method of obtaining location information may be one or more of an RFID method, a ZigBee method, a GPS method, and a Cell-ID method. If the reception rate drops while acquiring the location information, the method automatically switches to acquire the optimal location information by itself. As a result, the nature of the location information is changed. In this case, the mobile communication terminal 110 transmits the most recently acquired location information from the stored location information to the location determination server 160 before the acquisition method is switched. For example, if the reception rate drops while acquiring the location information by the GPS method, the RFID method, the ZigBee method, or the Cell-ID method is automatically switched to obtain the location information, and the mobile terminal 110 switches the acquisition method of the location information. The most recently stored location information among the location information stored by the GPS method before the transmission is transmitted to the location determination server 160.

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. In this case, 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, assigns 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 center 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. Sub-systems 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 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-corresponding 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 other switching station of the signal message when the conversion of the signal message and the signal relay are impossible.

The router 140 is a device that reads an address of a destination included in transmission information when transmitting and receiving wireless data between the mobile communication terminal 110 and an external packet server and transmits using the most appropriate communication path. When the Internet 142 is connected, it is a necessary device, and is a communication device that provides a role of setting a path for transmitting information in a communication network operating with different protocols.

The router 140 recognizes other communication networks and assigns routes according to a route assignment table in addition to a bridge function that simply connects communication networks, and determines a destination within another communication network or a communication network to which it is connected based on the received packet. Selects the most efficient route and sends the packet. In addition, it controls the communication flow and performs various communication network management functions such as configuring various auxiliary communication networks in the communication network.

The Internet 142 is connected to the location determination server 160 and the user terminal 170 to set the location information storage time and relay the transmission and reception of data including the request signal and the location information of the location information.

The user terminal 170 refers to a computer that accesses the location server 160 by executing a program such as setting a storage time of location information by accessing the Internet 142 according to a user's key operation, and the like. It may be any one of a computer, and a web browser for accessing the Internet 142, a memory for storing a program, a controller for executing and operating a program, and the like are built in. The user terminal 170 according to the preferred embodiment of the present invention is connected to the location determination server 160 via the Internet 142 by wire and outputs a screen for setting the storage time of the location information and the like and stores the time by the user. If this is set, and transmits to the positioning server 160 via the Internet (142).

The location center 150 receives coordinates of the longitude and latitude of the mobile communication terminal 110 measured by the location server 160 in connection with the location server 160 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. Perform.

The location server 160 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 160 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, in the mobile communication system according to the preferred embodiment of the present invention, although the C-Conventional-GPS method of positioning using only the navigation data transmitted by the mobile communication terminal 110 is used, 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 location server 160 determines the location of the mobile communication terminal 110 using the A-GPS method in more detail, the location server 160 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 location determination server 160 confirming the location information and the MAR value of the corresponding 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 corresponding 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 location determination server 160 receives the orbit information of the GPS satellites 102 from the reference GPS antenna 162 for monitoring 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 information of the GPS satellite 102 extracted in the Provide_GPS_Acquisition_Assistance message is 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-. 1 is transmitted to the positioning server 160 through the mobile communication network using the Provide_Pseudorange_Measurement message defined in the standard. Upon receiving the Provide_Pseudorange_Measurement message from the mobile communication terminal 110, the location determination server 160 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.

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

In order to automatically store location information in the mobile communication terminal 110, a user sets a location information storage time on the mobile communication terminal 110 using the mobile communication terminal 110 or determines a location using the user terminal 170. A direct connection to the server 160 is set to set the location information storage time (S210).

The mobile communication terminal 110 stores the location information for the set location information storage time, and acquires the location information according to the location information acquisition cycle (S220). For example, if the location information storage time is set to 1 hour and the location information acquisition cycle is 1 minute, the mobile communication terminal 110 obtains the location information every 1 minute for 1 hour. Here, as a method of obtaining location information, one or more of an RFID method, a ZigBee method, a GPS method, and a Cell-ID method may be used.

The mobile communication terminal 110 stores the obtained location information according to a storage cycle (S230). For example, assuming that the storage period is 3 minutes, the mobile communication terminal 110 obtains location information every 1 minute for 1 hour and stores the obtained location information every 3 minutes.

The mobile communication terminal 110 determines whether there is a difference over a predetermined distance after obtaining a distance difference between the last stored position information and the recently acquired position information (S240). As a result of checking in step S240, when there is a difference over a predetermined distance, the mobile communication terminal 110 transmits the accumulated and stored location information to the positioning server 160 at one time (S250). Of course, the mobile communication terminal 110 may transmit the stored location information to the location server 160 at the request of the location server 160 or the user regardless of the distance difference.

On the other hand, if the reception rate drops while acquiring the location information, the mobile communication terminal 110 automatically switches the location information acquisition method to obtain the optimal location information. In this case, the mobile terminal 110 acquires the most recent location information before the conversion. The location information is stored or transmitted to the location determination server 160. For example, if the reception rate drops while acquiring the location information by the GPS method, the mobile terminal 110 automatically switches to the Cell-ID method, the RFID method, or the ZigBee method to obtain the location information. In this case, the mobile communication terminal ( 110 finally stores or transmits the most recently stored location information among the location information stored by the GPS method before the location information acquisition method is switched, or transmits it to the location determination server 160.

The mobile communication terminal 110 receives a location-based service from the location determination server 160 and provides it to the user (S260). In addition, the location-based service may be received by a mobile communication terminal of another person other than the mobile communication terminal 110. Herein, the mobile communication terminal of another person is a mobile communication terminal having the same location-based service function as the mobile communication terminal 110.

3 is a flowchart illustrating a location-based service method of a mobile communication system according to an exemplary embodiment of the present invention.

The location determination server 160 receives a location-based service request signal from the mobile communication terminal 110 (S310), and requests location information from the mobile communication terminal 110 (S320).

The location determination server 160 periodically receives location information from the mobile communication terminal 110 or simultaneously receives location information of the corresponding mobile communication terminal 110 according to the present invention (S330), by using the received location information. The longitude and latitude coordinates of the mobile communication terminal 110 are measured (S340).

The location determination server 160 transmits the measured longitude and latitude coordinates of the mobile communication terminal 110 to various LBS platforms providing location based services in association with the location center 150 (S350).

The location determination server 160 provides a location based service to the mobile communication terminal 110 using the LBS platform (S360).

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 location-based service is requested from the server one-time every time the location-based service is used, and the location of the user location is automatically stored on the mobile communication terminal and transmitted to the server at once. Even if it is necessary or is switched to a specific environment, there is an effect that the location-based service can be provided without load burden on the server.

Claims (14)

In the mobile communication system for providing a mobile communication terminal that automatically stores the location, A mobile communication terminal which performs a general voice call and automatically acquires, accumulates and stores the location information for a preset location information storage time, and transmits the stored location information; And Computing longitude and latitude coordinates of the mobile communication terminal using the location information transmitted from the mobile communication terminal via a mobile communication network, and providing a location-based service using the received or calculated location information of the mobile communication terminal. Positioning server Automatic location storage service system of a mobile communication terminal comprising a. The method of claim 1, The mobile communication terminal obtains the location information according to a preset acquisition period, and accumulates and stores the location information of the mobile communication terminal. The method of claim 2, The location information acquired according to the acquisition period is stored in a cumulative storage according to a separate storage period of the mobile communication terminal of the mobile communication terminal. According to claim 2 or 3, The mobile communication terminal, After determining the distance difference between the last stored position information and the recently obtained position information, it is determined whether there is a difference over a predetermined distance, and if the difference is more than the predetermined distance, and accumulates the stored position information to the positioning server. Automatic location storage service system of the mobile communication terminal. According to claim 2 or 3, The mobile communication terminal, And when the transmission request signal is input from the positioning server or the user terminal, transmitting the accumulated stored position information to the positioning server at a time. The method of claim 1, The location information storage time is set by an input from a user terminal connected to the location server, automatic location storage service system of a mobile communication terminal. The method according to claim 1 or 6, When the location information storage time is not set, the mobile terminal accumulates and stores the location information by a predetermined memory capacity of the mobile communication terminal. When the location information exceeds the memory capacity, the previously stored location information is deleted and the latest Automatic location storage service system of a mobile communication terminal, characterized in that for storing the acquired location information. The method of claim 1, wherein the mobile communication terminal, To obtain the location information, the location information is obtained by using at least one of an RFID method, a ZigBee method, a GPS method, and a Cell-ID method. Automatic acquisition service system of a mobile communication terminal, characterized in that the acquisition method is switched. The method of claim 8, wherein the mobile communication terminal, And when the acquisition method is switched, transmitting the most recently stored location information of the location information acquired by the method before the conversion to the location determination server. In the automatic location storage method of the mobile communication terminal linked to the positioning server via a mobile communication network, (a) the mobile communication terminal obtaining its current location information; (b) accumulating and storing the location information obtained in (a) according to a predetermined storage period during a preset location information storage time; And (c) transmitting the accumulated and stored location information to the positioning server at once. Automatic location storage method of a mobile communication terminal comprising a. The method of claim 10, wherein the method is In step (c), Determining whether the distance difference between the last position information and the latest position information differs by more than a predetermined distance, and transmitting the position information all at once to the positioning server when the difference is greater than the predetermined distance. Automatic location storage method of a mobile communication terminal, characterized in that it further comprises. The method of claim 10, The location information storage time is set by an input from a mobile communication terminal directly connected to the positioning server. The method of claim 10, wherein in step (c), And the mobile communication terminal transmits the accumulated and stored location information to the location determination server when there is a transmission request from the location determination server or a user's transmission command signal input. A mobile communication terminal having an automatic location storage function, Key input means for receiving a key or command for setting a location information storage time; A wireless communication processor which processes a wireless communication function including wireless data communication; Storage means for storing a location storage program for storing location information for a preset location information storage time; Display means for outputting message information generated while executing the location storing program; And Control means for executing the location storage program to set the location information storage time using the key input means and the display means, and to accumulate and store the location information according to a predetermined acquisition period Mobile communication terminal having an automatic location storage function comprising a.

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