KR100872071B1 - Mobile communication terminal and method for measuring and storing periodically position information, location based service system and location based server using mobile communication terminal - Google Patents

Abstract

A location-based service system and a location-based server are provided to measure and store location information in a mobile terminal periodically, and then offer the stored location information to the location-based service providing server or a location-based application. A mobile communications terminal(110) which periodically measures and stores location information comprises the followings: a key input unit which is an input means for receiving commands of a mobile terminal user; a display unit for displaying the location based service which is provided to the location-based server and a location-based application; a memory unit for storing location information data which includes location information at the location information measurement/storing period; and a controller for storing the location information data produced at the location information measurement/storing period in the memory unit.

Description

Mobile Communication Terminal and Method for Measuring and Storing Periodically Position Information, Location Based Service System and Location Based Server Using Mobile Communication Terminal}

1 is a diagram schematically showing a system for providing a location based service according to a preferred embodiment of the present invention;

2 is a diagram briefly showing an internal configuration of a mobile communication terminal according to an embodiment of the present invention;

3 is a view briefly showing an internal configuration of a location-based server according to an embodiment of the present invention;

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

<Description of Symbols for Main Parts of Drawings>

110: mobile communication terminal 120: wireless access network

122: base station transmitter 124: base station controller

130: mobile switching center 140: location-based server

210: key input unit 220: display unit

230: memory unit 240: control unit

250: GPS module

The present invention relates to a mobile communication terminal and method for periodically measuring and storing location information, a location based service system and a location based server using the same. More specifically, a mobile communication terminal and method for periodically measuring and storing location information inside a mobile communication terminal and periodically providing stored location information to a location-based service providing server or a location-based application, using the location-based service using the same It provides a system and location-based server to provide.

As computer, electronic, and communication technologies have made rapid progress, various wireless communication services using a wireless network 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.

In addition, in order to provide a communication service that transcends space, a wireless Internet service that provides an Internet communication service to a mobile communication service subscriber through a wireless communication network has emerged, and many companies are developing technologies for the wireless Internet. The wireless Internet service is an advanced personalization service according to the use of the mobile communication 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 order to determine the location of the mobile terminal in the location-based service providing server or location-based application that provides the location-based service, the location of the mobile terminal in the location-based service providing server or the location-based application providing the location-based service The location information request message, which is a message for requesting the provision of the information, should be transmitted to the mobile communication terminal to receive the location information from the mobile communication terminal.

Here, if the mobile communication terminal requested to provide the location information is a GPS terminal equipped with a GPS (Global Positioning System) module, the mobile communication terminal drives the GPS module to search for a GPS signal, and then uses a terminal-based GPS. The location information is measured by a method or an MS-Assisted GPS method, and the measured location information is transmitted to a location-based service providing server or a location-based application.

If the mobile communication terminal requested to provide location information is a GPS terminal not equipped with a GPS module, the mobile communication terminal searches for a base station latitude and longitude value included in a system parameter transmitted through a Cell ID (base station ID) and an overhead channel. The location information is measured by a method, and the measured location information is transmitted to a location-based service providing server or a location-based application.

Since the location information measurement process of the mobile communication terminal is performed after the mobile communication terminal receives the location information request message transmitted from the location-based service providing server or the location-based application providing the location-based service, the time point for requesting the location-based service Failure to provide services based on previous location information. In addition, the user who is using the location-based service through the location-based service providing server or the location-based application can check the location of the mobile communication terminal in the location-based service after waiting for a predetermined time to complete the location information generation process. That is, due to the location information measurement process of the mobile communication terminal, there is a problem in that the location-based service providing server or the location-based application cannot immediately respond to the user's location service request.

Here, the location-based service providing server transmits the location information request message to the mobile communication terminal through the mobile communication network, and the location-based application, which is an internal application of the mobile communication terminal, transmits the location information request message through the data transmission path inside the mobile communication terminal. Transmission to the control unit of the mobile communication terminal. In the following description, "Location-based application sends the location information request message to the control unit of the mobile terminal through the data transmission path inside the mobile terminal" to "Location-based application transmits the location information request message to the mobile terminal" Write briefly.

Also, in order to perform the movement trajectory checking service, which is a service providing a user with a movement trajectory of the mobile communication terminal, rather than the position of a specific time, the location information request message is moved by the location based service providing server or the location based application. It should be sent periodically to the communication terminal.

In order to provide the user with the precise movement trajectory of the mobile communication terminal in the location-based service providing server or the location-based application, the location information request message should be transmitted to the mobile communication terminal as short as possible.

When the location-based service providing server provides the movement trajectory checking service, data is frequently transmitted and received between the location-based service providing server and the mobile communication terminal, which causes a large load on the network and increases the cost of the mobile trajectory confirmation of the mobile communication terminal. In the case of providing the mobile locus check service in the location-based application, data transmission and reception between the location-based application and the mobile terminal is frequently performed, leading to a high battery consumption of the mobile terminal or an overload of the mobile terminal. There is a problem that can be slow.

In order to solve the above problems, the present invention provides a mobile communication terminal and method for periodically measuring and storing location information inside a mobile communication terminal, and periodically providing stored location information to a location-based service providing server or a location-based application. The purpose of this is to provide a location-based service system and a location-based server that provides location-based services.

In order to achieve the above object, the present invention includes an antenna, a wireless circuit unit, a microphone and a speaker, in the mobile communication terminal for measuring and storing position information, as an input means for receiving a command of the user of the mobile communication terminal, A key input unit configured to receive a command for accessing a location-based server or a command for executing a location-based application from the mobile communication user; A display unit configured to display a location based service provided by the location based server or the location based application; A memory unit which stores an internal algorithm for measuring location information of the mobile communication terminal and the location-based application and stores location information data including the location information at each location information measurement / storage period; Receiving a location measurement message from the location-based server or location-based application measures the location information, and stores the location information data generated in each of the location information measurement / storage period in the memory unit, the location-based server or the A mobile communication terminal for periodically measuring and storing location information, characterized in that it comprises a control unit for performing a control for delivering one or more location information data when receiving at least one of a plurality of location information request messages from a location-based application. To provide.

According to another object of the present invention, there is provided a method for measuring and storing location information in a mobile communication terminal, the method comprising the steps of: (a) receiving, by the mobile terminal, a location measurement message from a location-based server or a location-based application; (b) when the mobile communication terminal measures the location information at each location information measurement / storage period, stores the location information data including the location information in a random access memory (RAM), and then arrives at a nonvolatile memory storage period. Moving one or more location information data stored in the RAM to a nonvolatile memory and storing the location information data; And (c) when the mobile terminal is powered off or the connection between the mobile terminal and the location-based server is released or the location-based application is terminated, the mobile terminal periodically measures and stores location information. And moving the at least one location information data stored in the RAM to the non-volatile memory until the point of time at which the periodic location information measurement and storage operation is stopped, and storing the location information in the mobile communication terminal. Provides a way to measure and store information.

In addition, according to another object of the present invention, in the location-based service system for providing a location-based service through a mobile communication network, when connected to the device for providing the location-based service as a terminal using the location-based service, location measurement / Measuring location information at each storage cycle, storing location information data including the location information in a location information database (DB), and receiving at least one of a plurality of location information request messages from a device providing the location-based service. A mobile communication terminal transferring one or more location information data; And a device for providing the location-based service, when the mobile communication terminal accesses to use the location-based service, transmits a location measurement message to the mobile communication terminal through the mobile communication network, and requests the plurality of location information. And a location-based server for transmitting one or more of the messages to the mobile communication terminal and receiving the one or more location information data transmitted from the mobile communication terminal through the mobile communication network. Provides a location based service system using a mobile communication terminal to measure and store.

According to another object of the present invention, in a location-based server including a key input unit, a display unit and a communication unit, when the mobile communication terminal is connected to the location-based server, generates a location measurement message and the mobile communication through the communication unit Transmitting to the terminal, one or more location information request messages of a plurality of location information request messages to the mobile communication terminal through the communication unit, and receiving one or more location information data transmitted from the mobile communication terminal through the communication unit. A control unit which performs a control to provide a location based service using the at least one location information data; And a memory unit for storing the at least one location information data. The location-based server provides a location-based service using a mobile communication terminal that periodically measures and stores location information.

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 diagram schematically illustrating a system for providing a location based service according to a preferred embodiment of the present invention.

The system 100 for providing a location based service according to a preferred embodiment of the present invention includes a mobile communication terminal 110, a wireless access network 120, a mobile communication switching center 130, and a location based service platform (LBSP). 140 and the like.

In FIG. 1, the configuration of a system 100 for providing a location-based service for convenience of description is briefly described above. However, the system 100 for providing a location-based service according to a preferred embodiment of the present invention is a location determination server (PDE). : Position Determination Entity (MPC), Mobile Positioning Center (MPC), WAP Gateway (Gateway), Home Location Register (HLR), etc., and the mobile communication terminal 110 includes a satellite navigation system (GPS: In the case of supporting the Global Positioning System, it will be understood by those skilled in the art that additional GPS satellites are included.

The mobile communication terminal 110 is a terminal capable of voice communication and data communication with the other party through a mobile communication network. The mobile communication terminal 110 used in the present invention can access the location-based server 140 through a circuit network or a packet network.

In addition, in the present invention, the mobile communication terminal 110 is any one of a terminal that supports a global positioning system (GPS) and a terminal that does not support a satellite navigation system, and includes a GPS module, a Cell ID (Identity) scheme, PDA (Personal Digital Assistant), cellular phone, PCS (Personal Communication Service) phone, GSM (Global System for) that can measure location information through internal algorithm such as overhead channel search method and Advanced Forward Link Trilateration (AFLT) method Mobile phones, wideband CDMA (W-CDMA) phones, CDMA-2000 phones, Mobile Broadband System (MBS) phones, Digital Multimedia Broadcasting (DMB) phones, and the like. Here, even if the mobile communication terminal 110 supports the satellite navigation system, that is, even if the mobile communication terminal 110 is equipped with a GPS module, the internal algorithm is applied in the GPS shadow area where the GPS signal does not reach the mobile communication terminal 110. Measure location information through.

The mobile communication terminal 110 according to the present invention is a mobile communication terminal that mounts a location-based application inside the terminal and subscribes to a location-based service.

In the present invention, when the mobile communication terminal 110 is connected to the location-based server 140 or the location-based application of the mobile communication terminal 110 is executed, the mobile communication terminal 110 is the location-based server 140 or location-based application Receive a location measurement message from. Here, the location measurement message is a message for measuring the location information in the mobile communication terminal (110).

The mobile communication terminal 110 receiving the location measurement message measures the location information using a GPS module or an internal algorithm, and then stores the location information in the location information DB at a predetermined cycle. Here, when the mobile communication terminal 110 uses the GPS module, the location information includes at least one of latitude / longitude, location inaccuracy, moving speed, moving direction, and altitude information of the mobile communication terminal 110, and mobile communication. When the terminal 110 uses an internal algorithm, the location information includes the latitude / longitude, location inaccuracy, moving speed, moving direction, altitude information, system identification (SID), network identification (NID), and the like of the mobile communication terminal 110. It includes one or more of Base ID, Reference PN (Pseudo Noise), and Cell ID.

In addition, the mobile communication terminal 110 includes a positioning method including a GPS, a cell ID method, an overhead channel search method, and an AFLT method in the location information DB, and a location measurement time that is a time when the location measurement is performed ( Save the Time Stamp together with the location information. Here, the data including the position information, the position measurement time and the positioning method are defined as position information data.

Meanwhile, when the capacity of the location information DB reaches the maximum memory capacity of the mobile communication terminal 110, the mobile communication terminal 110 first-in-first-out (FIFO: First In First Out) the location information data stored in the mobile communication terminal 110. Manage memory capacity by deleting in a manner.

In the present invention, the location information measurement / storage period, which is a predetermined period for measuring the location information and storing the location information data in the mobile communication terminal 110, may be set by the terminal manufacturer or transmitted from the location based server 140. Detailed description of the configuration in which the mobile communication terminal 110 stores the location information data in the present invention will be described with reference to FIGS. 2 and 3.

In addition, when the mobile communication terminal 110 receives one or more location information request messages among the plurality of location information request messages from the location based server 140 or the location based application, the mobile communication terminal 110 locates the location information data suitable for the received location information request message. Deliver to base server 140 or location based application. Here, the plurality of location information request messages include a recent N location information request message, a location information request message in a recent T time, a future N location information request message, a location information request message in a future T time, and the like. As described above, the mobile communication terminal 110 transmits one or more location information data to the location-based server 140 or the location-based application according to one or more location information request messages received from the plurality of location information request messages.

When the latest N location information request messages are received from the location-based server 140 or the location-based application, the mobile communication terminal 110 stores the latest N pieces of location information data stored in the location information DB at each location information measurement / storage period. The location information data is extracted and transferred to the location based server 140 or the location based application.

In this case, when N = 1, the mobile communication terminal 110 of the present invention does not perform the process of measuring the location information, and is stored at the closest time to the time of receiving the latest one location information request message from the location information DB. The location information data is extracted and transmitted to the location based server 140 or the location based application. As such, the mobile communication terminal 110 according to the present invention may immediately provide location information data for the latest location information request message to the location based server 140 or the location based application.

When receiving the location information request message within the latest T time from the location-based server 140 or the location-based application, the mobile terminal 110 measures the location among the location information data stored in the location information DB for each location information measurement / storage cycle. Extract one or more location information data corresponding to the time in the latest T time and transmit the extracted location information to the location-based server 140 or the location-based application.

In the case where N future location information request messages are received from the location based server 140 or the location based application, the mobile communication terminal 110 measures the location information in the location information DB from the time when the future N location information request messages are received. When the number of location information data stored in the location information DB becomes N by accumulating the number of location information data stored for each storage cycle, the location-based server 140 stores N location information data stored in the location information DB. Deliver to location based applications. Here, the location information data is stored in the location information DB for each location information measurement / storage cycle.

When receiving the location information request message within the next T hours from the location-based server 140 or the location-based application, the mobile terminal 110 receives the location information DB from the time point at which the location information request message is received within the future T hours. Deliver one or more location information data stored in the location-based server 140 or location-based application.

In the present invention, the mobile communication terminal 110 transmits the accumulated location information data as described above using a data burst message or a wireless packet network, and connects to the mobile communication network once to collectively store the accumulated location information data. Can be sent as For example, when the mobile communication terminal 110 having the location information measurement / storing period of 2 minutes receives the location information request message from the location-based server 140 or the location-based application within the next 10 minutes, the mobile communication terminal 110 Five (= 10/2) location information data may be collectively transmitted to the location-based server 140 or location-based application.

In addition, if the location information request message received from the location-based server 140 or the location-based application includes the encryption request key, which is a key value for requesting the encryption of the location information data, the mobile communication terminal 110 performs SHA-. The location information data may be encrypted and stored in the location information DB through an encryption algorithm such as 1 or XOR, and the encrypted location information data may be transmitted to the location based server 140 or the location based application.

When the power off of the mobile communication terminal 110 or the mobile communication terminal 110 receives a positioning stop message from the location-based server 140 or the location-based application of the mobile communication terminal 110 terminates, 110 stops the periodic location information measurement and storage operation.

In the present invention, when the positioning method of the mobile communication terminal 110 is a cell ID method, since one cell ID includes a relatively wide area, when the mobile communication terminal 110 moves within one cell ID area, the same location information is used. (Cell ID) has a location information data that differs only in the location measurement time in the location information DB to waste the memory of the mobile communication terminal (110). For example, the location information DB stored by the mobile communication terminal 110 has a cell ID of X at 00:55 which is a location measurement time, a cell ID of Y at 01: 00, and 01:05 If Cell ID is Y and Cell ID is Y at 04:05, the actual meaningful information is in the area where Cell ID is X until 00:55, and Cell ID is Y until 04:05. In this case, it can be inferred even without storing Cell ID value of Y, which is the same location information between 01: 00 and 04: 05.

Therefore, in the present invention, when the positioning method of the mobile communication terminal 110 is the Cell ID method, the mobile communication terminal 110 periodically measures the location information and stores the location information data, but the cell is the location information of the location information data. If the ID is the same two or more times, only the position measurement time of the position information data previously stored in the position information DB is updated to the latest time.

Meanwhile, the location-based application, which is an internal application of the mobile communication terminal 110, has a similar technical configuration to that of the location-based server 140 to be described later, that is, when the mobile communication terminal 110 executes the location-based application, The location measurement message is transmitted to the control unit of the mobile communication terminal 110, which will be described later, through the data transmission path therein. In addition, the location-based application requests the mobile communication terminal 110 the latest N location information request messages, the location information request message within the latest T time, and future N location information requests to provide the location-based service to the mobile communication terminal 110. One or more of the plurality of location information request messages including a message, a location information request message in a future T time, and the like are transmitted to the controller of the mobile communication terminal 110 through a data transmission path inside the mobile communication terminal 110. Here, the location-based application may include an encryption request key, which is a key value for requesting encryption of location information data, in the plurality of location information request messages and transmits the encrypted request key to the mobile communication terminal 110.

In addition, when the location-based application receives any one of the latest N location information data, the location information data in the latest T time, the future N location information data and the location information data in the future T time from the control unit of the mobile communication terminal 110 It provides a user with a location-based service using one or more location information data, such as a movement trajectory identification service. Here, the location based application includes a function of decrypting the encrypted location information data.

The radio access network 120 includes a base station transmitter 122, a base station controller 124 and a repeater (not shown), and supports both synchronous and asynchronous.

Here, in the case of synchronous, the transmitting and receiving base station transmitter will be a base-station transmission system (BTS), and the transmitting and receiving base station controller will be a base station controller (BSC). The Transceiver Subsystem, the transmitting and receiving base station controller will be a Radio Network Controller (RNC). 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 base station transmitter 122 is arranged in units of cells, and receives a call request signal from the mobile communication terminal 110 through a traffic channel among signal channels, and receives the received call request signal from the base station controller. The location registration is performed to determine the location of the mobile communication terminal 110 which is transmitted to 124 or existing in the cell area under its control. 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.

For example, when the mobile communication terminal 110 is a receiving side, the base station transmitter 122 determines the location of the mobile communication terminal 110 existing in its cell area, and thus, the base station controller (the base station controller) is determined from the mobile communication switching center 130. The call request signal transmitted through 124 is transmitted to the mobile communication terminal 110 existing in the cell area under its control.

In addition, the base station transmitter 122 may obtain information such as the longitude of the base station transmitter 122 from the GPS (Global Positioning System), and transmit the system parameter message of the forward link call channel to the position information of the base station transmitter 122. Transfer to the mobile communication terminal 110 through. The mobile communication terminal 110 may register new location information by measuring the moving distance of the mobile communication terminal 110 itself using the location information of the base station transmitter 122 of the cell to which the mobile communication terminal 110 belongs.

Here, the location registration is a processing procedure for notifying the mobile switching center 130 of the location, status, identifier, slot period, and other features of the mobile communication terminal 110 through the base station transmitter 122, and the base station transmitter 122 Is a procedure for effectively calling the mobile communication terminal 110 when a call is to be set to the mobile communication terminal 110. Such a location registration of the mobile communication terminal 110 is performed when the mobile communication terminal 110 moves between the mobile communication switching stations 130 when the power of the mobile communication terminal 110 is turned on or off. And when a parameter of the mobile communication terminal 110 is changed.

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, the base station transmitter 122, and inter-cell soft handoff. And hard handoff determination, transcoding and vocoding, GPS clock distribution, and operation and maintenance of the base station. In addition, the base station controller 124 transmits subscriber information of the location-registered mobile communication terminal 110 to the mobile communication switching center 130. The base station controller 124 transmits the call request signal transmitted from the mobile communication terminal 110 through the base station transmitter 122 to the mobile communication switching station 130, and vice versa. It transmits the transferred call request signal to the mobile communication terminal 110 through the base station transmitter 122.

The mobile switching center 130 performs basic and additional service processing, subscriber's incoming and outgoing signal processing, location registration procedure and handoff procedure processing, interworking function with other network, and the like. The mobile switching center 130 of the IS-95A / B / C system includes an access switching subsystem (ASS) that performs distributed call processing, an INS (interconnection network subsystem) that performs centralized call processing, operation and maintenance. It includes a subsystem such as a Central Control Subsystem (CCS) that is in charge of the centralization function, and a Location Registration Subsystem (LRS) that performs a function of storing and managing information on a mobile subscriber.

In addition, the mobile switching center 130 for the third and fourth generation may include an Asynchronous Transfer Mode (ATM) switch. The ATM switch increases the transmission rate and the efficiency of line use by packet transmission in a cell unit.

When the location registration of the mobile communication terminal 110 is performed through the wireless access network 120, the mobile communication switching station 130 temporarily stores subscriber information of the mobile communication terminal 110 in a visitor location register (not shown). Request a location registration of the mobile communication terminal 110 to a home location register (not shown).

The location-based server 140 is a service server that provides a plurality of additional services based on the location of the mobile communication terminal 110. The location-based server 140 subscribes to a service for location-based services from a mobile subscriber using the mobile communication terminal 110. Receive, search the location of the mobile communication terminal 110 in conjunction with a home location register (not shown), location center (not shown), location determination server (not shown), and provides a variety of additional services based on the searched location do.

When the mobile communication terminal 110 accesses the location-based server 140 in the present invention, the location-based server 140 transmits a location measurement message to the mobile communication terminal 110 through the mobile communication network. In addition, the location-based server 140 may request the mobile communication terminal 110 to provide the latest N location information request messages, the location information request message within the last T time, and N future locations to provide the location-based service to the mobile communication terminal 110. At least one of a plurality of location information request messages including a location information request message, a location information request message in a future T time, and the like is transmitted to the mobile communication terminal 110 through the mobile communication network. Here, the location-based server 140 may transmit an encryption request key, which is a key value for requesting encryption of location information data, to the mobile communication terminal 110 in the plurality of location information request messages.

When the location-based server 140 receives any one of the latest N location information data, the location information data in the latest T time, the future N location information data, and the location information data in the future T time from the mobile communication terminal 110, Provide a user with a location-based service using one or more location information data, such as a moving track identification service. Here, when the mobile communication terminal 110 encrypts and transmits the location information data, the location-based server 140 may decrypt the encrypted location information data by using the encryption request key.

In addition, the location-based server 140 transmits a positioning stop message to the mobile communication terminal 110 to stop the measurement and storage operation of the periodic location information in the mobile communication terminal (110).

2 is a diagram briefly illustrating an internal configuration of a mobile communication terminal according to a preferred embodiment of the present invention.

The mobile communication terminal 110 according to the preferred embodiment of the present invention includes a key input unit 210, a display unit 220, a memory unit 230, a control unit 240, a GPS module 250, and an audio converter 260. , A wireless circuit unit 270, an antenna 280, a speaker 290, a microphone 295, and the like.

In FIG. 2, the mobile communication terminal 110 includes the GPS module 250, but the mobile communication terminal 110 according to the preferred embodiment of the present invention does not include the GPS module 250 and the memory unit 230. The location information may be measured by an internal algorithm stored in the cell (eg, the Cell ID method, the overhead channel search method, and the AFLT method).

The key input unit 210 is composed of a function button for executing a function as an input means for receiving a command of a mobile communication terminal user and transmitting it to the control unit 240 and a general button for inputting letters or numbers. In the present invention, the key input unit 210 receives a command for accessing the location-based server 140 from the mobile communication terminal user and transmits it to the control unit 240, or receives a command for executing the location-based application control unit 240 To pass).

The display unit 220, under the control of the controller 140, an information screen for notifying information of the mobile communication terminal 110, a menu screen showing various functions, an input screen for inputting letters or numbers, a picture or a photo. Provides an editing screen that allows you to edit, a screen that connects to the wireless Internet, and so on. In the present invention, the display 220 displays the location-based service provided by the location-based server 140 or location-based application.

The memory unit 230 stores a program for driving a function processed by the controller 240, a predetermined program for realizing user convenience and basic functions.

In the present invention, the memory unit 230 includes an internal algorithm and a location-based application for measuring location information in the mobile communication terminal 110 when the GPS shadow area or the mobile communication terminal 110 does not have the GPS module 250. Save it.

In addition, in the present invention, the memory unit 230 includes a random access memory (RAM) 232 and a non-volatile memory (NV) 234, and includes a random access memory (RAM) 232 and a nonvolatile memory 234. The location information data is stored in the location information DB using the memory area. Here, the position information data is stored for each position information measurement / storage cycle.

In the present invention, the memory unit 230, if the location information request message received from the location-based server 140 or location-based application includes an encryption request key, which is a key value for requesting the encryption of location information data, SHA- Stores encrypted location information data through an encryption algorithm such as 1 or XOR.

The location information data stored in the memory unit 230 at each location information measurement / storage period is first stored in the RAM 232 of the memory unit 230. This is because the RAM 232 is easier to read and write information than the nonvolatile memory 234. Here, the period in which the RAM 232 stores the location information data is the same as the location information measurement / storage period.

When the nonvolatile memory storage cycle arrives, the RAM 232 may move one or more position information data stored in the RAM 232 to the nonvolatile memory 234 at each position information measurement / storage period under the control of the controller 240. Stored. Here, the nonvolatile memory storage cycle is a cycle for moving one or more location information data stored in the RAM 232 to the nonvolatile memory 234, and is set equal to or greater than the location information measurement / storage cycle.

In the present invention, the reason for moving the one or more location information data stored in the RAM 232 to the nonvolatile memory 234 at every nonvolatile memory storage cycle is that the location information data stored in the RAM 232 is stored in the mobile communication terminal 110. Is erased when rebooting, and the reason why the nonvolatile memory storage cycle is set larger than the information measurement / storage period is that the read / write of information performed by the nonvolatile memory 234 is performed more than the RAM 232. This requires a large amount of computation and power consumption.

When the capacity of the location information data stored in the nonvolatile memory 234 reaches the maximum memory capacity of the nonvolatile memory 234, the nonvolatile memory 234 preemptively selects the location information data under the control of the controller 240. FIFO) method. That is, the location information data is deleted in the order stored in the nonvolatile memory 234.

On the other hand, when the non-volatile memory storage cycle has not arrived, when the power of the mobile communication terminal 110 is turned off or when the mobile communication terminal 110 disconnects from the location-based server 140 or terminates the location-based application, the memory The unit 230 moves and stores the location information data stored in the RAM 232 to the nonvolatile memory 234 under control of the controller 240.

The control unit 240 executes a driving program stored in the memory unit 230 according to the instruction of the user of the mobile communication terminal input through the key input unit 210 to execute a phone book, mobile phone setting, schedule management, game, screen setting, and volume. Controls various menu items such as ringtones and call services.

In the present invention, the control unit 240 receives the location measurement message transmitted by the location-based server 130 or the location-based application through the antenna 280 and the wireless circuit unit 270 or transmits data in the mobile communication terminal 110. Receive via path.

Upon receiving the location measurement message, the controller 240 controls the GPS module 250 to measure location information every location information measurement / storage period or measures location information using an internal algorithm every location information measurement / storage period. In this case, when the control unit 240 measures the location information by using an internal algorithm for each location information measurement / storage period, the mobile communication terminal 110 is located in the GPS shadow area and the GPS module 250 does not receive the GPS signal. In this case, the mobile communication terminal 110 does not include the GPS module 250.

In addition, the controller 240 controls the memory unit 230 to store the location information data generated for each of the location information measurement / storage cycles in the RAM 232, and then, when the nonvolatile memory storage cycle arrives, the RAM 232. By controlling the control, one or more location information data stored in the RAM 232 is moved to and stored in the nonvolatile memory 234.

When the capacity of the location information data stored in the nonvolatile memory 234 reaches the maximum memory capacity of the nonvolatile memory 234, the controller 240 controls the nonvolatile memory 234 to store the nonvolatile memory 234. The location information data is first-in-first-out (FIFO).

When the latest N location information request messages are received from the location-based server 140 or the location-based application, the controller 240 performs the last N location information among the location information data stored in the RAM 232 or the nonvolatile memory 234. Extract the data, and transmit the extracted last N location information data to the location-based server 140 through the antenna 280 and the wireless circuit unit 270 or location-based application through the data transmission path inside the mobile communication terminal 110 To pass.

When the location information request message within the last T time is received from the location-based server 140 or the location-based application, the controller 240 may determine the location measurement time from the location information data stored in the RAM 232 or the nonvolatile memory 234. One or more location information data corresponding to the latest T time are extracted and transmitted to the location-based server 140 or the location-based application.

When the N-location information request messages are received from the location-based server 140 or the location-based application in the future, the controller 240 starts the RAM 232 or the nonvolatile memory 234 from the time when the N-location information request messages are received in the future. The number of the location information data stored in the multiplication information is stored in the RAM 232 or the nonvolatile memory 234 and the number of the location information data periodically stored in the RAM 232 or the nonvolatile memory 234 becomes N. The RAM 232 or the nonvolatile memory 234 The N location information data stored in the data is transmitted to the location based server 140 or the location based application. Here, the location information data is stored in the RAM 232 for each location information measurement / storage cycle, and when the nonvolatile memory storage cycle arrives, the location information data is moved from the RAM 232 to the nonvolatile memory 234 and stored.

When receiving the location information request message in the future T time from the location-based server 140 or the location-based application, the control unit 240 is a RAM 232 or the time from the time point of receiving the location information request message in the future T time or The one or more location information data stored in the nonvolatile memory 234 is transferred to the location based server 140 or the location based application.

If the location information request message received from the location-based server 140 or the location-based application includes an encryption request key that is a key value for requesting encryption of location information data, the controller 240 displays SHA-1 or The location information data is encrypted and stored in the memory unit 230 through an encryption algorithm such as an XOR method, and the encrypted location information data is transmitted to the location based server 140 or the location based application.

When the mobile terminal 110 receives a positioning stop message from the power-off or location-based server 140 or the location-based application of the mobile terminal 110 is terminated, the controller 240 performs periodic location information. The measurement and storage operations are stopped and the memory unit 230 is controlled to move and store one or more location information data stored in the RAM 232 to the nonvolatile memory 234.

In the present invention, when the positioning method of the mobile communication terminal 110 is the Cell ID method, the controller 240 periodically measures the location information and stores the location information data, but the cell ID, which is the location information of the location information data, is twice. If the above is the same, only the position measurement time of the position information data previously stored in the memory unit 230 is updated to the latest time.

The GPS module 250 receives a GPS signal from a GPS satellite (not shown) and measures the position of the mobile communication terminal 110. Here, since the GPS module 250 measures the position of the mobile communication terminal 110, a detailed description thereof will be omitted.

The radio circuit unit 270 demodulates and amplifies an RF signal received from the antenna 280, modulates a transmission signal applied from an audio converter (not shown), and transmits the modulated signal to a mobile communication system.

3 is a diagram briefly illustrating an internal configuration of a location based server according to a preferred embodiment of the present invention.

The controller 310 is a module that controls the overall functions of the location-based server 140.

In the present invention, when the mobile communication terminal 110 is connected to the location-based server 140, the controller 310 generates a location measurement message, and transmits the location measurement message to the mobile communication terminal 110 through the communication unit 350. And location information of one or more of the plurality of location information request messages including the latest N location information request messages, the location information request messages in the last T hours, the future N location information request messages, the location information request messages in the future T hours, and the like. A request message is generated and transmitted to the mobile communication terminal 110 through the communication unit 350.

In the present invention, the control unit 310 may generate an encryption request key, include it in a plurality of location information request messages, transmit it to the mobile communication terminal 110, and store the encryption request key in the memory unit 320.

On the other hand, when the control unit 310 receives any one of the last N position information data, the position information data in the latest T time, the future N position information data and the position information data in the future T time through the communication unit 350, A control is performed to provide a user with a location based service using at least one piece of location information data such as a moving track identification service. If the location information data is encrypted, the control unit 310 transmits the encrypted location information data to the decryption unit 360 and receives the decrypted location information data from the decryption unit 360.

The memory unit 320 temporarily stores data processed by the controller 310 or stores a program for performing a function of the location based server 140 and stores data necessary for the operation of the location based server 140.

In the present invention, the memory unit 320 may store the location information data received from the communication unit 350 among the latest N location information data, the location information data in the latest T time, the future N location information data, and the location information data in the future T time. Save it.

In the present invention, when the control unit 310 generates the encryption request key, the memory unit 320 receives and stores the encryption request key from the control unit 310.

The display unit 330 may provide related information so that an administrator who manages the location-based server 140 may check an operation process or an error of the location-based server 140 and the processing status according to key input from the key input unit 340. Outputs to a panel or monitor using a light emitting diode (LED).

The key input unit 340 is used by the administrator to manually input data or commands for manipulating the location-based server 140.

The communication unit 350 is a module that provides a communication interface for the location-based server 140 to communicate with a mobile communication network, a home location register (not shown), a location center (not shown), and a location determination server (not shown). .

The decryption unit 360 decrypts the encrypted location information data using the encryption request key stored in the memory unit 320 and transmits the encrypted location information data to the control unit 310.

4 is a flowchart illustrating a process of storing and using location information in a mobile communication terminal according to an exemplary embodiment of the present invention.

When the mobile terminal 110 accesses the location-based server 140 or when the location-based application is executed on the mobile terminal 110, the mobile terminal 110 measures the location from the location-based server 140 or the location-based application. Receive the message (S410, S420). Here, the location-based server 140 or the location-based application may include an encryption request key, which is a key value for requesting encryption of location information data, in the location information request message and transmit it to the mobile communication terminal 110.

After receiving the location measurement message, the mobile communication terminal 110 measures location information using a GPS module or an internal algorithm, and stores location information data including location information, location measurement time, and positioning method in the location information DB. To perform the location information measurement / storage cycle (S430, S440, S450). Here, if the location measurement message includes an encryption request key, the mobile terminal 110 encrypts the location information data and stores the location information data in the location information DB, and stores the encrypted location information data in the location-based server 140 or the crisis-based application. Can transmit

Here, the mobile communication terminal 110 stores the location information data in the RAM 232 for each location information measurement / storage period, and then deactivates one or more location information data stored in the RAM 232 when the nonvolatile memory storage period arrives. Move to and store the volatile memory 234. In addition, when the capacity of the location information DB reaches the maximum memory capacity of the nonvolatile memory 234, the mobile communication terminal 110 stores the location information stored in the nonvolatile memory 234 in a first in first out (FIFO) manner. Data is deleted to manage the memory capacity of the nonvolatile memory 234.

When the mobile station 110 receives a positioning stop message from the power-off or location-based server 140 or the location-based application of the mobile terminal 110 terminates, the mobile terminal 110 periodically The location information measuring and storing operation is stopped (S460 and S470). If the mobile communication terminal 110 is not turned off in step S450, does not receive a positioning stop message from the location-based server 140, and the location-based application is still running, step S440 is performed.

Here, the mobile communication terminal 110 moves and stores one or more location information data stored in the RAM 232 to the nonvolatile memory 234 even when the time at which the location information measurement and storage operation is stopped is not the nonvolatile memory storage cycle. .

When the mobile communication terminal receives the latest N location information request messages from the location-based server 140 or the location-based application while performing the steps S430 to S450, the mobile communication terminal 110 may perform every location information measurement / storage cycle. The latest N location information data is extracted from the location information data stored in the location information DB and transmitted to the location based server 140 or the location based application.

When the mobile communication terminal 110 receives the location information request message within the latest T time from the location-based server 140 or the location-based application while performing the steps S430 to S450, the mobile communication terminal 110 measures the location information. At least one location information data corresponding to a location measurement time within a recent T time is extracted from the location information data stored in the location information DB for each storage period and transmitted to the location based server 140 or the location based application. Here, the mobile communication terminal 110 transmits one or more location information data to a location-based server through a mobile communication network or one or more location information data to a location-based application through a data transmission path inside the mobile communication terminal.

When the mobile communication terminal receives the N future location information request messages from the location based server 140 or the location based application while performing the steps S430 to S450, the mobile communication terminal 110 requests the future N location information request messages. When the number of location information data stored in the location information DB becomes N by accumulating the number of location information data stored in the location information DB for each measurement / period from the time point of receiving the information, N stored in the location information DB Location information data to the location-based server 140 or location-based application.

When the mobile communication terminal receives the location information request message in the future T time from the location-based server 140 or the location-based application while performing the steps S430 to S450, the mobile communication terminal 110 receives the location information in the future T time. At least one location information data stored in the location information DB from the time point at which the request message is received to the T time is transmitted to the location-based server 140 or the location-based application.

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, since the mobile communication terminal periodically measures and stores location information, and requests one or more location information from a location-based server or a location-based application, one or more location information is collectively transmitted. In the case where the location-based service providing server provides the mobile locus checking service, the load on the network is reduced, the cost of the mobile locomotive checking of the mobile communication terminal is saved, and the mobile locus confirmation service is provided by the location-based application. The number of data transmission and reception between the location-based application and the mobile communication terminal is reduced, thereby reducing the battery consumption of the mobile communication terminal and preventing overload of the mobile communication terminal.

In addition, it is possible to provide a service based on location information before the time point of requesting the location-based service, it is effective to reduce the response time of the location-based service.

Claims (20)

A mobile communication terminal including an antenna, a wireless circuit unit, a microphone, and a speaker, and measuring and storing location information, An input unit for receiving a command of a mobile communication terminal user, comprising: a key input unit for receiving a command for accessing a location-based server or a command for executing a location-based application from the mobile communication user; A display unit configured to display a location based service provided by the location based server or the location based application; A memory unit for storing the location-based application and storing location information data including the location information at each location information measurement / storage period; Receiving a location measurement message from the location-based server or the location-based application measures the location information, and stores the location information data generated for each of the location information measurement / storage period in the memory unit, the location-based server or Control unit for performing a control for transmitting one or more location information data when receiving at least one of a plurality of location information request messages of different types of location information from the location-based application Mobile communication terminal for periodically measuring and storing the location information comprising a. The method of claim 1, wherein the mobile communication terminal A GPS module may further include a GPS module configured to receive a GPS signal from a satellite and measure the location information, wherein the controller controls the GPS module at each measurement / storage period to measure the location information. Mobile communication terminal for periodically measuring and storing the location information, characterized in that. The method of claim 1, The memory unit may further store an internal algorithm for measuring the location information, and the controller may not be able to receive a GPS signal because the mobile communication terminal is located in a GPS shadow area or the mobile communication terminal does not have a GPS module. If not, the mobile terminal for measuring and storing the location information periodically characterized in that for measuring the location information for each of the location information measurement / storage period using the internal algorithm. The method of claim 1, The location information data includes a positioning method including any one of a GPS, a Cell ID (Identity) method, an overhead channel search method, and an Advanced Forward Link Trilateration (AFLT) method, and a time stamp that is a time at which position measurement is performed. And periodically measuring and storing location information comprising the location information. The method of claim 3, wherein The internal algorithm is a mobile communication terminal for periodically measuring and storing the location information, characterized in that any one of a cell ID method, an overhead channel search method and an AFLT method. The method of claim 5, wherein When the location information is measured by the Cell ID method, the controller measures the location information for each location information measurement / storage period and stores the location information as the location information data. And periodically measuring and storing the location information, wherein the location measurement time of the location information data previously stored in the memory unit is updated to the latest time. The method of claim 1, The memory unit includes a random access memory (RAM) and a non-volatile memory (NV), and stores the location information data in the RAM at every measurement / storage period of the location information under the control of the controller. And at least one location information data stored in the RAM is stored in the nonvolatile memory when a nonvolatile memory storage cycle arrives. The method of claim 7, wherein When the capacity of the location information data stored in the nonvolatile memory reaches the maximum memory capacity of the nonvolatile memory, the memory unit preemptively selects location information data stored in the nonvolatile memory under control of the controller (FIFO: First In First Out) a mobile communication terminal for periodically measuring and storing the location information, characterized in that for deleting. The method of claim 7, wherein When the mobile communication terminal is powered off or receives a positioning stop message from the location-based server or terminates the location-based application in a situation where the nonvolatile memory storage period does not arrive, the memory unit is controlled by the controller. And at least one location information data stored in the RAM is moved to and stored in the nonvolatile memory. The method of claim 1, The plurality of location information request messages may include location information request messages including recent N location information request messages, location information request messages in a recent T time, future N location information request messages, and location information request messages in a future T time. Mobile communication terminal for measuring and storing periodically. The method of claim 10, When the controller receives the recent N location information request messages, the controller extracts the latest N location information data from the location information data stored in RAM or nonvolatile memory, and extracts the latest N location information data from the antenna. And periodically transmitting and measuring location information to a location based server through the wireless circuit unit or to a location based application through a data transmission path inside the mobile communication terminal. The method of claim 10, When the controller receives the location information request message within the latest T time, the controller extracts one or more location information data whose location measurement time corresponds to the latest T time from the location information data stored in RAM or nonvolatile memory. A mobile communication terminal for periodically measuring and storing the location information, characterized in that for transmitting to the location-based server via the antenna and the wireless circuit unit or to the location-based application through a data transmission path inside the mobile communication terminal. The method of claim 10, When the controller receives the N future location information request messages, the controller integrates the number of location information data stored in RAM or nonvolatile memory from the time when the N future location information request messages are received. When the number of location information data stored in the RAM or the nonvolatile memory reaches N, the N location information data stored in the RAM or the nonvolatile memory is transmitted to the location-based server through the antenna and the wireless circuit unit or mobile communication. A mobile communication terminal for periodically measuring and storing location information, characterized in that for transmitting to a location-based application through a data transmission path inside the terminal. The method of claim 10, When the control unit receives the location information request message within the future T time, the control unit stores one or more location information data stored in RAM or a nonvolatile memory from the time point of receiving the location information request message within the future T time to T time. And measuring and storing the location information periodically, by transmitting the data to a location-based server through the antenna and the wireless circuit unit or to a location-based application through a data transmission path inside the mobile communication terminal. The method of claim 1, If the at least one of the plurality of location information request messages includes an encryption request key which is a key value for requesting encryption of the location information data, the controller encrypts the location information data through an encryption algorithm to the memory. And measuring and storing the location information periodically, wherein the location information is stored in the storage unit and the encrypted location information data is transmitted to the location-based server or the location-based application. In the method for measuring and storing the location information in the mobile communication terminal, (a) receiving, by the mobile terminal, a location measurement message from a location based server or a location based application; (b) when the mobile communication terminal measures the location information at each location information measurement / storage period, stores the location information data including the location information in a random access memory (RAM), and then arrives at a nonvolatile memory storage period. Moving one or more location information data stored in the RAM to a nonvolatile memory and storing the location information data; And (c) when the mobile terminal is powered off or receives a positioning stop message from the location based server, or when the location based application is terminated, the mobile terminal stops periodically measuring and storing the location information; Moving and storing one or more location information data stored in the RAM to the nonvolatile memory until a point in time at which the location information measurement and storage operation is stopped. Method for measuring and storing location information in a mobile communication terminal comprising a. In the location-based service system for providing location-based services through a mobile communication network, When the terminal using the location-based service is connected to the device for providing the location-based service, the location information is measured every location measurement / storage period, and the location information data including the location information is stored in a location information database (DB), A mobile communication terminal transferring one or more location information data upon receiving at least one of a plurality of location information request messages having different types of location information from the device providing the location based service; And A device for providing the location-based service, wherein when the mobile communication terminal connects to use the location-based service, the mobile station transmits a location measurement message to the mobile communication terminal through the mobile communication network, and the plurality of location information request messages. Location-based server for transmitting at least one of the at least one location information data transmitted from the mobile communication terminal through the mobile communication network; Location-based service system using a mobile communication terminal for measuring and storing the location information periodically characterized in that it comprises a. A location-based server including a key input unit, a display unit, and a communication unit, When the mobile communication terminal is connected to the location-based server, a location measurement message is generated and transmitted to the mobile communication terminal through the communication unit, and any one or more location information requests from among a plurality of location information request messages having different types of location information are provided. Control to provide a location-based service using the one or more location information data when a message is transmitted to the mobile communication terminal through the communication unit and one or more location information data transmitted from the mobile communication terminal is received through the communication unit. A control unit to perform; And A memory unit for storing the at least one location information data Location-based server that provides a location-based service using a mobile communication terminal that periodically measures and stores the location information comprising a. 19. The system of claim 18, wherein the location based server When receiving the encrypted one or more location information from the mobile communication terminal, the decrypting unit for decrypting the encrypted one or more location information transmitted to the control unit Location-based server for providing a location-based service using a mobile communication terminal that periodically measures and stores the location information, characterized in that it further comprises. The method of claim 19, The control unit generates an encryption request key and includes it in the at least one location information request message and transmits it to the mobile communication terminal, and stores the encryption request key in the memory unit, and the decryption unit stores the encryption code stored in the memory unit. Location-based server using a mobile communication terminal that periodically measures and stores the location information, characterized in that for decrypting the encrypted one or more location information using a request key.

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