KR20120004745A - Server for providing satellite information and operation method thereof, and system and method for providing satellite information - Google Patents

Abstract

PURPOSE: A server for providing satellite information and an operation method thereof, and a system and a method for providing satellite information are provided to reduce initial position checking time by supplying satellite information corresponding to the service area of a navigation terminal. CONSTITUTION: A satellite information providing system(200) comprises a plurality of GPS satellites(210), a first personal digital assistant(220), a first base station(225), a second terminal(230), a second base station(235), and a satellite information providing server(240). The satellite information providing server receives satellite information through a first mobile terminal using GPS. The satellite information providing server provides satellite information corresponding to a second mobile terminal to the second mobile terminal when the GPS is operated. The satellite information providing server requests the satellite information from the mobile terminal at predetermined time and receives the ID of a base station and satellite information around the first mobile terminal. .

Description

SERVER FOR PROVIDING SATELLITE INFORMATION AND OPERATION METHOD THEREOF, AND SYSTEM AND METHOD FOR PROVIDING SATELLITE INFORMATION}

The present invention relates to a satellite information providing server, a method of operation thereof, and a system and method for providing satellite information. In particular, the present invention provides a faster navigation service by reducing the initial positioning time required to grasp the current position when starting a navigation service in a mobile terminal. The present invention relates to a satellite information providing server, a method of operating the same, and a system and method for providing satellite information.

In general, the Global Positioning System (GPS) is a global wireless navigation satellite system developed and promoted by the Ministry of Defense using NAVSTAR (NAVigation System with Time And Ranging). It is also called NAVSTAR GPS in the sense of a system. The system consists of a total of 24 navigating GPS satellites, each of which was launched on six orbital planes with an altitude of approximately 20,000 km, a period of about 12 hours, and an orbital inclination of 55 degrees, a ground control station that manages GPS satellites, and a user's mobile station. .

Twenty-four GPS satellites are arranged on six orbits so that at least six GPS satellites can be observed from most locations on the ground. When the GPS satellite signals are received from at least three GPS satellites, the GPS satellite signals can calculate the position by measuring the distance through the transmission time when the GPS satellite signals are transmitted and the reception time when the GPS satellite signals are received. However, since it is difficult to calculate the position accurately with only three, usually four or more satellites are used to determine the position.

The positioning technology using GPS satellites was originally established to measure the position of military vehicles, ships, aircrafts, etc., but since it is now available to the private sector, it is not only a navigation device mounted on a car, but also a navigation device such as a ship or a helicopter. It is applied to a navigation device of a mobile terminal such as a communication terminal and is widely used in various fields.

GPS modules used in portable terminals include S-GPS modules and A-GPS modules.

S-GPS (Simultaneous GPS) module receives GPS satellite signals from at least four GPS satellites, calculates the current position by its algorithm based on the received GPS satellite signals, and reflects the current position in the embedded map data. GPS (Assist GPS) module receives GPS satellite signals from a Position Determination Entity (PDE) server, calculates the current position, and reflects the current position in embedded map data.

Accordingly, since the S-GPS module calculates the current position by receiving GPS satellite signals from each GPS satellite, the initial positioning time required to calculate the current position at the start of the navigation service takes longer than that of the A-GPS module. have.

On the other hand, the A-GPS module has the advantage of faster initial positioning time than the S-GPS module, but the PDE server, which transmits GPS satellite signals to the A-GPS module, generally uses GPS from 7 to 8 GPS satellites at a fixed location. As the information is updated by receiving satellite signals every 24 hours, maintenance is constantly required. The GPS satellite signal affected by the weather or obstacles in a specific area is transmitted to the mobile terminal as it is and is calculated by the A-GPS module of the mobile terminal. There is a problem that can reduce the accuracy of the current position.

An object of the present invention for solving the above problems is to collect satellite information through a plurality of mobile terminals using a navigation service, and to transmit satellite information to a mobile terminal to start the navigation service, the initial position identification time of the mobile terminal. To provide a satellite information providing server and its operation method and a satellite information providing system and method for shortening.

Another object of the present invention is to store satellite information according to the base station ID and transmit the satellite information of the relevant area (base station) to the mobile terminal to provide more accurate satellite information satellite information providing server and its operation method and satellite information providing system And providing a method.

Another object of the present invention is to collect the satellite information according to the base station ID from the mobile terminal using the navigation service every predetermined time (5-6 hours) to reduce the error that can be generated by the influence of weather or obstacles satellite information The present invention provides a satellite information providing server and a method of operating the same and a system and method for providing satellite information.

Accordingly, the satellite information providing server according to the present invention collects satellite information according to the base station ID through at least one first mobile terminal using the location information service, and starts the location information service as a second mobile terminal. The satellite information corresponding to the area where the second mobile terminal is located is provided.

And requesting the satellite information to the first mobile terminal at predetermined time intervals, receiving a base station ID and the satellite information of the region where the first mobile terminal is located, and updating the satellite information according to the base station ID. It is done.

The satellite information may include at least one of a GPS satellite signal, reception state information of the GPS satellite signal, and visual information of the first mobile terminal.

The signal reception state of each region where the base station is located is investigated by using the reception state information of the GPS satellite signal.

The location information service is characterized in that the navigation service.

On the other hand, the operation method of the satellite information providing server according to the present invention, the first step of collecting satellite information according to the base station ID via at least one first mobile terminal using the location information service; And a second step of providing the satellite information corresponding to an area where the second mobile terminal is located to a second mobile terminal to start the location information service.

The first step may include requesting satellite information from the first mobile terminal; Receiving satellite information and a base station ID of an area where the first mobile terminal is located from the first mobile terminal; And classifying and updating the satellite information according to the base station ID.

The location information service is a navigation service, and searching for the first mobile terminal using the navigation service at a predetermined time.

The second step may further include receiving a base station ID of the area where the second mobile terminal is located from the second mobile terminal.

On the other hand, the satellite information providing system according to the present invention, at least one first mobile terminal using the location information service; A second mobile terminal for initiating the location information service; One or more base stations for transmitting and receiving signals to and from the first mobile terminal and the second mobile terminal; And a satellite information providing server configured to collect satellite information according to a base station ID through the first mobile terminal, and provide the satellite information corresponding to an area where the second mobile terminal is located to the second mobile terminal.

The satellite information providing server requests the satellite information to the first mobile terminal every predetermined time to receive the base station ID and the satellite information of the region where the first mobile terminal is located, and the satellite information according to the base station ID. It is characterized by updating.

On the other hand, the satellite information providing method according to the present invention, the satellite information providing server, the first step of requesting the satellite information to one or more first mobile terminal using the location information service; Transmitting a base station ID and satellite information of an area where the first mobile terminal is currently located to the satellite information providing server; And a third step of transmitting, by the satellite information providing server, satellite information corresponding to an area in which the second mobile terminal is located to a second mobile terminal to start the location information service.

The location information service is a navigation service, and the satellite information providing server further comprises the step of searching for the first mobile terminal using the navigation service at a predetermined time.

The second step may further include requesting and receiving a base station ID from the base station of the region where the first mobile terminal is located.

The third step may include: requesting and receiving a base station ID from the second mobile terminal to the base station in a region where the second mobile terminal is located; And transmitting, by the second mobile terminal, the base station ID to the satellite information providing server.

As described above, according to the present invention, the navigation service is started by acquiring satellite information according to a base station ID using a plurality of mobile terminals using a navigation service and providing satellite information of a corresponding region to a mobile terminal to use the navigation service. City, there is an advantage that can reduce the initial positioning time required to confirm the current position.

In addition, the satellite information providing server is a relay that transmits the satellite information including the GPS satellite signal received from the GPS satellite to the mobile terminal to start the navigation service is easy to maintain and manage There is an advantage.

In addition, by periodically receiving satellite information according to the base station from the mobile terminal at regular intervals and updating the satellite information, it is possible to provide satellite information of various regions to the mobile terminal, so that the mobile terminal can calculate a more accurate current location. do.

In addition, the signal reception strength for a specific region can be known from the satellite information according to the base station ID. In other words, the reception state of the GPS satellite signal may be different according to the region due to the weather or the terrain. Since the satellite information is classified and stored according to the base station, the signal reception strength of the specific region can be known.

1 is a block diagram showing the configuration of a mobile terminal according to an embodiment of the present invention.
2 is a diagram illustrating an example of a satellite information providing system according to the present invention.
3 is a flowchart illustrating a satellite information providing method according to the satellite information providing system of FIG. 2.
4 is a diagram illustrating another satellite information providing system according to the present invention.
5 is a flowchart illustrating a satellite information providing method according to the satellite information providing system of FIG. 4.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

However, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In the present invention, a signal received from a GPS satellite is called a GPS satellite signal, and a signal transmitted by the mobile terminal to the satellite information providing server or a signal transmitted by the satellite information providing server to the mobile terminal will be referred to as satellite information. The satellite information includes at least one of GPS satellite signals, reception status information of the GPS satellite signals, and reception time information of the mobile terminal.

1 is a block diagram showing the configuration of a mobile terminal according to an embodiment of the present invention.

1, the mobile terminal 100 includes a wireless communication unit 110, an analog voice processing unit 120, a GPS module 130, a display unit 140, and a controller 150. Here, the mobile terminal 100 has been described as an example of the configuration of a mobile communication terminal, but a portable multimedia player (PMP), a personal digital assistant (PDA), a play station portable (PSP) and an MP3 (MPEG Audio Layer-3) device or Other portable terminals may be applied. In addition, although the wireless communication unit and the GPS module are separately shown in the drawing, the wireless communication unit 110 may include the GPS module 130.

The wireless communication unit 110 is a unit that transmits and receives a signal wirelessly. Although not shown in the drawing, the wireless communication unit 110 includes a duplexer, a transmitter, and a receiver.

When the user's navigation service request is input, the wireless communication unit 100 transmits a signal requesting a base station ID to the base station 225 or 235 for an initialization process, and transmits a signal to the base station 225 of FIG. Or 235) from the base station.

Here, the initialization process refers to a process until the GPS module 130 determines the current position when the navigation service operation is started, and the time taken for the initialization process is determined as an initial position checking time (TTFF). This is called. Although it depends on the type of GPS module, when using a conventional GPS module (for example, S-GPS module) for the first time after several months, it may take several ten minutes to up to one hour or more initial positioning time.

Then, the wireless communication unit 110 transmits the base station ID to the satellite information providing server (240 of FIG. 2), and receives the satellite information transmitted by the satellite information providing server (240 of FIG. 2).

The analog voice processing unit 120 converts and amplifies a digital voice signal into an analog voice signal and outputs the result to the speaker (SPK) 121, or amplifies the analog voice signal input from the microphone (MIC) 123 and converts it into a digital voice signal. To convert.

The GPS module 130 performs an initialization process by calculating the current position using the satellite information received from the satellite information providing server (240 of FIG. 2) by the wireless communication unit 100, and maps the calculated current position to map data. . To this end, the GPS module 130 further includes a map data storage unit 131 for storing map data.

The map data stored in the map data storage unit 131 may be downloaded and updated through an external server (not shown), or may be updated by connecting the mobile terminal 100 and a computer (not shown) by wire or wirelessly.

After the initialization process as described above, the GPS module 130 receives the GPS satellite signals from a plurality of GPS satellites (210 in FIG. 2), calculates the current position according to the movement using the received GPS satellite signals, and calculates Map the current location to map data.

The display unit 140 displays a user interface (UI) or an execution result required for the execution of the application. When the navigation service operation is executed, the display unit 140 displays map data to which the current location of the mobile terminal 100 is mapped.

The controller 150 controls the respective units (wireless communication unit 110, analog voice processing unit 120, GPS module 130 and display unit 140) so that the navigation service according to the present invention can be provided to the user. .

2 is a diagram illustrating an example of a satellite information providing system according to the present invention.

As shown in FIG. 2, the satellite information providing system 200 includes a plurality of GPS satellites 210, a first mobile terminal 220, a first base station 225, and a second mobile terminal 230. And a second base station 235 and a satellite information providing server 240.

Here, the first mobile terminal 220 and the first base station 225, the second mobile terminal 230 and the second base station 235 and the satellite information providing server 240 constitute a mobile communication network, which is different from the mobile communication network. Server or terminal may be further included.

Meanwhile, the first mobile terminal 220 and the second mobile terminal 230 correspond to the mobile terminal 100 shown in FIG. 1, and the first mobile terminal 220 corresponds to a terminal using a navigation service. The second mobile terminal 230 corresponds to a terminal to start the navigation service. In addition, the first mobile terminal 220 and the second mobile terminal 230 is one or more, the first base station 225 and the second base station 235, the first mobile terminal 220 and the second mobile terminal ( At least one corresponding to 230).

The first mobile terminal 220 receives GPS satellite signals from a plurality of GPS satellites 210 through an initialization process according to a user's navigation service request, calculates a current position according to movement, and maps the calculated current position to map data. The terminal is outputting to the screen. The initialization process refers to a process until the GPS module (130 of FIG. 1) detects a current position when a navigation service operation is started. When the navigation service request is input, the first mobile terminal 220 Requests and receives a base station ID from the first base station 225 in the current location, and transmits the received base station ID to the satellite information providing server 240 to perform an initialization process of calculating the current position through the received satellite information. .

Meanwhile, when a satellite information request is received from the satellite information providing server 240 while using the navigation service, the first mobile terminal 220 receives the base station ID and the satellite information of the first base station 225 from the satellite information providing server 240. To send.

The second mobile terminal 230 is a terminal for starting a navigation service. When a navigation service request is input from a user, the second mobile terminal 230 requests and receives a base station ID from the second base station 235, and receives the received base station ID from the satellite information providing server ( 240 is a terminal for performing an initialization process for calculating a current position based on satellite information received and transmitted.

The first base station 225 transmits and receives a signal to the base station of the region where the first mobile terminal 220 is currently located so that the first mobile terminal 220 can move and communicate wirelessly.

The second base station 235 transmits and receives a signal to the base station of the region where the second mobile terminal 230 is currently located so that the second mobile terminal 230 can communicate wirelessly while moving.

The satellite information providing server 240 collects satellite information for each region through one or more first mobile terminals 220 and uses a second base station of a region where the second mobile terminal 230 is located as the second mobile terminal 230. 235) is a server providing satellite information.

To this end, the satellite information providing server 240 searches for the first mobile terminal 220 using the navigation service, requests satellite information to the searched one or more first mobile terminals 220, and displays each first mobile terminal 220. ) Receives the base station ID of the first base station 225 corresponding to the first mobile terminal 220 together with the satellite information, and stores the received satellite information together with the base station ID.

At this time, the satellite information providing server 240 searches for the first mobile terminal 220 using the navigation service at predetermined intervals and receives the base station ID and satellite information from each of the searched one or more first mobile terminal 220, The received satellite information is classified and stored according to the base station ID and the satellite information is updated. That is, the satellite information providing server 240 collects satellite information for each region through one or more first mobile terminals 220 using a navigation service.

The preset time is preferably 5 to 6 hours, which is to reflect this because the satellite Ephemeris data corresponding to the very sophisticated orbit and vision correction information of the GPS satellite 210 is updated every 5 hours. In addition, it is to reflect our living patterns divided into morning and afternoon, and to eliminate errors in satellite information according to weather or obstacles in a specific area. However, it is obvious that the cycle may be longer or shorter, without being limited to a cycle of 5-6 hours. In general, a PDE server (Position Determination Entity) (not shown) updates a GPS satellite signal every 24 hours, and the satellite information providing server 240 according to the present invention classifies and stores satellite information according to a base station ID and stores the satellite information. Since the satellite information is updated frequently (every 5-6 hours), the accuracy of the satellite information can be improved.

In addition, the satellite information providing server 240 examines the signal reception status for each region where the base station is located by using the reception status information of the GPS satellite signals included in the satellite information. That is, the GPS satellite signal reception status of each base station is investigated by comparing the reception strength of the GPS satellite signal according to the base station ID.

Through this, the satellite information providing server 240 may provide a signal reception state of a specific region to the mobile terminal 220 or 230, a server in a mobile communication network, or other device.

In addition, when the satellite information providing server 240 receives the base station ID from the second mobile terminal 230 to start the navigation service, the satellite information providing server 240 searches for satellite information corresponding to the received base station ID, and searches the satellite information for the second mobile terminal. Transmit to 230.

3 is a flowchart illustrating a satellite information providing method according to the satellite information providing system of FIG. 2.

The first mobile terminal 220 receives the GPS satellite signals from the plurality of GPS satellites 210 through an initialization process (s301), calculates the current position according to the movement to the terminal using the navigation service, and calculates the calculated current position. The terminal maps the map data and outputs it to the screen (s303).

The satellite information providing server 240 searches for the first mobile terminal 220 that is using the navigation service (s304), and requests satellite information to the plurality of searched first mobile terminals 220 (s305).

When the satellite information request of the satellite information providing server 240 is input, the first mobile terminal 220 transmits a signal for requesting a base station ID to the first base station 225 in the region where the first mobile terminal 220 is located. (S307), and receives the base station ID transmitted by the first base station 225 (s309).

In addition, the first mobile terminal 220 includes satellite information including the base station ID received from the first base station 225 and the GPS satellite signals received from the plurality of GPS satellites 210 to the satellite information providing server 240. Transmit (s311).

Accordingly, the satellite information providing server 240 receives satellite information and a base station ID from each of the plurality of first mobile terminals 220 and updates the satellite information according to the received base station ID (s313).

On the other hand, when the user's navigation service request is input, the second mobile terminal 230 transmits a base station to the second base station 235 in the region where the second mobile terminal 230 is located in order to perform an initialization process required for starting the navigation service. A signal for requesting ID is transmitted (s315), and a base station ID transmitted by the second base station 235 is received (s317).

Thereafter, the second mobile terminal 230 transmits the satellite information request signal including the base station ID of the second base station 235 to the satellite information providing server 240 to obtain satellite information necessary for the initialization process (s319). ).

Accordingly, the satellite information providing server 240 searches for satellite information corresponding to the base station ID transmitted by the second mobile terminal 230 (s321), and transmits the retrieved satellite information to the second mobile terminal 230 ( s323).

4 is a diagram illustrating another example of a satellite information providing system according to the present invention. The satellite information providing server attempts to start a navigation service with a mobile terminal using a navigation service in a coverage area of a predetermined base station when collecting satellite information. FIG. 4 illustrates a case in which the mobile terminals exist together.

Referring to FIG. 4, the satellite information providing system 400 includes a first mobile terminal 220, a second mobile terminal 230, a base station 250, and a satellite information providing server 240.

The first mobile terminal 220 is a terminal using a navigation service, and transmits the base station ID and the satellite information of the base station 250 to the satellite information providing server 240 according to the satellite information request of the satellite information providing server 240. .

The second mobile terminal 230 is a terminal for starting a navigation service, and transmits the base station ID of the base station 250 to the satellite information providing server 240 according to a user's navigation service request to receive satellite information, and receives the received satellite. UE to perform an initialization process for calculating the current position from the information.

The base station 250 may communicate wirelessly while the first mobile terminal 220 and the second mobile terminal 230 move to a base station of a region where the first mobile terminal 220 and the second mobile terminal 230 are currently located. Send and receive signals so that

The satellite information providing server 240 receives the base station ID and the satellite information of the base station 250 from the first mobile terminal 220, stores satellite information according to the base station ID, and transmits the base station 250 to the second mobile terminal 230. Provide satellite information corresponding to).

5 is a flowchart illustrating a satellite information providing method according to the satellite information providing system of FIG. 4.

The first mobile terminal 220 receives the GPS satellite signals from the plurality of GPS satellites 210 through an initialization process (s501), calculates the current position according to the movement to the terminal using the navigation service, and calculates the calculated current position. The terminal maps the map data and outputs it to the screen (s503).

The satellite information providing server 240 searches for the first mobile terminal 220 using the navigation service (s504), and requests satellite information to the plurality of searched first mobile terminals 220 (s505).

When the satellite information request of the satellite information providing server 240 is input, the first mobile terminal 220 transmits a signal for requesting a base station ID to the first base station 225 in the region where the first mobile terminal 220 is located. (S507), and receives the base station ID transmitted by the first base station 225 (s509).

In addition, the first mobile terminal 220 transmits the satellite information including the base station ID received from the first base station 225 and the GPS satellite signals received from the plurality of GPS satellites 210 to the satellite information providing server 240. (S511).

Accordingly, the satellite information providing server 240 receives satellite information and a base station ID together from each of the plurality of first mobile terminals 220, and classifies and updates satellite information according to the received base station ID (s513).

On the other hand, when the user's navigation service request is input, the second mobile terminal 230 transmits a base station to the second base station 235 in the region where the second mobile terminal 230 is located in order to perform an initialization process required for starting the navigation service. A signal for requesting ID is transmitted (s515), and a base station ID transmitted by the second base station 235 is received (s517).

Thereafter, the second mobile terminal 230 transmits the satellite information request signal including the base station ID of the second base station 235 to the satellite information providing server 240 to acquire satellite information necessary for the initialization process (s519). ).

Accordingly, the satellite information providing server 240 searches for satellite information corresponding to the base station ID transmitted by the second mobile terminal 230 (s521), and transmits the retrieved satellite information to the second mobile terminal 230 ( s523).

While the invention has been shown and described with reference to certain preferred embodiments, various modifications can be made without departing from the scope of the invention to the embodiments described above by those skilled in the art to which the invention pertains. And can be varied. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

100: mobile terminal 110: wireless communication unit
120: analog voice processing unit 130: GPS module
140: display unit 150: control unit
200: satellite information providing system 210: GPS satellites
210: first mobile terminal 215: first base station
220: second mobile terminal 230: second base station
240: satellite information providing server 250: base station

Claims (22)

Collecting satellite information according to a base station ID through at least one first mobile terminal using a location information service, and the satellite corresponding to an area where the second mobile terminal is located as a second mobile terminal to start the location information service; Satellite information providing server for providing information.
The method of claim 1,
Requesting the satellite information to the first mobile terminal at predetermined time intervals, receiving the base station ID and the satellite information of the region where the first mobile terminal is located, and updating the satellite information according to the base station ID. Satellite information providing server.
The method of claim 1,
The satellite information
And at least one of a GPS satellite signal, reception state information of the GPS satellite signal, and visual information of the first mobile terminal.
The method of claim 3, wherein
The satellite information providing server, characterized in that to investigate the signal reception status for each region where the base station is located by using the reception status information of the GPS satellite signal.
The method of claim 1,
The location information service
Satellite information providing server, characterized in that the navigation service.
A first step of collecting satellite information according to a base station ID through at least one first mobile terminal using a location information service; And
And a second step of providing the satellite information corresponding to an area where the second mobile terminal is located to a second mobile terminal to start the location information service.
The method of claim 6,
In the first step,
Requesting satellite information to the first mobile terminal;
Receiving satellite information and the base station ID of the area where the first mobile terminal is located from the first mobile terminal; And
Classifying and updating the satellite information according to the base station ID; and operating the satellite information providing server.
The method according to claim 6 or 7,
The satellite information
And at least one of a GPS satellite signal, reception state information of the GPS satellite signal, and visual information of the first mobile terminal.
The method of claim 8,
And investigating a signal reception state for each region where a base station is located by using the reception state information of the GPS satellite signal.
The method of claim 6,
The location information service
Navigation service,
And searching for the first mobile terminal that is using the navigation service at a predetermined time.
The method of claim 6,
The second step comprises:
And receiving the base station ID of the region where the second mobile terminal is located from the second mobile terminal.
At least one first mobile terminal using a location information service;
A second mobile terminal for initiating the location information service;
One or more base stations for transmitting and receiving signals to and from the first and second mobile terminals; And
Satellite information providing server for collecting satellite information according to a base station ID through the first mobile terminal and providing the satellite information corresponding to an area where the second mobile terminal is located to the second mobile terminal; Provide system.
The method of claim 12,
The satellite information
And at least one of a GPS satellite signal, reception state information of the GPS satellite signal, and visual information of the first mobile terminal.
The method of claim 13,
And a signal reception state for each region where a base station is located by using the reception state information of the GPS satellite signal.
The method of claim 12,
The satellite information providing server
Requesting the satellite information to the first mobile terminal at predetermined time intervals, receiving a base station ID and the satellite information of the region where the first mobile terminal is located, and updating the satellite information according to the base station ID. Satellite information provision system.
The method of claim 12,
The satellite information service
Satellite information providing system, characterized in that the navigation service.
A first step of requesting, by the satellite information providing server, satellite information to at least one first mobile terminal using a location information service;
Transmitting a base station ID of the region where the first mobile terminal is currently located and the satellite information to the satellite information providing server; And
And a third step of transmitting, by the satellite information providing server, satellite information corresponding to an area in which the second mobile terminal is located to a second mobile terminal to start the location information service.
The method of claim 17,
The satellite information
And at least one of a GPS satellite signal, reception state information of the GPS satellite signal, and visual information of the first mobile terminal.
19. The method of claim 18,
And examining a signal reception state for each region where a base station is located by using the reception state information of the GPS satellite signal.
The method of claim 17,
The location information service is a navigation service,
And searching for the first mobile terminal using the navigation service at a predetermined time by the satellite information providing server.
The method of claim 17,
The second step is
And requesting, by the first mobile terminal, the base station ID from the base station of the region where the first mobile terminal is located, and receiving the base station ID.
The method of claim 17,
The third step is
Requesting and receiving the base station ID from the base station of the region where the second mobile terminal is located; And
And transmitting, by the second mobile terminal, the base station ID to the satellite information providing server.

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