KR100994762B1 - System and Method for Location Determination, Mobile Communication Therefor - Google Patents

Abstract

A positioning system and method for determining the position of a mobile communication terminal by either a signal received from a GPS or a signal received from an adjacent access point, and a mobile communication terminal for the same.

A positioning system according to the present invention is a positioning system including an access point management server connected to a mobile communication terminal through a communication network, wherein the access point management server includes a control unit, a public access point and a private access point for controlling the overall operation. In the access point searching unit, the information extracting unit and the access point searching unit which extracts an access point ID (Service Set Identifier; SSID) and MAC (Media Access Control) address from the access point found in the access point searching unit Including an address matching unit for matching the location information of the retrieved access point with the SSID and MAC address and storing it in a database, even when positioning using a GPS signal is impossible, the position of the mobile communication terminal can be easily used by using a signal from an adjacent access point. Decide .

Positioning, GPS, access point

Description

Location system and method and mobile communication terminal for same

The present invention relates to a positioning system and method, and more particularly, to determine a position of a mobile communication terminal by either a signal received from a GPS (Global Positioning System) satellite or a signal received from an adjacent access point. A determination system and method, and a mobile communication terminal for the same.

Recently, various location based services using a mobile communication terminal have been provided, and a received signal from a GPS satellite is used for positioning of the mobile communication terminal.

That is, the GPS receiver is mounted on the mobile communication terminal, and the position of the mobile communication terminal is calculated using the orbit information and pseudo range (PR) information of the plurality of satellites received through the GPS receiver. Here, the pseudorange information refers to the distance between the terminal and the satellite measured from the difference between the time when the satellite transmits a signal and the time when the terminal receives the signal.

However, a signal transmitted from a GPS satellite is not received indoors, and at least three GPS satellite signals must be received for positioning. Therefore, when the mobile communication terminal is located indoors, or when a disturbance such as a GPS satellite is blocked by a building or the like occurs, there is a problem in that the location of the mobile communication terminal cannot be measured.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and there is a technical problem to provide a positioning system and method capable of determining the position of a mobile communication terminal using an access point.

Another object of the present invention is to provide a mobile communication terminal capable of determining a location using a GPS signal or a received signal from an adjacent access point.

A positioning system according to an embodiment of the present invention for achieving the above technical problem is a positioning system including an access point management server connected to a mobile communication terminal through a communication network, the access point management server, the overall operation Control unit for controlling the; An access point search unit for searching for public access points and private access points; An information extracting unit extracting an access point ID (SSID) and a MAC (Media Access Control) address from the access point searched by the access point searching unit and storing the extracted access point in a database; And an address matcher configured to match location information of the access point searched by the access point searcher with the SSID and the MAC address and store it in the database.

In addition, the mobile communication terminal according to an embodiment of the present invention includes a Global Positioning System (GPS) receiver, is connected to an access point through an access point access module, and manages location information of the access point. A mobile communication terminal connected to an access point management server through a wireless internet access module, the mobile communication terminal comprising: a control unit controlling an overall operation to perform positioning using a signal received from one of a GPS satellite and the access point; A first location determiner configured to determine a location of the mobile communication terminal using a signal received by the GPS receiver; And a second location determiner configured to determine a location of the mobile communication terminal using a signal received by the access point access module under the control of the controller.

Meanwhile, the positioning method according to an embodiment of the present invention includes a Global Positioning System (GPS) receiver, is connected to an access point through an access point access module, and manages location information of the access point. A location determination method in a mobile communication terminal connected to an access point management server through a wireless internet access module, wherein, as a location request is input to the mobile communication terminal, an access point accessible through the access point access module exists. A first step of making; Receiving a signal from at least one access point when the accessible access point exists; A third step of selecting any one of an access point for transmitting a signal to the access point connection module; Extracting a Service Set Identifier (SSID) and a Media Access Control (MAC) address of the selected access point; And a fifth step of querying location information by transmitting the identification number, the SSID and the MAC address of the mobile communication terminal to the access point management server, and receiving the location information from the access point management server.

According to the present invention, the position of the mobile communication terminal can be easily determined by using signals from an adjacent access point, and positioning is performed using GPS signals in an area where the access point is not installed. The location of the mobile communication terminal can be measured regardless of a place such as an area.

In addition, it is possible to improve the positioning accuracy of the mobile communication terminal by integrally managing the location information of the public access point as well as the private access point.

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

1 is a configuration diagram of a positioning system according to the present invention.

Referring to FIG. 1, the positioning system according to the present invention is an AP management server connected to a mobile communication terminal 10 and a communication network 40 and managing location information of a public / private access point (AP). 50).

To this end, the mobile communication terminal 10 receives a signal from the access point 30 when there is at least one access point accessible. The access point 30 is selected from the access point 30 that has received the signal, and the access point ID (Service Set Identifier; SSID) and MAC (Media Access) are selected from the signal transmitted from the selected access point 30. Control) Extract the address. In addition, the extracted SSID and MAC address are transmitted to the AP management server 50 to query the location information, and receive the location information from the AP management server 50.

Here, it is preferable that the mobile communication terminal 10 selects the access point 30 having the largest received signal strength among the adjacent access points 30 as the access point to be used for positioning.

In addition, the mobile communication terminal 10 includes a GPS receiver, and when there is no accessible access point, receives orbital information and pseudorange information from the plurality of GPS satellites 20 to measure a position.

Meanwhile, the AP management server 50 manages location information for each MAC address of the public access point and the private access point as a database. For this purpose, the public access point and the private access point which are already installed are searched to collect ID (SSID), MAC address, latitude / longitude coordinates and actual address of each access point.

Here, the SSID is used to distinguish the access point as a unique identifier included in each header of packets transmitted from the access point. In addition, the MAC address is a unique ID assigned to the communication module of each access point, and is used as an address for transmitting and receiving data between the access point and the communication terminal.

When the location is determined according to a signal received from the access point 30 or the GPS satellite 20, the mobile communication terminal 10 may transmit its location information to various content provider servers 60 that provide location-based services. have.

The content provider server 60 may be, for example, a lost / elderly monitoring server, a friend search server, a main geographical feature (gas station, hospital, restaurant, etc.) search server.

When the mobile communication terminal 10 enters a specific area, the mobile communication terminal 10 may determine its location at a predetermined period and transmit the determined location information to the content provider server 60.

In addition, the mobile communication terminal 10 may perform positioning according to a request of the content provider server 60 or perform a positioning according to a user's input of a positioning command. In addition, the positioning result of the mobile communication terminal 10 may be transmitted to the content provider server 60 to be utilized for various additional services provided by the content provider server 60.

FIG. 2 is a detailed configuration diagram of the access point management server shown in FIG. 1.

As illustrated, the AP management server 50 includes a control unit 510, an AP search unit 520, an information extractor 530, an address matching unit 540, and a database (DB, 550), and a GPS receiver. 560 and the coordinate calculation unit 570 may be further included.

The controller 510 controls the overall operation, and the AP search unit 520 may be configured as an access point searching device such as, for example, an access point finder, and searches for public and private access points using the same. do. The AP search unit 520 determines an access point having a received signal strength equal to or greater than a specified value among the searched access points as a collection target access point.

The information extractor 530 extracts the SSID and the MAC address from the signal received at the access point determined as the access point to be collected by the AP search unit 520 and stores the SSID and the MAC address in the database 550.

In addition, the address matching unit 540 matches the actual address of the access point with the SSID and the MAC address and stores it in the database 550.

The AP management server 50 may further include a GPS receiver 560 and a coordinate calculator 570, in which case the GPS receiver 560 receives orbit information and pseudorange information from a GPS satellite. The coordinate calculation unit 570 receives orbit information and pseudorange information through the GPS receiver 560 at a location where the collection target access point is found, and calculates latitude / longitude coordinates of the corresponding access point.

The latitude / longitude coordinates calculated by the coordinate calculator 570 are matched with an actual address by the address matcher 540 and stored in the database 550.

As a result, the AP management server 50 can manage the location information of each public and private access point, and the mobile communication terminal 10 transmits the ID (SSID) and MAC address of the access point to query the location information. As a result, the location information (actual address) of the corresponding access point is inquired from the pre-established database 550 and provided to the mobile communication terminal 10.

On the other hand, the AP management server 50 may be configured in a movable form to search for an access point from a remote location, it is also possible to operate a plurality of AP management server (50). In the case of operating the plurality of AP management servers 50, the database can be managed as one to provide accurate location information to the mobile communication terminal 10, of course.

3 is a diagram for describing a database structure of an AP management server.

As shown, the AP management server 50 manages the ID (SSID), MAC address, and real address of the access point whose received signal strength is greater than or equal to a specified value, and stores latitude / longitude coordinates as necessary. It is possible.

Such a database is preferably updated at specified intervals in order to reflect a new access point or to detect a previously installed access point.

4 is a block diagram of a mobile communication terminal according to an embodiment of the present invention.

The mobile communication terminal 10 according to an embodiment of the present invention includes a control unit 110 for controlling the overall operation, a GPS receiver 120 for receiving orbit information and pseudorange information from a GPS satellite, an AP access module 130, The wireless Internet access module 140 includes a first positioning unit 150 and a second positioning unit 160.

If there is no access point accessible through the AP access module 130 and the positioning accuracy using the GPS signal received by the GPS receiver is guaranteed, the control unit 110 performs mobile communication by the first positioning unit 150. The position of the terminal 10 is determined. On the other hand, when there is an accessible access point, the second location determiner 160 determines the location of the mobile communication terminal 10.

The AP access module 130 may be, for example, a Wi-Fi (Wireless-Fidelity) chip, through which the mobile communication terminal 10 may connect with the access point.

The wireless Internet access module 140 allows the mobile communication terminal 10 to access the AP management server 50, the content provider server 60, and the like through the communication network 40. Broadband internet chip.

Meanwhile, the first position determiner 150 determines the position of the mobile communication terminal 10 by using the trajectory information and the pseudo distance information received by the GPS receiver 120.

The second position determiner 160 receives a signal from the access point through the AP access module 130 and measures the position of the mobile communication terminal 10 using the signal.

As shown in FIG. 5, the second location determiner 160 includes an AP determining module 1602, an AP information extracting module 1604, and a location identifying module 1606.

As the AP determining module 1602 receives a signal from at least one access point in the AP access module 130, the AP determining module 1602 selects any one access point as the access point to be used for positioning. At this time, it is preferable to compare the received signal strength from each access point and select the access point having the maximum received signal strength as the access point to be used for positioning.

The AP information extracting module 1604 extracts the SSID and the MAC address from the signal transmitted from the AP as the AP determining module 1602 selects the access point to be used for positioning.

In addition, the location information confirmation module 1606 transmits the SSID, the MAC address, and the mobile communication terminal 10 identification number extracted by the AP information extraction module 1604 to the AP management server 50 through the communication network 40, thereby providing location information. Query Accordingly, the AP management server 50 transmits the location information (actual address) of the corresponding access point to the location information checking module 1606 by referring to the SSID and the MAC address, so that the location information checking module 1606 is provided with the corresponding location information. Save it.

6 is a flowchart illustrating a positioning method according to an embodiment of the present invention.

In order to perform the positioning method according to the present invention, the AP management server 50 has to precede the process of collecting the location information for each access point to build a database.

In this state, when the positioning request is input to the mobile communication terminal 10 (S101), the second positioning unit 160 checks whether there is an accessible access point under the control of the controller 110 (S103).

Here, the positioning request may be when the mobile communication terminal 10 enters a specific area, when the content provider server 60 requests positioning, or when the user of the mobile communication terminal 10 inputs a positioning command. have.

As a result of checking in step S103, when there is an accessible access point, the controller 110 drives the AP access module 130 to receive a signal from at least one adjacent access point (S105).

Accordingly, the AP determination module 1602 selects any one access point as an access point to be used for positioning according to the received signal strength of each access point received by the AP access module 130 (S107). In this case, it is preferable to determine an access point having the largest received signal strength transmitted to the AP access module 130 as the access point to be used for positioning.

The AP information extraction module 1604 extracts the SSID and the MAC address of the access point selected in step S107 (S109), and the location information checking module 1606 extracts the identification number of the mobile communication terminal 10 and step S109. The SSID and the MAC address are transmitted to the AP management server 50 to query the location information (S111).

As the AP management server 50 queries the database and transmits the location information of the corresponding access point to the mobile communication terminal 10, the location information checking module 1606 receives and stores it (S113).

In this way, when the location of the mobile communication terminal 10 is determined by the received signal from the access point, it is possible to apply this to additional services to use various location-based services (S115).

In this case, the additional service may be a lost child / senior citizen monitoring service, a friend search service, a main geographical feature (gas station, hospital, restaurant, etc.) search service.

On the other hand, when there is no access point accessible, the first positioning unit 150 receives a signal from the GPS satellite under the control of the control unit 110 (S117).

In addition, the first positioning unit 150 checks whether the positioning accuracy by the signal received from the GPS satellite is guaranteed (S119), and when the accuracy is guaranteed, track information and pseudorange information received from the plurality of GPS satellites are determined. The location of the mobile communication terminal 10 is determined by using (S121). In addition, when the location of the mobile communication terminal 10 is determined by the GPS signal, various location-based services can be used by applying the same to the additional service (S115).

On the other hand, if the positioning accuracy using the GPS signal is not guaranteed, the mobile communication terminal 10 user is visually and / or audibly informed that the positioning has failed (S123).

As described above, the location is performed using a signal received from the access point in an area where an access point is installed, such as an urban area, and the location is performed by using a GPS signal in an outskirt or a suburb where the access point is not installed. You can use a variety of location-based services regardless.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

The present invention can determine the position of the mobile communication terminal in a hybrid manner by using an access point or a GPS signal.

Therefore, even when GPS satellite signals are not received, such as in a building, various location-based services, such as an MIA / elderly person monitoring service, a friend search service, and a place search service, may be used.

1 is a configuration diagram of a positioning system according to the present invention;

FIG. 2 is a detailed configuration diagram of the access point management server shown in FIG. 1;

3 is a view for explaining a database structure managed by an AP management server;

4 is a block diagram of a mobile communication terminal according to an embodiment of the present invention;

5 is a detailed configuration diagram of the second positioning unit shown in FIG. 4;

6 is a flowchart illustrating a positioning method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: mobile communication terminal 20: GPS satellite

30: access point 40: communication network

50: AP management server 60: content provider server

110: control unit 120: GPS receiver

130: AP connection module 140: wireless Internet access module

150: first positioning unit 160: second positioning unit

510: control unit 520: AP search unit

530: information extraction unit 540: address matching unit

550: Database 560: GPS receiver

570: coordinate calculation unit

Claims (13)

A positioning system including an access point management server connected to a mobile communication terminal through a communication network, The access point management server, the control unit for controlling the overall operation; An access point search unit for searching for public access points and private access points; An information extracting unit extracting an access point ID (SSID) and a MAC (Media Access Control) address from the access point searched by the access point searching unit and storing the extracted access point in a database; And An address matching unit for matching the location information of the access point retrieved by the access point searcher with the SSID and the MAC address and storing the location information in the database; Positioning system comprising a. The method of claim 1, The access point management server, A GPS receiver for receiving a signal transmitted from a GPS (Global Positioning System) satellite; And A coordinate calculation unit configured to calculate latitude / longitude coordinates of the searched access point using the signal received through the GPS receiver at the search position of the access point and store the coordinates in the database; And the address matching unit stores the latitude / longitude coordinates calculated by the coordinate calculating unit with a real address in the database. The method of claim 1, And the access point searching unit determines an access point having a received signal strength equal to or greater than a specified value among the searched access points as a collection target access point. A mobile device having a GPS (Global Positioning System) receiver, connected to an access point through an access point access module, and connected through an access point management server and a wireless internet access module to manage location information of the access point. In a communication terminal, A control unit controlling the overall operation to perform positioning using a signal received from one of the GPS satellites or the access point; A first location determiner configured to determine a location of the mobile communication terminal using a signal received by the GPS receiver; And A second location determiner configured to determine a location of the mobile communication terminal using a signal received by the access point access module under the control of the controller; Mobile communication terminal comprising a. The method of claim 4, wherein The second positioning unit, An access point determination module for selecting any one of the access points in response to receiving a signal from at least one access point in the access point connection module; An access point information extraction module for extracting an access point ID (SSID) and a media access control (MAC) address from a signal transmitted from the selected access point; And A location information confirmation module for querying location information by transmitting the identification number, the SSID and the MAC address of the mobile communication terminal to the access point management server, and receiving the location information of the access point from the access point management server; Mobile communication terminal comprising a. The method of claim 5, The access point determination module compares the received signal strength of the access point received by the access point access module, and selects an access point having the maximum received signal strength as an access point to be used for positioning. New handset. The method of claim 4, wherein And the control unit determines the location of the mobile communication terminal by the second positioning unit when an access point accessible through the access point connection module exists. The method according to claim 4 or 7, And the controller determines the location of the mobile communication terminal by the first location determiner when there is no access point accessible through the access point access module. The method of claim 4, wherein The access point connection module is a mobile communication terminal, characterized in that a Wi-Fi (Wireless-Fidelity) chip. The method of claim 4, wherein The wireless Internet access module is a mobile communication terminal, characterized in that a Wibro (Wireless Broadband internet) chip. A mobile device having a GPS (Global Positioning System) receiver, connected to an access point through an access point access module, and connected through an access point management server and a wireless internet access module to manage location information of the access point. As a positioning method in a communication terminal, A first step of checking whether there is an access point accessible through the access point access module as a positioning request is input to the mobile communication terminal; Receiving a signal from at least one access point when the accessible access point exists; A third step of selecting any one of an access point for transmitting a signal to the access point connection module; Extracting a Service Set Identifier (SSID) and a Media Access Control (MAC) address of the selected access point; And A fifth step of transmitting the identification number, the SSID and the MAC address of the mobile communication terminal to the access point management server to query the location information, and receiving the location information from the access point management server; Position determination method comprising a. The method of claim 11, The third step may include comparing the received signal strength of the access point received by the access point access module, and selecting an access point having the maximum received signal strength as an access point to be used for positioning. How to decide. The method of claim 11, A sixth step of receiving a GPS signal using the GPS receiver when the accessible access point does not exist; A seventh step of checking whether positioning accuracy using the received GPS signal is guaranteed; And An eighth step of determining the position of the mobile communication terminal using the GPS signal when the positioning accuracy is guaranteed; Position determination method further comprises.

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