KR20060091455A - System and method for proceeding user positioning information in mobile terminal - Google Patents

Abstract

The present invention provides a system and method for providing user location information in a mobile communication terminal. To this end, the present invention transmits the information about the administrative area input from the user to the wireless network server, and receives the characteristic image information of the administrative area from the wireless network server. In addition, when the feature image information according to the user's selection is checked and the user stores an image of a building or a landmark corresponding to the feature image information, the azimuth information of the camera lens is stored accordingly. The apparatus transmits information about the feature images selected by the user and the stored azimuth information to the wireless network server, and displays map information received from the wireless network server and location information of the user. Accordingly, the present invention can provide accurate location information to the user by simply using the electronic compass function of the mobile communication terminal without constructing a separate GPS receiver or infrastructure according to the EOTD implementation.

Provide user location information, electronic compass

Description

System and method for providing user location information in mobile communication terminal {SYSTEM AND METHOD FOR PROCEEDING USER POSITIONING INFORMATION IN MOBILE TERMINAL}

1 is a system configuration diagram of a mobile communication terminal and a wireless network server according to an embodiment of the present invention;

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

3 is a flowchart illustrating a process of a user location tracking operation according to a first embodiment of the present invention;

4 is a flowchart illustrating an operation of guiding a route to a destination according to an embodiment of the present invention;

5 is a flowchart illustrating a process of a user location tracking operation according to a second embodiment of the present invention;

6 is a view illustrating a display screen displaying a targeting mark in a mobile communication terminal and a screen displaying a user location inferred from a wireless network server according to an exemplary embodiment of the present invention.

The present invention relates to a mobile communication terminal, and more particularly, to a location tracking service of a user.

In general, one of the most basic ways for a user to determine the current location is to use a compass that displays four directions of north, east, west, and north. However, since the method of using the compass only provides the user with information about the current direction, even if a mobile terminal equipped with the electronic compass function is used, the user does not know the exact information about the current position.

Therefore, the current mobile communication terminal uses a separate location tracking system to provide accurate information about the user's location. Currently, there are various types of location tracking systems commonly used in mobile communication terminals, such as Global Position System (GPS) or Enhanced Observed Time Difference (EOTD). Here, GPS refers to a system for receiving information of GPS satellites using a separate GPS receiver and inferring the user's current location from the received information. The EOTD is a system that tracks a user's location by measuring a time difference between a base station that currently provides a service to a mobile communication terminal based on terrestrial base stations and a neighboring base station. Therefore, the current mobile communication terminal can inform the user of the current user's location in real time through a location tracking system such as a GPS or an EOTD system, and provide a tracked user's location in the form of a map to the destination desired by the user. Guide the course to. Therefore, the user can immediately recognize their location through this location tracking system and can easily and conveniently go to the desired destination.

However, in the case of the GPS system, the mobile communication device must be equipped with a separate GPS receiver for receiving GPS signals from GPS satellites. In the case of the EOTD system, even though the mobile communication terminal does not require a special device, the separate protocol is used because the time difference between the base stations must be measured through a separate protocol between the mobile communication terminal and the base station. It is necessary to change the infrastructure of building a separate receiving device or protocol.

Therefore, in order to provide a location tracking service to a user's mobile communication terminal through a general location tracking system such as a GPS or an EOTD system, a change of a separate receiving device or infrastructure for providing such a location tracking service must be accompanied. However, in general, such a GPS receiver is a relatively expensive equipment, and also requires a considerable cost to change the infrastructure, there is a problem that high cost is required to provide a location tracking service to the user.

Therefore, an object of the present invention, in providing a location information service that can provide the user's location information to the mobile communication terminal, without the construction of a separate GPS receiver or infrastructure according to the EOTD implementation, simply the electronics of the mobile communication terminal The present invention provides a system and method for providing accurate location information to a user using a compass function.

The system of the present invention for achieving the above object is provided with an electronic compass, the user inputs the administrative area information according to the current user's location, the image information according to the user's selection, and each of the image information A mobile communication terminal storing corresponding electronic compass azimuth information, and receiving the user's current location by inferring the administrative area information, the image information according to the user's selection, and the azimuth information from the mobile communication terminal, and inferring It is provided with a wireless network server for transmitting the location information of the user to the mobile communication terminal.

The method may further include a regional information transmitting step of transmitting, by the mobile communication terminal, administrative area information input by a user to the wireless network server, and wherein the wireless network server is located in an administrative area according to the received administrative area information. Transmitting the pre-stored feature image information of a building or a landmark to the mobile communication terminal, wherein the mobile communication terminal corresponds to the feature image information selected by the user among the feature image information according to a user's selection; A corresponding image storing step of storing images, and azimuth information storing step of storing, by the mobile communication terminal, azimuth information of a camera lens of the mobile communication terminal corresponding to each of the corresponding images when each corresponding image is stored; The wireless network server is selected by the user. A user location inference step of inferring the location of the user by receiving location information of objects corresponding to feature image information and azimuth information of each corresponding image from the mobile communication terminal, and the wireless network server; (A) providing user location information for providing the user location information on the inferred user location to the mobile communication terminal.

In addition, another method of the present invention, the mobile terminal, the area information transmission step of transmitting the administrative area information input by the user to the wireless network server, and the mobile terminal stores the user images according to the user's selection And storing the azimuth information according to the lens direction of the camera for each of the respective images when the respective images are stored, and wherein the wireless network server stores the administrative area information and the user images. Recognizing step of receiving and comparing the feature image and the pre-stored feature image information of the characteristic building or attraction located in the administrative area according to the received administrative area information and the user image to recognize the feature image information corresponding to the user image And corresponding to the recognized feature image information. Is a user inference step of inferring the location of the user through azimuth information for each of the user images corresponding to each of the feature image and the location information of the object, the wireless network server, the user location with respect to the inferred user location And providing user location information for providing information to the mobile communication terminal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are denoted by the same reference numerals wherever possible. In the following description and the annexed drawings, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

First of all, in order to provide a thorough understanding of the present invention, the basic principles of the present invention will be described with reference to FIG. 1 showing the configuration of a mobile communication terminal and a wireless network server according to an embodiment of the present invention. The mobile communication terminal 100 has an electronic compass capable of displaying an azimuth angle from 0 degrees to 359 degrees. And if the user transmits the approximate information on the current area where the user is located, that is, the area information for the administrative area such as a specific 'gu' or 'dong' to the wireless network server 102, the wireless network server 102 Receives this and transmits the image information, such as the characteristic buildings or attractions located in the area according to the received area information to the mobile communication terminal 100. Here, the characteristic buildings or attractions are referred to as characteristic image information as characteristic image information in the administrative area. The feature image information is pre-stored in the wireless network server 102.

The mobile communication terminal 100 receiving the feature image information from the wireless network server 102 displays the same to the user, and the user displays a feature image of a building or a spot that can be visually checked among the feature image information. Select two or more pieces of information. An image of a building or a landmark corresponding to the currently selected feature image information is stored using the camera unit of the current mobile communication terminal 100. At this time, the mobile communication terminal 100 according to the embodiment of the present invention provides a targeting mark so that the user can accurately aim the subject, and if the image is stored according to the user's selection, the current image is stored. The azimuth is measured, and the measured azimuth information is transmitted to the wireless network server 102 together with the image information selected by the user. The wireless network server 102 then infers the location of the current user using the image information and the azimuth information according to the user's selection and transmits the inferred user's information together with the map information in the vicinity thereof.

2 is a block diagram of the mobile communication terminal 100 according to an exemplary embodiment of the present invention. Referring to FIG. 2, the mobile communication terminal 100 according to an exemplary embodiment of the present invention may include a memory unit 202, a key input unit 204, a display unit 206, a baseband processor 208, and a codec. Decoder 212, an electronic compass 216, and a camera unit 218 are connected to the controller 200. Here, the controller 200 processes voice signals and data according to protocols for telephone calls, data communications, and wireless Internet access, and controls each part of the mobile communication terminal. Then, the user's key input is received from the key input unit 204 to control the display unit 206 accordingly to generate and provide image information according to the user's key input. In addition, when the user inputs information about the administrative area where the user is currently located, the user transmits the information to the wireless network server 102 and displays the characteristic image information received from the wireless network server 102. Display. Then, the feature image information according to the user's selection is checked, and an image of a building or a landmark corresponding to the selected feature image information is stored through the camera unit 218 according to the user's selection. The azimuth information input from the electronic compass 216 is stored when the image is stored according to the user's selection. The checked feature image selection information of the user and the azimuth information are transmitted to the wireless network server 102, and the map information received from the wireless network server 102 and the location information of the user are transmitted to the display unit 206. Display.

Here, the electronic compass 218 is used to measure the azimuth angle up to 359 degrees with reference to the north-north direction as described above, and the camera unit 218 as described above, the image according to the user's selection It is to store. The electronic compass 218 measures the azimuth angle according to the lens direction of the camera unit 216 in conjunction with the camera unit 216. That is, when the lens of the camera unit 216 is facing the positive direction, the electronic compass 218 points 90 degrees from the reference (north north direction).

The memory unit 202 connected to the controller 200 includes a read only memory (ROM), a flash memory, a random access memory (RAM), and the like. The ROM stores a program for processing and controlling the controller 200 and various reference data. The RAM provides a working memory of the controller 200, and the flash memory provides an area for storing various updatable data for storage. The key input unit 204 includes various keys including numeric keys as described above, and provides the controller 200 with a key input input from a user. The RF unit 210 serves to transmit and receive an RF signal with the base station. And converts the received signal into an IF (Intermediate Frequency) signal, outputs it to the baseband processor 208 connected to the controller 200, and converts the IF signal input from the baseband processor 208 into an RF signal. Send. The baseband processing unit 208 is a baseband analog ASIC (BBA) that provides an interface between the control unit 200 and the RF unit 210. The baseband processing unit 208 converts a baseband digital signal applied from the control unit 200 into an analog IF signal. The conversion is applied to the RF unit 210, the analog IF signal applied from the RF unit 210 is converted into a digital signal of the baseband and applied to the control unit 200.

In addition, the codec 212 connected to the control unit 200 is connected to the microphone and the speaker through the amplifying unit 214, and the voice signal is input by the PCM (Pulse Code Modulation) encoding of the voice signal input from the microphone. ) And PCM decodes the voice data input from the controller 200 and outputs the voice data to the speaker through the amplifier 214. The amplifier 214 amplifies the voice signal input from the microphone or the voice signal output from the speaker, and adjusts the volume of the speaker and the gain of the microphone according to the control of the controller 200. Therefore, the user may be provided with information about his current location through the selected feature image information and azimuth information.

3 is a flowchart illustrating an operation of tracking location information of a current user in the mobile communication terminal 100 and the wireless network server 102 according to the first embodiment of the present invention. Referring to FIG. 3, when a user inputs regional information about a region in which he is currently located, that is, administrative region information according to the current user's location, to receive information on his location, the controller 200 of the mobile communication terminal 200. ) Proceeds to step 300 and transmits the area information input from the user to the wireless network server 102. Then, the wireless network server 102 proceeds to step 302 and transmits the prestored feature image information according to the current area information to the mobile communication terminal 100.

The control unit 200 of the mobile communication terminal 100 proceeds to step 303 and displays the feature image information received from the wireless network server 102. Then, the user finds and selects feature image information corresponding to a building or a spot that the user can visually check among the currently displayed feature image information. In operation 304, the control unit 200 stores selection information on two or more feature image information selected by the user. The control unit 200 of the mobile communication terminal 100 proceeds to step 308 and corresponds to any one of the currently selected feature image information, to the image input from the camera unit 218 of the mobile communication terminal 100. The targeting mark is displayed and displayed on the display unit 206. Here, the targeting mark is a kind of target mark that helps the user to precisely aim at storing an image of a specific subject. An example of a screen on which such targeting information is displayed will be described in detail with reference to FIG. 6.

The controller 200 proceeds to step 310 to check whether the user has selected to save the image. If the user selects to save the image in step 310, the controller 200 proceeds to step 312 and stores the azimuth angle according to the camera lens direction of the current camera unit 218. In operation 314, the controller 200 checks whether the user selects transmission of the azimuth information regarding the currently stored azimuth. If the user does not select transmission of the azimuth information in step 314, the process proceeds to step 308 to display a targeting mark on an image input from the camera unit 218 corresponding to any one of the currently selected feature image information. Display. However, if the user selects transmission of the azimuth information in step 314, the controller 200 proceeds to step 316, and if the currently stored azimuth information is not two or more, the control unit 200 proceeds to step 317. Select one feature image for which azimuth information is not stored. In operation 308, a targeting mark is displayed and displayed on an image input from the camera unit 218 corresponding to any one of the currently selected feature image information.

However, if there are two or more azimuth information currently stored in step 316, the controller 200 proceeds to step 318 and selects the currently stored azimuth information and selection information of feature images according to a user's selection in step 304. Send to 102. The wireless network server 102 proceeds to step 320 to infer the current user's location through the currently transmitted azimuth information and selection information of the feature image information. In operation 320, the wireless network server 102 stores an image of a building or a landmark corresponding to the feature image information selected by the user through the first feature image information selected by the user and the first azimuth information corresponding thereto. Infer 1 direction. And a second image that stores an image of a building or a landmark corresponding to the feature image information selected by the user through at least one other feature image information, that is, the second feature image information and the corresponding azimuth information, that is, the second azimuth information. Infer the direction. The intersection of the first direction and the second direction is recognized as the current location of the user.

In this case, the user may select at least two feature images and store an image of a building or a landmark corresponding to the feature image to measure the azimuth angle of the feature image from the user. In addition, when the user selects a plurality of feature images and transmits a plurality of azimuth information to the wireless network server 102, information about the user's location may be inferred more accurately.

When the location information of the user is inferred in step 320, the wireless network server 102 proceeds to step 322 in which the location information of the inferred user and the area map information of the area according to the inferred user's location information are transmitted. Transmission to the terminal 100. In operation 324, the controller 200 of the mobile communication terminal 100 receives the received location information of the user on the display unit 206 to provide the user with the current location information. Here, an example of the display screen of the display unit 206 of the mobile communication terminal 100 provided with the location information of the user will be shown in FIG. 6.

Therefore, the present invention can measure the position of the user through the azimuth measured using a simple electronic compass without the GPS receiver or additional infrastructure construction, and thus guide the user's route to the destination where the user wants to go. Can also be. 4 is a diagram illustrating a process of guiding a user's path after the user's location information is provided according to an exemplary embodiment of the present invention. Referring to FIG. 4, when the user selects a specific destination and wants to receive a guide of the destination of the destination, the control unit 200 of the mobile communication terminal 100 proceeds to step 400 to the wireless network server 102. Request feature image information as described above. Then, the wireless network server 102 proceeds to step 402 to provide the feature image information to the mobile communication terminal 100, and the control unit 200 of the mobile communication terminal 100 which receives the information proceeds to step 404. Among the feature image information provided in step 402, any one information according to the user's selection is transmitted to the wireless network server 102.

The wireless network server 102 proceeds to step 405 and recognizes the building or attraction corresponding to the feature image information according to the user selection information received in step 404 as a destination to which the user is going. In operation 406, a route to a building or a landmark recognized as the user destination is calculated. The wireless network server 102 transmits first land mark information to the mobile communication terminal 100 according to the location information of the user as calculated in step 406 and currently inferred in FIG. 3. Here, the landmark information refers to information for guiding the user's route among the routes calculated according to the destination selected by the user. That is, such landmark information may be a building or a sign located along the way of the user. Accordingly, the landmark information includes image information such as a building or a sign and direction information (for example, an arrow) according to a path to an object set as the landmark display. In the following description of FIG. 4, it is assumed that up to two such landmarks are provided. However, the present invention is not limited thereto, and the user may select the number of landmarks provided to the user.

When the primary landmark information is received from the wireless network server 102, the controller 200 proceeds to step 408 and displays the image information and the direction information included in the received primary landmark information on the display unit 206. The controller 200 proceeds to step 410 and checks whether the user has arrived at a point corresponding to the current primary landmark point. If the user does not arrive at the primary landmark point, the controller 200 proceeds to step 410 to display image information and direction information included in the primary landmark information. However, if the user arrives at the first landmark point in step 410, the controller 200 checks to end the operation of guiding the route in step 412. However, if the user does not check the termination in step 412, the process proceeds to step 414 and requests the second landmark information from the wireless network server 102.

The wireless network server 102 then proceeds to step 416 to update the current user's location to the point where the primary landmark is located. In operation 418, the mobile terminal 100 transmits the currently updated user location information and secondary landmark point information according to the user's path calculated in step 406. In operation 420, the mobile communication terminal 100 displays image information and direction information according to the received second landmark point information. In step 422, it is checked whether the user arrives at the point corresponding to the second landmark position. If the user has not arrived at the point according to the second landmark information in step 422, the process proceeds to step 420 again to display image information and direction information according to the second landmark information. However, if the user arrives at the point according to the second landmark information in step 420, the controller 200 terminates the operation of guiding the route according to the destination of the user. Therefore, the user can select a desired destination through the system according to an embodiment of the present invention, and the user can easily and quickly go to the desired destination by being guided along the route according to the selected destination.

In FIG. 4, the user selects at least two of the feature images provided from the wireless network server 102 to infer the user's location. However, if the wireless network server 102 can recognize the image input by the user and recognize the image as a specific location, it is of course not necessary to receive the feature image from the wireless network server 102. 5 is a flowchart illustrating an operation of inferring location information of a user according to the second embodiment of the present invention. If the wireless network server 102 can read the image information input by the user and recognize it as a specific feature, according to the second embodiment of the present invention, the control unit 200 proceeds to step 500 and the current camera. The image input from the unit 218 is displayed together with the targeting mark. In step 502, the user checks whether the user has selected to save the image. If the user selects to store the image in step 502, the process proceeds to step 504 to store the selected image in step 502, and stores the azimuth angle of the electronic compass measured when the image is stored as the target recognition information. In step 506, it is checked whether the user selects transmission. If the user selects transmission in step 506, the control unit 200 proceeds to step 508 and checks whether there are two or more pieces of target recognition information currently stored. If the target recognition information stored in step 508 is not two or more, the process proceeds to step 500 again and displays an image currently input from the camera unit 218 together with the targeting mark.

In the case where two or more pieces of the target recognition information are stored in step 508, the controller 200 proceeds to step 510 and transmits the stored target recognition information to the wireless network server 102. Then, the wireless network server 102 proceeds to step 512 to recognize a building or a spot according to the image information included in the received target recognition information. Here, the method for the wireless network server 102 to recognize a building or a landmark according to the image information includes a database of buildings or landmarks for a corresponding area, and images stored in the database and the mobile communication terminal. By comparing the image information received from the 100, the characteristic portion can be made by selecting similar images. In addition, this process allows the wireless network server 102 to recognize the image by designating a specific category, for example, a building, a school, a tower, etc. when the user of the mobile terminal 100 stores the image. Of course, the process can be faster. If the wireless network server 102 does not recognize a building or a landmark according to the image information, the wireless network server 102 may transmit a message to the mobile communication terminal 100 requesting it again. to be.

When recognition of the image stored by the user from the target recognition information is completed, the wireless network server 102 proceeds to step 514 and infers the current user's location as the azimuth information included in the received target recognition information. . If the user's location information is inferred, the wireless network server 102 proceeds to step 516 and transmits the currently inferred user location information and map information in the vicinity of the user location information to the mobile communication terminal 100. In step 518, the mobile communication terminal 100 displays the received location information of the user on the map information and displays it on the display unit 206. Therefore, according to the second exemplary embodiment of the present invention, a user may receive information about his current location through the stored image without having to store the feature image from the wireless network server 102. In addition, when the information on the current location is recognized through this process, the information on the route of the destination selected by the user may be received in a manner similar to that shown in FIG. 4.

6 is a view showing an example of the display screen of the mobile communication terminal 100 according to an embodiment of the present invention. 6 (a) and 6 (b) are examples of screens displayed when the user stores image information through the camera unit 218. FIG. 6 (c) shows that the mobile communication terminal 100 is wireless. When the user location information is received from the network server 102, this is an example of displaying the location information. First, referring to (a) and (b) of FIG. 6, both (a) and (b) of FIG. 6 show that the targeting mark 600 is displayed so that the user can accurately aim the image. It can be seen that the azimuth information 602 determined according to the direction is being displayed. If the user transmits area information, the wireless network server 102 loads map information according to the area information. If the user stores and transmits an image as shown in FIGS. 6A and 6B, the wireless network server 102 corresponds to the image shown in FIGS. 6A and 6B. The location of the building is retrieved from the loaded map information and recognized. And the position of the user is measured from the position of the building corresponding to (a) of FIG. 6 through azimuth information according to the image information stored in (a) of FIG. Referring to FIG. 6C, when the azimuth information according to the image information stored in FIG. 6A is 65 degrees, the wireless network server 102 corresponds to the image shown in FIG. 6A. It is recognized that the user is in a direction of 295 degrees which is the reverse direction of the azimuth angle 65 degrees at the location of the building. And the position of the user is measured from the position of the building corresponding to (b) of FIG. 6 through azimuth information according to the image information stored in (b) of FIG. That is, referring to FIG. 6B, in FIG. 6B, since the measured azimuth angle is 140 degrees, it is recognized that the user is in a direction of 220 degrees, which is its reverse direction. In addition, the user's position is inferred as shown in FIG. 6C according to the direction information of the user obtained from FIGS. 6A and 6B. The information is transmitted to the mobile communication terminal 100 to provide the user with information about the current user location. Thus, the user can accurately recognize his current location using only the electronic compass function. In addition, although the example shown in FIG. 6 is an example of determining the location of the user by using only two feature image information, the user may use two or more feature image information. As the location increases, the location information of the user can be more accurately inferred.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

The present invention transmits information on the administrative area input from the user to the wireless network server, and receives feature image information of the administrative area from the wireless network server. In addition, when the feature image information according to the user's selection is checked and the user stores an image of a building or a landmark corresponding to the feature image information, the azimuth information of the camera lens is stored accordingly. The apparatus transmits the information on the feature images selected by the user and the stored azimuth information to the wireless network server, and displays map information received from the wireless network server and location information of the user. Accordingly, the present invention can provide accurate location information to the user by simply using the electronic compass function of the mobile communication terminal without constructing a separate GPS receiver or infrastructure according to the EOTD implementation.

Claims (13)

In the system for providing user location information, A mobile communication terminal having an electronic compass and storing administrative area information according to a current user's location input by the user, image information according to the user's selection, and electronic compass azimuth information corresponding to each of the image information; , The wireless terminal receives the administrative area information, the image information according to the user's selection, and the azimuth information from the mobile communication terminal to infer the current location of the user, and transmits the inferred user's location information to the mobile communication terminal. A system for providing user location information comprising a network server. The method of claim 1, wherein the wireless network server, When the administrative area information is received, the user loads the characteristic images according to the user's selection among the previously stored characteristic image information of the characteristic building or attraction located in the administrative area according to the received administrative area information, and transmits them to the mobile communication terminal. System for providing user location information, characterized in that. The method of claim 2, wherein the mobile communication terminal, Receiving and displaying the feature image information, and when the user selects any one of the feature image information and stores the image corresponding to the feature image information, and stores the azimuth information of the camera lens of the time at which the corresponding image information is stored System for providing user location information, characterized in that. The method of claim 3, wherein the wireless network server, Receive selection information about the azimuth information and the feature image information selected by the user, and from the position of the object corresponding to each of the feature image information selected by the user, the azimuth angle corresponding to each feature image information selected by the user System for providing user location information, characterized by inferring the location of the user through the information. The method of claim 1, wherein the wireless network server, And display the inferred user's location on a map corresponding to the administrative area information input by the user and provide the location information to the mobile communication terminal as the user location information. The method of claim 1, wherein the mobile communication terminal, And store image information according to a user's selection, and store azimuth information of the camera lens at the time when the image information is stored. The method of claim 6, wherein the wireless network server, Receives the image information from the mobile communication terminal, and compares and compares the image information with the stored feature image information, and if there is a corresponding feature to recognize it as the feature image information selected by the user provides user location information System for doing so. The method of claim 1, wherein the wireless network server, When the user location information is inferred, any one of the pre-stored feature image information according to the user's selection is recognized as the destination information selected by the user, the path of the user is calculated according to the destination information, and the mobile communication is performed. System for providing user location information, characterized in that to provide a guide (Guide) information to the terminal. The method of claim 8, wherein the wireless network server, A system for providing user location information comprising transmitting road signs information or previously stored feature image information located in a user's path according to the destination information to the mobile communication terminal as landmark information. . In the system for providing user location information, including a mobile communication terminal with an electronic compass and a wireless network server, A regional information transmitting step of transmitting, by the mobile communication terminal, administrative area information input by a user to the wireless network server; Transmitting, by the wireless network server, previously stored characteristic image information of a characteristic building or a landmark located in an administrative area according to the received administrative area information to the mobile communication terminal; A corresponding image storing step of storing, by the mobile terminal, images corresponding to feature image information selected by the user among the feature image information according to a user's selection; Storing, by the mobile communication terminal, azimuth information of the camera lens of the mobile communication terminal corresponding to each of the corresponding images when the respective corresponding images are stored; The wireless network server infers the location of the user by receiving location information of objects corresponding to the feature image information selected by the user and azimuth information of each corresponding image from the mobile communication terminal. Infer user location, And providing, by the wireless network server, user location information for providing the user location information on the inferred user location to the mobile communication terminal. The method of claim 10, wherein the providing of the user location information comprises: Receiving, by the mobile terminal, any one of the feature image information from the user from the destination information; A route calculation step of the wireless network server calculating a route of the user from the user location information and the destination information; And providing, by the wireless network server, information stored in the calculated route among the previously stored sign image information and the feature image information to the mobile communication terminal according to the user location information. A method for providing user location information. In the system for providing user location information, including a mobile communication terminal with an electronic compass and a wireless network server, A regional information transmitting step of transmitting, by the mobile communication terminal, administrative area information input by a user to the wireless network server; Storing, by the mobile communication terminal, user images according to a user's selection, and storing azimuth information according to a lens direction of the camera for each of the images when the respective images are stored; The wireless network server receives the administrative area information and the user images, and compares and analyzes the previously stored characteristic image information about the characteristic building or attraction located in the administrative area according to the received administrative area information and the user image. A recognition step of recognizing feature image information corresponding to the user image; A user inference step of inferring the location of the user through location information of the object corresponding to the recognized feature image information and azimuth information for each user image corresponding to each feature image; And providing, by the wireless network server, user location information for providing the user location information on the inferred user location to the mobile communication terminal. The method of claim 12, wherein the providing of the user location information comprises: Receiving, by the mobile terminal, any one of the feature image information from the user from the destination information; A route calculation step of the wireless network server calculating a route of the user from the user location information and the destination information; And providing, by the wireless network server, information stored in the calculated route among the previously stored sign image information and the feature image information to the mobile communication terminal according to the user location information. A method for providing user location information.

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