KR20190003076A - Web server implementation technology that can view the image data actually taken from the location on the electronic map - Google Patents

Abstract

In the present invention, video data photographed at a specific location outside a mobile phone, that is, a photograph or video file, is made into a single file including the location of a mobile phone and sent to a specific web server having a map DB, And to provide a function that allows the user to view the photographed image data.

Description

Description of the Related Art [0002] A Web server implementation technology capable of viewing image data photographed at an actual location on an electronic map is disclosed.

The present invention relates to a function of a web server and a smart phone for allowing a photograph (or a moving image) taken by a smart phone to be viewed on the electronic map at the same position. The smart phone downloads the app (APP) that can do this, creates a tag file with necessary data including the location data on the picture taken, attaches it to the photo file, and sends it as one file to the web server.

The web server attaches the photo file to the location data included in the tag only when the tag file is normal.

That is, the present invention relates to providing a service in which a photograph using a user smart phone is placed on a database of a web server and a user using the web server can view an actual photograph taken at a specific location on an electronic map.

Many Internet portals, including Google, are providing electronic map services. We can not know the actual shape of a building, road, or facility on an electronic map because it is expressed in some graphic form. Moreover, it is not easy to see actual scenes in the electronic map area corresponding to the space where people do not live.

Especially when preparing a trip or planning a hike, it will be helpful to many people if you can see the route you want to go on the electronic map in advance as a photo or video.

In the present invention, when a general person takes a picture (video) on a smart phone and uploads it to a specific web server, the photograph is stored in a location on the electronic map provided by the web server. If the user designates the location on the map, It is about technology that enables you to view photos.

First, download an app that can perform the functions required for your smartphone.

The Web server must have electronic map data covering the world, the country, or a specific area.

And it should have a database to register a lot of smart phones. And when you take a picture on each smartphone, the app reads the necessary information including the GPS signal embedded in the smartphone, creates a tag file, and combines the tag file with the photo file into one file.

The web server receives the photo (or video) file containing the tag, restores the tag data of the tag file, and creates a mark to view the photo data at that position.

Most of the electronic maps provided on the Internet are graphical, so you can not see the actual background or surroundings at specific locations on the electronic map.

However, according to the present invention, when a photograph taken by a general person on a smart phone is uploaded to a specific server, the web server can correspond to the photographic data at that location, and the actual background and the like can be seen when the specific web server is connected.

FIG. 1 is a diagram illustrating a configuration of a smart phone and a web server in which a corresponding app is installed according to an embodiment of the present invention.

The present invention can be applied to a case where a photograph is taken or a moving picture is taken at a certain position, that is, at a specific latitude, longitude and altitude of the earth coordinate system, and the image file is uploaded to a specific web server 200, And assigns the image data to the same latitude and longitude on the electronic map provided by the web server 200. The object of the present invention is to provide a service for anyone who accesses the web server 200 to view image data allocated to the location on the electronic map provided by the web server 200.

Basically, the image photographing device is a smartphone 100, and a (110) satellite receiving module 120 is embedded in the hardware of the smartphone 100, and the smartphone 100 is installed in a software stack 150 And an app 160 capable of receiving and processing location information of the smartphone 100 from the satellite reception module 120.

 The app 160 may vary depending on the terminal type of the mobile device, and may be downloaded and operated as a general application.

 A smartphone that uploads image data including a photograph to the web server 200 must register the smartphone 100 in the web server 200. [

The application 160 reads the MAC address of the communication modem chip 130 of the smartphone 100 and requests the web server 100 to determine whether the smartphone 100 is registered . The application 160 automatically reads the MAC address of the communication chip 130 of the smartphone 100 and inputs necessary information from the user to the web server 200 give. The user information includes information including a user e-mail address, a number of the smartphone 100, a user ID, and a name, and transmits the information to the web server 200 without being encrypted through the Internet 300.

  The front end program 210 of the web server 200 having received the registration request checks the information and registers the information of the smartphone 100 in the terminal database 220 of the web server 200 if there is no problem .

The web server 200 generates one or more cipher keys at the same time while registering the smartphone 100 in the terminal database 220 and registers the cipher keys in the terminal database 220 together with the information of the smartphone 100 And downloads the cryptographic key to the smartphone 100 through the Internet 300. The web server 200 and the smartphone 100 share an encryption key.

The communication between the web server 200 and the smartphone 100 then encrypts a file transmitted and received using the shared encryption key.

When the smartphone 100 takes a picture, the built-in app 160 can directly read the location information of the smartphone 100 from the satellite receiving module 120.

In addition, information such as the shooting date, time, gyro sensor 140 data, and the like can be known by the application 160 via the software stack 150. In particular, when the information of the gyro sensor 140 is analyzed The direction in which the smartphone 100 is heading can also be known.

 By combining such information, the app 160 creates a tag file. The tag file includes information such as a shooting date, a photographing time, a gyro sensor 140 data, a communication chipset MAC address of the smartphone 100, and the number of the smartphone 100.

The tag file is encrypted using the encryption key shared by the smartphone 100. The encrypted tag file is merged with the image data to form one image file and is stored in the smartphone 100. At this time, in order to distinguish the image data including the tag file from the general image data, a tag mark including a tag file is included in a part of the image data.

In general web server including the web server 200, when the tag mark of the image data is selected with a mouse or the like, the information of the image data, that is, the direction, date, time,

When the smartphone 100 uploads the image data to the web server 200, the web server 200 includes the encryption key of the smartphone 100 registered in the terminal database 22, The tag file is used to extract information such as the shooting date of the video data, the shooting time, the shooting location, and the communication chip set MAC address. The smartphone 100 can be compared with the information of the smartphone 100 stored in the terminal database at the time of registering the smartphone 100 to confirm that the terminal is a registered terminal.

When it is determined that the device is a registered device, the image data is stored in the image database 230 together with the smart phone ID, that is, the MAC address of the communication chipset, and the information of the photographing position is marked on the same electronic map database 240. This is called a video mark. The video mark has a video database position of the video data. When the video mark is selected, the content of the tag file can be known in addition to the video data.

The image database 230 and the terminal database 220 can be operated as one database.

When the user accesses the web server 200, the electronic map is displayed on the screen, and the movement of the map can be enlarged and reduced. When the electronic map is expanded by the position and scale desired by the user, the electronic mark is automatically displayed in a certain radius at the cursor position as the mouse cursor moves on the electronic map.

In this state, if the position is selected by double clicking or the like, a list of image marks within a certain radius is displayed.

If you select one of the listed image data lists, a popup window opens and you can view the image data within that window. When the tag mark of the image data is selected, the contents of the original tag file can be seen.

100: Smartphone
110: Hardware module of smartphone
120: Satellite (GPS) receiving module of smartphone
130: Smartphone communication chipset
140: Gyro sensor on smartphone
150: Smartphone software stack
160: Smartphone app (APP)
200: Web server
210: Front End Program
215: Back-end program
220: terminal database (DB)
230: image database (DB)
240: Electronic map database (DB)
300: Internet network

Claims (15)

An electronic map database 240, a front end program 210, and a display unit 220. The smart phone 100 includes a satellite receiving module 120 and an app 160 capable of receiving location information from the satellite receiving device 120. [ And a web server 200 in which the back-end programs 215 operate in conjunction with each other, and an Internet network 300 that encapsulates them, The app 160 receives the photographing position information at the time of photographing from the satellite receiving device 120 and stores it in the smartphone 100 together with the photographed image data. When the image data is sent to the web server 200, the front end program 210 of the web server 200 receives the image data including the location information, extracts the location information, And the image data is matched to the same position of the electronic map database (240), so that the image data photographed at the actual position can be viewed at the position on the electronic map.
The web server system according to claim 1, wherein the tag file including the location information is generated within a predetermined time after the photographing.
Wherein the image file is encrypted with an encryption key shared with the web server when the tag file including the location information of claim 1 is generated. Server system.
The web server system according to claim 1, wherein the tag file including the positional information of claim 1 is composed of one file together with the generated image data.
The web server system according to claim 1, wherein the tag file including the location information includes a photographing date, a time, and a MAC address in addition to the location information.
The web server system according to claim 1, wherein the tag file including the position information includes data of the gyro sensor (140).
Wherein the image data having the tag file including the position information includes a tag mark indicating information indicating that the tag file is included, Web server system.
Wherein the image data photographed by the smartphone (100) can be uploaded to the web server (200) only when the smartphone as a photographing device registers in the web server (200) A web server system capable of viewing one image data.
When registering the smartphone 100 in the web server 200, the MAC address of the communication chip 130 of the smartphone 100, the number of the smartphone 100, and the user ID are transmitted to the web server 200, And the image data photographed at the actual position can be viewed at a position on the electronic map.
When the web server 200 completes the registration of the smartphone 100, the web server 200 generates one or more cryptographic keys and shares the cryptographic key with the smartphone 100, A web server system capable of viewing one image data.
Wherein the web server (200) receives the image data including the tag file and releases the tag data with the encryption key of the web server (200), and obtains the position data upon photographing from the data included in the original tag data The web server system capable of viewing the image data photographed at the actual position at the position on the web server.
The web server system according to claim 11, wherein the image data is matched to a position on the same electronic map as the position data read in claim 11, so that the image data photographed at the actual position can be viewed at the position on the electronic map.
Wherein the electronic map is configured to display an image mark within a certain radius as the mouse pointer moves on the electronic map when the electronic map of the web server 200 is open. Viewable web server system.
And a new pop-up window is opened when the image data is opened, so that the image file can be viewed in the pop-up window.
And the contents of the tag file included in the image data can be viewed by selecting the image mark attached to the image data, the image data photographed at the actual position can be viewed at the position on the electronic map.

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