Patent Application
20110001795
The present invention relates, in general, to a field monitoring system using a mobile terminal, and more particularly, to a field monitoring system using a mobile terminal, which can generate video and audio information and location information and can transmit the video and audio information and the location information to a control server via wireless communication in the field of occurrence of an incident or an accident that may occur during the performance of work by the personnel member of public institutions such as armies, the police, fire departments and security companies, and which can be compatible with or can replace a conventional fixed capturing device mounted on each of the vehicles of armies, the police, fire departments, and security companies, thus continuously capturing video during a period from riding in the vehicle to the termination of an incident or an accident when the incident or accident occurs.
In conventional technology, the monitoring of the field in which an incident or an accident occurs during the performance of work by the personnel member of public institutions such as armies, the police, fire departments, and security companies has mainly depended on radio communication with personnel located in the field, or an aural or documentary report made by the personnel. Further, for evidence data, conventional technology has depended on a method of capturing the field using a fixed capturing device mounted on a vehicle, or a method of separately sending video capturing members into the field and capturing the field.
However, using only the above method causes problems in that in an emergency situation that may occur unexpectedly on members sent into a field, the detection of a current situation by a control center may be delayed, and it is difficult for the opinions of members in the field and members in the control center to agree with each other and to detect the locations of individual members when the area of an incident is wide and a plurality of members is sent into the field.
Further, even in the case of video capturing performed to record the situation of an incident or an accident, there are problems in that it is difficult to record video due to the occurrence of unexpected incidents and the presence of capturing blind spots caused by a limited number of capturing members and spatial limitations such as side streets or indoor areas.
Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a field monitoring system using a mobile terminal, which allows a control center to promptly detect the current situation of a field via the transmission of video captured in real time in an emergency situation that may occur unexpectedly on members located in the field, and which can be compatible with or can replace a conventional fixed capturing device mounted on each of the vehicles of public institutions such as armies, the police, fire departments, and security companies, thus continuously recording the situation of the field of occurrence of an incident or an accident.
Another object of the present invention is to provide a field monitoring system using a mobile terminal, in which mobile terminals, each employing a commercialized communication module, a Global Positioning System (GPS), and an Inertial Navigation System (INS), are provided to respective members sent into the field of an incident, thus detecting the locations of individual sent members even in a wide expanse of area in which an incident occurs, and enabling an unexpected situation and capturing blind spots caused by a limited number of capturing members, and spatial limitations to be captured.
In order to accomplish the above objects, the present invention provides a field monitoring system using a mobile terminal, comprising a mobile terminal for transmitting situation information which includes video and audio information, generated by capturing video of a field and recording sound of the field, and location information generated by applying signals sensed by an accelerometer and a gyroscope sensor to a Global Positioning System (GPS) signal including latitude, longitude and time, and for receiving three-dimensional (3D) image information corresponding to the situation information; and a control server for receiving the situation information, generating 3D image information about a current location of the mobile terminal by matching the location information of the situation information with pre-stored map information or architectural drawing information, and then transmitting the 3D image information to the mobile terminal.
Preferably, the mobile terminal comprises a video-audio input unit for generating the audio and video information using a capturing module and a recording module; a location information input unit for generating the location information, in which the signals sensed by the accelerometer and the gyroscope sensor are applied to the GPS signal including latitude, longitude and time, by using a GPS reception module and an Inertial Navigation System (INS) module; a storage unit for storing the situation information; a communication unit for transmitting the situation information to the control server and receiving the 3D image information from the control server; and a display unit for displaying the 3D image information corresponding to the situation information received via the communication unit.
Preferably, the control server comprises a location information processing unit for generating the 3D image information required to detect a current location of the mobile terminal by matching the location information of the situation information with the pre-stored map information or architectural drawing information; a storage unit for storing the 3D image information and the video and audio information of the situation information; and a communication unit for receiving the situation information from the mobile terminal and transmitting the 3D image information to the mobile terminal.
Preferably, the mobile terminal and the control server use any one of communication methods, including Wireless Local Area Network LAN (WiFi), High Speed Downlink Packet Access (HSDPA), High Speed Uplink Packet Access (HSUPA), Wireless Broadband (WiBro), Code Division Multiple Access (CDMA), and Global System for Mobile Telecommunication (GSM)-based communication methods.
Preferably, the mobile terminal further comprises an external input/output unit for enabling short-range data exchange in addition to wireless communication.
According to the present invention, there is a peculiar advantage in that a control center can promptly detect the situation of a field via the transmission of video captured in real time in an emergency situation that may occur unexpectedly.
Further, there is a peculiar advantage in that the locations of individual members sent into a field can be detected using mobile terminals, each employing a commercialized communication module, a GPS and an INS, even in a wide expanse of area in which an incident occurs, and unexpected situations or capturing blind spots can be captured.
The above and other objects, features and advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings. It should be noted that, in the following description of the present invention, detailed descriptions may be omitted if it is determined that the detailed descriptions of related well-known functions and construction may make the gist of the present invention unclear.
As shown in
The above-described field monitoring system using a mobile terminal will be described in detail below with reference to
As shown in
As shown in
Further, the location information input unit 120 functions to generate the location information, in which the signals sensed by the accelerometer and the gyroscope sensor are applied to the GPS signal including latitude, longitude and time, by using the GPS reception module 121 and the INS module 122.
The storage unit 130 functions to store the location information and the video and audio information.
Further, the communication unit 140 functions to transmit the video and audio information and the location information stored in the storage unit 140 to the control server 200 and receive situation-dealing information corresponding to the transmitted information from the control server 200, and may perform wireless communication with the control server 200 using wireless communication methods such as Wireless Local Area Network (WiFi), High Speed Downlink Packet Access (HSDPA), High Speed Uplink Packet Access (HSUPA), Wireless Broadband (WiBro), Code Division Multiple Access (CDMA) and Global System for Mobile Telecommunication (GSM)-based communication methods.
Meanwhile, in the present embodiment, the communication methods of the mobile terminal 100 are limitedly described as the six wireless communication methods, but the present invention is not limited to this embodiment. Those skilled in the art will appreciate that the mobile terminal 100 can be compatible with any communication method by exchanging communication modules (not shown) to be mounted in the communication unit 140 as far as the communication method is a wireless communication method enabling data transmission.
Further, the display unit 150 functions to display the pre-stored information, or the situation-dealing information received from the control server 200 through the communication unit 140, in the form of video, audio, pictures, text, etc.
Meanwhile, the mobile terminal 100 may further include an external input/output unit 160 so as to perform short-distance data exchange with other mobile terminals, computers or previously installed fixed capturing devices of armies, the police, fire departments, and security companies, in addition to wireless communication.
Further, the control server 200 includes a location information processing unit 220 for receiving the situation information from the mobile terminal 100, and generating 3D image information required to detect the current location of the mobile terminal by matching the location information of the situation information with pre-stored map information or architectural drawing information; a storage unit 230 for storing the 3D image information and the video and audio information of the situation information; and a communication unit 210 for receiving the situation information from the mobile terminal 100 and transmitting the 3D image information to the mobile terminal 100.
The location information processing unit 220 generates the 3D image information enabling the output of the location of the mobile terminal 100 by matching the location information of the situation information received through the communication unit 210 with the pre-stored map information or architectural drawing information.
Further, the storage unit 230 stores the 3D location information, and the video and audio information received from the mobile terminal 100 via the communication unit 210.
Next, a field monitoring method performed by the above-described field monitoring system using the mobile terminal will be described with reference to
As shown in
Further, the location information input unit 120 receives a GPS signal including latitude, longitude and time via the GPS reception module 121 and the INS module 122, generates signals sensed by an accelerometer and a gyroscope sensor, and thereafter generates location information by applying the sensed signals to GPS coordinate signals at step S120.
Next, the storage unit 130 stores the location information and the video and audio information at step S130.
The communication unit 140 transmits the location information and the video and audio information to the control server 20, and the communication unit 210 of the control server 200 receives the location information and the video and audio information at step S140.
The location information processing unit 220 generates 3D image information enabling the output of the location of the mobile terminal 100 by matching the location information with pre-stored map information or architectural drawing information at step S150.
Further, the storage unit 230 stores the 3D image information and the video and audio information received from the mobile terminal 100 via the communication unit 210 at step S160.
Using the above method, the control server 200 can promptly determine a current situation and can consider plans and instructions for dealing with the situation by using a display device (not shown), and transmit situation information corresponding to the determined situation via the communication unit 210, thus enabling the mobile terminal 100 to display the received situation information in the form of video, audio, pictures and text.
Although the preferred embodiments of the present invention have been disclosed for the purpose of illustrating the technical spirit of the present invention, those skilled in the art will appreciate that the present invention is not limited to the construction and operation illustrated and described in the present specification and various modifications and changes are possible, without departing from the scope and spirit of the invention. Therefore, all suitable modifications and changes and equivalents thereof should be interpreted as being included in the scope of the present invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2008-0015909 | Feb 2008 | KR | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/KR09/00819 | 2/20/2009 | WO | 00 | 8/27/2010 |
