KR101530693B1 - auto CCTV Monitoring device based GIS. - Google Patents

Abstract

More particularly, the present invention relates to an automatic surveillance camera control apparatus based on a geographic information system, and more particularly, to an automatic surveillance camera control apparatus based on a geographic information system, in which a user can input an area that can be automatically controlled using a CCTV control system, The present invention relates to an automatic surveillance camera control apparatus based on a GIS-based system, in which images can be sequentially displayed by using aligned information.

Description

{Auto CCTV Monitoring device based GIS.

More particularly, the present invention relates to an automatic surveillance camera control apparatus based on a geographic information system, and more particularly, to an automatic surveillance camera control apparatus based on a geographic information system, in which a user can input an area that can be automatically controlled using a CCTV control system, The present invention relates to an automatic surveillance camera control apparatus based on a GIS-based system, in which images can be sequentially displayed by using aligned information.

Social demand for accurate CCTV control and rapid response to disasters and crime situations is increasing, and related technologies are also developing.

In this case, when a criminal or a criminal who is caught by a specific CCTV moves to a location outside the visible range of the CCTV, a control task is required to promptly track the moving route and simultaneously display the adjacent CCTV.

This is particularly the case when a particular crime vehicle is traveling rapidly along a road path, or when a particular criminal is escaping a complicated alleyway.

In the past, we used a semiautomatic method to select the CCTV list provided by the CCTV control system and to display the corresponding CCTV screen by the controller 's learning experience when this happens.

Recently, the introduction of the GIS system has made it possible to more conveniently detect the location. Therefore, a system and method for displaying the corresponding CCTV screen by clicking on any CCTV icon displayed on the GIS map has been used. On the GIS map, The CCTV is searched for within the radius, and the CCTV is searched using the searched result and the corresponding image is confirmed manually by the controller manually.

However, in this conventional method, it is inevitable that the route tracking and monitoring service according to the escape of criminals or criminals is inefficient in terms of promptness and accuracy.

Furthermore, if the crime vehicle and the offender are not caught anywhere on the CCTV screen during surveillance, the controller may be confused about which CCTV should be selected and displayed.

The prior art related to the present invention is Korean Patent Laid-Open No. 10-2011-0061028 (published on Jun. 09, 2011).

This is to provide a crime prevention system using real - time location movement information which can minimize the error in position tracking, enable real - time location tracking, reduce power consumption due to low power consumption, and minimize manufacturing cost.

That is, although the GIS-based location movement information is provided, there is a problem that reliability can not be provided because the GIS-based location movement information can not be provided.

In addition, it is not possible to systematically and efficiently monitor incidents where incidents frequently occur and incidents where incidence is low, and if all areas under their jurisdiction are continuously monitored, many areas should be monitored to reduce concentration, There is a problem that the utilization of the system is deteriorated due to monitoring of low probability or low frequency.

Republic of Korea public patent number 2011-0061028 (2011.06.09)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a CCTV camera, which inputs a region that can be automatically controlled by a user using a CCTV control system, And arranges the image so that the image can be displayed efficiently, and the image can be sequentially and automatically displayed using the sorted information.

In order to achieve the object of the present invention,

According to an embodiment of the present invention,

An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;

A database 200 including location data of the CCTV camera and GIS map data;

A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;

An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;

And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently being output on the GIS screen, thereby solving the problems of the present invention.

According to the present invention, there is provided an apparatus for controlling an automatic surveillance camera,

A user inputs an area that can be automatically controlled using a CCTV control system, searches a CCTV camera existing in the input area, arranges the image so that the image can be efficiently displayed, and sequentially displays the images using the sorted information This system can be used to increase the system utilization by automatically monitoring the crime occurrence frequency and the area where the monitoring should be intensively performed and the area where the probability of crime occurrence is low.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an automatic surveillance camera control apparatus based on a GIAESE according to an embodiment of the present invention; FIG.
FIG. 2 is a block diagram of an automatic surveillance area setting unit of an automatic surveillance camera control apparatus based on the GIAESE according to an embodiment of the present invention.
FIG. 3 is a block diagram of a CCTV camera ordering unit of the automatic surveillance camera control apparatus based on the GIAESE according to an embodiment of the present invention.
FIG. 4 is a block diagram of an automatic monitoring image display unit of an automatic surveillance camera control apparatus based on a GIAESE according to an embodiment of the present invention.
FIG. 5 is a block diagram of a CCTV camera display unit of an automatic surveillance camera control apparatus based on a GIAESE according to an embodiment of the present invention.
8 is a specific CCTV camera setting example, FIG. 9 is an example of aligning reference points in a direction, FIG. 10 is a view showing a specific CCTV camera reference point 12 is an example of CCTV camera image display by image display order, FIG. 13A to FIG. 13B are current central display examples, and FIG. 14 is a view illustrating an entire CCTV camera image display example to be.

According to another aspect of the present invention, there is provided an apparatus for controlling an automatic surveillance camera,

An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;

A database 200 including location data of the CCTV camera and GIS map data;

A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;

An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;

And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently output on the GIS screen.

At this time, the automatic surveillance area setting unit (100)

A polygon search module 110 for acquiring location information on three or more monitored areas set on the GIS screen to form a polygon and searching the database for a CCTV camera existing in the polygon,

A radius value of the area to be searched is acquired, and an area having a radius input from the center position is generated to acquire the radius value of the area to be searched, A center location information setting module 120 for searching the database for a CCTV camera existing in the area and providing the list as a list,

Data to be monitored set on the GIS screen is composed of area name, center pointer position information (at least one of the degree of radiance, lot number address, road name address) and radius information of the area to be searched, An external data setting module 130 for searching the database and providing the CCTV cameras existing within the obtained radius to a list,

A CCTV camera existing within a predetermined region based on a specific region is acquired from a database by acquiring a region based on at least one of the specific region information, the radius information, the superior region information, or the centralized monitoring region set on the GIS screen A specific area setting module 140 for searching and providing the list,

The CCTV camera selection information and the CCTV cameras selected in the specific area and the priority of the selected CCTV cameras are set so that the number of the adjacent CCTV cameras is changed according to the priority, A setting module 150,

An alarm accumulation area setting module for acquiring alarm statistical information and radius information for sensor alarm, movement, and area invasion, and searching the database for CCTV cameras existing within the radius based on an area exceeding the set alarm count, And at least one module among the plurality of modules.

At this time, the CCTV camera order arranging unit (300)

A direction reference point alignment module 310 for generating and aligning information between the shortest CCTV cameras using respective positional information based on the CCTV camera existing in the shortest distance and the area range dividing line in the direction obtained by acquiring the set direction,

And a specific CCTV camera reference point alignment module 320 for acquiring the set reference CCTV camera information and generating and arranging information in the order of the CCTV cameras in the shortest distance with reference to the CCTV camera, .

At this time, the automatic monitoring video display unit 400 displays,

The CCTV camera image is displayed on the GIS screen center, and the previous CCTV camera image and the subsequent CCTV camera image are displayed on the basis of the current CCTV camera in the direction of the corresponding CCTV camera A CCTV camera image display module 410 for each direction,

A plurality of images are automatically or manually displayed in a line on the right or left side of the GIS screen, the images of the previous CCTV cameras are displayed in the first column in the corresponding columns, and the images of the CCTV cameras are displayed in the order column And a video display module 420. The video display module 420 may be a video display module or a video display module.

At this time, the CCTV camera display unit 500 displays,

The CCTV camera is positioned at the center of the GIS screen. The CCTV camera is enlarged or reduced from the previous CCTV camera to the CCTV camera at a time, and the icon of the CCTV camera in which the current image is displayed is displayed differently. A current center CCTV camera display module 510 for facilitating camera recognition,

While the image is displayed on the GIS screen, the GIS screen is enlarged or reduced to a scale at which the entire CCTV camera can be viewed at a time, and the CCTV camera icon in which the current image is displayed can be displayed And a whole CCTV camera relation display module 520 for displaying the current CCTV camera differently from the CCTV camera and facilitating the recognition of the CCTV camera currently displayed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of an automatic surveillance camera control apparatus based on a GIAESE according to the present invention will be described in detail.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an automatic surveillance camera control apparatus based on a GIAESE according to an embodiment of the present invention; FIG.

As shown in FIG. 1, in the automatic surveillance camera control apparatus 1000 based on the GIAES,

An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;

A database 200 including location data of the CCTV camera and GIS map data;

A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;

An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;

And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently output on the GIS screen.

The automatic surveillance area setting unit 100 sets an area to be monitored on the GIS screen and searches for a CCTV camera existing in the area.

In other words, as a part for automatically inputting an area to be controlled, the user can input a three or more pointers on the GIS automatically by mouse to form a polygon to search for a CCTV camera existing in the polygon, A document, a file, and database type information including location information, lot number address, road name address, and the like can be input from outside.

Also, a main building, a lot number address, or a road name address in the area to be monitored is input, and the CCTV camera existing within the radius inputted by the user is searched using the information of the corresponding location.

The configuration for performing the above functions will be described in detail with reference to FIG.

FIG. 2 is a block diagram of an automatic surveillance area setting unit of an automatic surveillance camera control apparatus based on the GIAESE according to an embodiment of the present invention.

As shown in Fig. 2, the automatic monitoring area setting unit 100 sets,

A polygon search module 110 for obtaining a pointer to at least three areas to be monitored on the GIS screen to form a polygon and searching a database for a CCTV camera existing in the polygon,

A radius value of the area to be searched is acquired, and an area having a radius input from the center position is generated to acquire the radius value of the area to be searched, A center location information setting module 120 for searching the database for a CCTV camera existing in the area and providing the list as a list,

Data to be monitored set on the GIS screen is composed of area name, center pointer position information (at least one of the degree of radiance, lot number address, road name address) and radius information of the area to be searched, An external data setting module 130 for searching the database and providing the CCTV cameras existing within the obtained radius to a list,

A specific area for searching the database for the CCTV cameras existing in the radius based on the specific area by acquiring the specific area information, the radius information, the coverage area information or the centralized monitoring area of the area to be monitored set on the GIS screen A setting module 140,

The CCTV camera selection information and the CCTV cameras selected in the specific area and the priority of the selected CCTV cameras are set so that the number of the adjacent CCTV cameras is changed according to the priority, A setting module 150,

An alarm accumulation area setting module for acquiring alarm statistical information and radius information for sensor alarm, movement, and area invasion, and searching the database for CCTV cameras existing within the radius based on an area exceeding the set alarm count, (160). ≪ / RTI >

That is, it is a configuration for enabling the user to input various types of input.

The coverage area information is based on statistical data using crime occurrence information collected by a public institution. The concentration monitoring area is based on one or more of child protection zones, elementary and junior high schools, and educational institution location information Area.

As shown in FIG. 6, the polygon search module 110 obtains pointers to three or more monitored areas set on the GIS screen to form polygons, and searches the database for the CCTV cameras existing in the polygons .

That is, if a polygon is set by inputting three or more pieces of position information to an area to be automatically controlled with a mouse or a keyboard, a CCTV camera existing in the polygon is searched and a result is provided as a list.

As shown in FIG. 7, the center-position-information-setting module 120 obtains one of a center-of-gravity value, a lot number address, and a road name address, which is a center position value of a region to be monitored set on the GIS screen, A radius value is obtained, and an area having a radius input at the center position is generated, and a CCTV camera existing in the corresponding area is searched in a database and provided as a list.

That is, when the user inputs the radius information, which is the center position value of the area to be automatically controlled, the lot number address, the road name address, etc., the user obtains the information. When the user inputs the radius value of the area to be searched, And the CCTV cameras existing in the corresponding area are searched and provided as a list.

Also, the external data setting module 130 may set the area to be monitored, which is set on the GIS screen, as data including the area name, the center pointer position information (at least one of the radius, the lot number, and the road name) And acquires the radius information and searches the database for a CCTV camera existing within a radius obtained on the basis of the center position information as a list.

That is, the area to be automatically monitored is provided with information such as a document, a file, and a database in the form of an area name, center pointer position information (such as a degree of latitude, a lot number address, a street name address, etc.) Searching for a CCTV camera existing within the input radius based on the central pointer information, and providing the result as a list.

The specific area setting module 140 obtains the specific area information and the radius information of the area to be monitored set on the GIS screen and searches the database for the CCTV cameras existing within the radius based on the specific area and provides the list.

That is, when the user selects the child protection zone, the primary zone, the middle zone, and the high zone, the child protection zone is a CCTV camera existing in the inputted child protection zone, , And provides a list of the selected CCTV cameras. If the user selects the first, middle, and high regions, the CCTV cameras existing in the radius inputted from the POI (Point of Information) data inputted in the GIS centered on the elementary school, middle school and high school are searched And provide them as a list.

This is a configuration for faster retrieval.

As shown in FIGS. 8A to 8C, the specific camera setting module 150 sets the CCTV camera selection information and the CCTV cameras in the specific area, The number of cameras is different, and the CCTV camera is searched from the database and provided as a list.

That is, if a plurality of CCTV cameras existing in a specific area are selected and the regular monitoring priority is inputted among the selected cameras, the number of adjacent CCTV cameras is changed according to the inputted priority, and a list is generated and provided.

In addition, images of adjacent CCTV cameras are simultaneously displayed by a predetermined number according to the priority order.

For example, if A, B, and C CCTV cameras are selected and A is set to priority 10, B is set to priority 5, and C is set to priority 2, then a CCTV camera adjacent to CCTV camera A set to FIG. (Shown in FIG. 8A). The CCTV camera B set in FIG. 5 searches for an adjacent CCTV camera in three stages (shown in FIG. 8B) to generate and provide a list. The CCTV camera C searches the adjacent CCTV cameras only in two stages (as shown in FIG. 8C), and generates and provides a list.

Meanwhile, the alarm accumulation area setting module 160 acquires the alarm statistical information and the radius information about the generated sensor alarm, motion, area invasion, etc. by pressing a switch that occurs during the operation of the CCTV control system, And the CCTV cameras existing in the corresponding radius are searched from the database and provided as a list.

The alarm statistical information is stored in a database. Since the alarm statistical technique is a general technique, a detailed description will be omitted.

FIG. 3 is a block diagram of a CCTV camera ordering unit of the automatic surveillance camera control apparatus based on the GIAESE according to an embodiment of the present invention.

As shown in FIG. 3, the CCTV camera order arranging unit 300 includes:

A direction reference point alignment module 310 for generating and aligning information between the shortest CCTV cameras using respective positional information based on the CCTV camera existing in the shortest distance and the area range dividing line in the direction obtained by acquiring the set direction,

And a specific CCTV camera reference point aligning module 320 for acquiring the set reference CCTV camera information and generating and arranging information in the order of the CCTV cameras in the shortest distance with reference to the CCTV camera, .

In other words, the CCTV camera list is searched and the reference points such as the direction and the specific camera information are input, and the camera order to be automatically monitored is aligned using the reference point.

As shown in FIG. 9, the directional reference point alignment module 310 selects and arranges information to be determined based on the user in the north, south, south, east, and west directions and exists in the shortest distance from the area range dividing line in the input direction The information between the shortest CCTV cameras is generated and aligned using the position information and network information of each camera based on the camera.

That is, the CCTV cameras existing in the shortest distance and the area range dividing line in the direction obtained by acquiring the set directions are used to generate and sort the information between the shortest CCTV cameras using the respective position information.

As shown in FIG. 10, the specific CCTV camera reference point alignment module 320 acquires the set reference CCTV camera information and generates and arranges information in the order of the CCTV cameras in the shortest distance based on the CCTV camera.

That is, when a user inputs CCTV camera information to be a reference, information is generated and arranged in the order of CCTV cameras in the shortest distance based on the camera.

FIG. 4 is a block diagram of an automatic monitoring image display unit of an automatic surveillance camera control apparatus based on a GIAESE according to an embodiment of the present invention.

The automatic surveillance image display unit displays a plurality of areas on the border of the GIS screen and exposes the generated images to a position corresponding to the direction of the camera and displays the three images on the right or left side of the GIS screen, The current camera image and the subsequent camera image while displaying the current camera image differently from the previous camera image and the subsequent camera image to support the user to know what the current camera image is, Module 410, and a camera image display module 420 in order.

As shown in FIG. 11, the directional CCTV camera image display module 410 generates a plurality of areas on the screen of the GIS, displays the current CCTV camera image at the center of the GIS screen, The camera image is displayed in the direction of the CCTV camera based on the current CCTV camera.

On the other hand, as shown in FIG. 12, the camera image display module 420 in order displays a plurality of images in a line on the right or left side of the GIS screen, displays the image of the previous CCTV camera in the first column in the corresponding column, The image of the camera is displayed in the last column in the corresponding column.

That is, three images are displayed in a line on the right or left side of the GIS screen, the image of the previous CCTV camera is displayed in the first column in the corresponding column, and the CCTV camera image is displayed in the last column in the corresponding column.

The current CCTV camera image is displayed on the intermediate image in the corresponding column, and the user can recognize that the CCTV camera image is a current CCTV camera image by displaying the image size differently or by performing specific display.

In addition, the direction of the displayed image is based on the CCTV camera in which the current image is displayed.

FIG. 5 is a block diagram of a CCTV camera display unit of an automatic surveillance camera control apparatus based on a GIAESE according to an embodiment of the present invention.

5, the CCTV camera display unit 500 displays an icon of the CCTV camera currently displayed on the GIS screen. To this end, the current central CCTV camera display module 510, , And an entire CCTV camera relationship display module 520. [

13A to 13B, the current central CCTV camera display module 510 centrally positions the current CCTV camera on the GIS screen and enlarges the screen from a previous CCTV camera to a CCTV camera at a single viewable scale And displays the icon of the CCTV camera in which the current image is displayed, thereby facilitating the recognition of the CCTV camera currently displayed.

In other words, CCTV camera in which current CCTV camera is located at the center of current GIS and CCTV camera, and then CCTV camera is enlarged or reduced at a time that can be seen at a time, By displaying the icons differently, it is easy to recognize which CCTV camera is currently displayed.

When the current CCTV camera is changed, the CCTV camera which automatically displays the current image again moves to the center of the GIS, and the previous CCTV camera and the subsequent CCTV camera are enlarged and reduced at a single view.

Meanwhile, as shown in FIG. 14, the entire CCTV camera relationship display module 520 enlarges or reduces the GIS screen to a scale that allows viewing of the entire CCTV camera at a time while the video is being displayed on the GIS screen, Order and relation of the CCTV camera and displays the icon of the CCTV camera in which the current image is displayed differently from other CCTV cameras so that the CCTV camera currently displayed can easily recognize which CCTV camera.

To explain the operation process, the user pre-selects an area to be automatically controlled.

The automatic control area input method that can be selected by the user includes a polygonal area input method, a center position input method, a large amount of data input method from the outside, a specific area input method, a specific camera input method, and an area input method through alarm statistics.

In the case of executing polygon area input, the user performs registration after inputting the area on the GIS with three or more polygons using a mouse or a keyboard.

At this time, the area to be controlled by the user is registered, and the CCTV camera existing in the area is searched and generated as a list (CCTV A, B, C ...).

In the case of execution of the center position input, the user inputs and retrieves an address (lot number, street name address) or building which can be the center of the pre-selected area.

At this time, a list corresponding to the inputted information is provided to the user, and the user selects the center information to be set by the user from the provided list, inputs the radius information from the information, and executes it.

(CCTV A, B, C, ...) by searching the CCTV cameras existing in the generated ellipse by generating the ellipses of the inputted center information and the radius inputted from the center.

In the case of execution of a large amount of data input from the outside, the user selects a file or database in which the automatic control area name, administrative address, lot number, road name address, center radius degree coordinate, and radius information of the pre-selected area are arranged.

(CCTV A, B, C ...) by searching for the CCTVs existing in the generated ellipse by generating the ellipses of the radius by inputting the items selected in the file and the database automatically using the selected information, .

If there is a center radial degree coordinate among the information inputted by the user, an ellipse of a radial value entered based on the center radial degree coordinate is generated, and among the inputted information, there is no central radial degree coordinate, And generates an ellipse having an input radius centered on the coordinate and searches for CCTVs existing in the generated ellipse to generate CCTV A, B, C ....

If there is no central coordinates, a lot number, or road name address information among the information input by the user and there is only the administrative view, CCTV cameras existing in the administrative area are searched and generated as a list (CCTV A, B, C ...) .

On the other hand, in the case of the execution of a specific area, the user can select whether the pre-selected area is a child protection zone, a primary, middle or high school area, a specific administrative district or a concentrated area of a specific business type (restaurant, pub, Select a protected area, an elementary and junior high school area, an administrative office, and a certain type of business requiring automatic control.

If the selected area is a child protection zone, CCTV cameras within the radius entered in the center of the child protection zone are searched, and CCTV cameras existing in the radius are searched and generated as a list (CCTV A, B, C ...).

If the selected area is a primary, middle, or high school area, it automatically searches for the primary, middle, and high school locations in the jurisdiction using the POI (Point Of Information) entered in the GIS, searches for CCTV cameras within the inputted radius, (CCTV A, B, C,...).

If the selected area is the administrative district, the CCTV cameras in the administrative area input in the GIS are searched, and the CCTV cameras existing in the radius are searched and generated as the list (CCTV A, B, C ...).

If you select a specific category, you can search for CCTVs that exist within the administrative districts of N (for example, 3 to the top 3) preset areas with the highest concentration of the industry in question, , B, C ...).

In the case of executing the specific camera selection input, when the user selects the main CCTV camera to be automatically controlled and inputs the radius information, the CCTV camera existing within the radius centered on the CCTV camera is searched for and the list (CCTV A, B, C ...).

On the other hand, in the case of executing the input by the alarm statistics, in order to automatically control the area where the alarm occurs frequently, when the designated time period and the alarm type are selected, statistics on the frequency of occurrence of the selected alarm type during the set period are used (For example, 3 for the third highest position) of the maximum occurrence area is selected and CCTV cameras existing within the set radius are searched and generated as a list (CCTV A, B, C ...) .

Thereafter, the CCTV camera list existing in the automatic control area is aligned.

That is, the user selects the directional sorting method or the specific CCTV camera sorting method to sort the generated CCTV list.

If the user does not select an alignment method, the north-north direction is selected by default and the alignment method by direction is selected.

If the user selects the directional sorting method, the CCTV camera in the northernmost direction in the CCTV camera list existing in the area to be automatically controlled is selected, and the CCTV camera located in the area based on the selected CCTV camera (A) Register the nearest CCTV camera of the selected CCTV camera as the next CCTV camera.

The CCTV camera (B) which is selected as the next CCTV camera is selected as the next CCTV camera from the list of the CCTV cameras existing in the area again and not adjacent to the CCTV camera (A).

The CCTV camera (B) is searched again for the adjacent CCTV camera based on the CCTV camera (C) selected by the next CCTV camera.

In this process, all the CCTV cameras in the area are aligned with each other when the CCTV cameras are not overlapped with each other and the web and the location are connected.

When the user selects a specific CCTV camera selection sort and the user selects the CCTV camera (CCTV camera (A)), the corresponding CCTV camera is selected from the list of CCTV cameras existing within the area to be automatically controlled and the selected CCTV camera (A) The neighboring CCTV cameras are searched in the list of CCTV cameras existing in the area and registered as the next adjacent CCTV cameras.

Next, the CCTV camera (B) which is registered with the adjacent CCTV camera is selected as the next CCTV camera from the list of the CCTV cameras existing in the area, not the CCTV camera (A) but adjacent to the CCTV camera.

The CCTV camera (B) is searched again for the adjacent CCTV camera based on the CCTV camera (C) selected by the next CCTV camera.

This process is completed when all the CCTV cameras in the area are configured as webs connected with each other without overlapping adjacent CCTV cameras.

When the user selects the directional image display method or the sequential image display method among the image display methods and executes the automatic control function, the user sequentially displays the images sequentially using the ordered list of CCTV cameras To display the CCTV camera image.

When the user selects the directional image display mode, the plurality of CCTV cameras are sequentially selected from the first CCTV camera (CCTV camera (A)) in the sorted CCTV camera list.

When displaying the image of the first CCTV camera (A), it displays a plurality of adjacent CCTV cameras of the CCTV camera (A).

If the user selects the sequential image display mode, the image of the first CCTV camera (CCTV camera (A)) and the image of the next CCTV (CCTV camera (B)) of the CCTV camera (A) And

The image of the CCTV camera (A) is displayed in the middle of the left side, and the image of the CCTV camera (B), which is the next CCTV camera, is displayed at the lower left corner.

After a predetermined time has elapsed, the image of the CCTV camera A is displayed on the upper left side of the previous image, the image of the CCTV camera B is displayed in the middle of the left side of the current image, The image of the CCTV camera (CCTV camera (C)) is displayed in the lower left corner indicating the next CCTV camera.

On the other hand, the CCTV camera is displayed on the GIS. On the GIS, the user selects either the current CCTV camera centering method or the entire CCTV camera related information presentation method.

(CCTV camera (A)), second CCTV (CCTV camera (B)), third CCTV (CCTV camera (C)) from the sorted CCTV camera list when the user selects the present CCTV camera- And the CCTV camera (A) is located at the center of the GIS.

Also, the CCTV camera that displays the current image is displayed differently from the CCTV camera.

When the user selects the method of displaying the entire CCTV camera relationship information, all the CCTV cameras in the sorted CCTV camera list are enlarged or reduced at a single view, and the center of the automatic control area is displayed at the center of the GIS.

The order of each CCTV camera is represented in the GIS, and the icon of the CCTV camera is displayed differently.

Through the above-described configuration and operation, a user can input an area that can be automatically controlled by using the CCTV control system, search for a CCTV camera existing in the input area, sort the image so that the image can be efficiently displayed, It is possible to automatically display the images sequentially using information.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Automatic monitoring area setting unit
200: Database
300: CCTV camera order arranging unit
400: Automatic monitoring image display unit
500: CCTV camera display unit

Claims (5)

delete 1. An automatic surveillance camera control apparatus based on a GIAESE,
An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;
A database 200 including location data of the CCTV camera and GIS map data;
A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;
An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;
And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently output on the GIS screen,
The automatic monitoring area setting unit (100)
A polygon search module 110 for acquiring location information on three or more monitored areas set on the GIS screen to form a polygon and searching the database for a CCTV camera existing in the polygon,
A radius value of the area to be searched is acquired, and an area having a radius input from the center position is generated to acquire the radius value of the area to be searched, A center location information setting module 120 for searching the database for a CCTV camera existing in the area and providing the list as a list,
Data to be monitored set on the GIS screen is composed of area name, center pointer position information (at least one of the degree of radiance, lot number address, road name address) and radius information of the area to be searched, An external data setting module 130 for searching the database and providing the CCTV cameras existing within the obtained radius to a list,
A CCTV camera existing within a predetermined region based on a specific region is acquired from a database by acquiring a region based on at least one of the specific region information, the radius information, the superior region information, or the centralized monitoring region set on the GIS screen A specific area setting module 140 for searching and providing the list,
The CCTV camera selection information and the CCTV cameras selected in the specific area and the priority of the selected CCTV cameras are set so that the number of the adjacent CCTV cameras is changed according to the priority, A setting module 150,
An alarm accumulation area setting module for acquiring alarm statistical information and radius information for sensor alarm, movement, and area invasion, and searching the database for CCTV cameras existing within the radius based on an area exceeding the set alarm count, And a controller 160 for controlling the automatic surveillance camera.
1. An automatic surveillance camera control apparatus based on a GIAESE,
An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;
A database 200 including location data of the CCTV camera and GIS map data;
A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;
An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;
And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently output on the GIS screen,
The CCTV camera order arranging unit (300)
A direction reference point alignment module 310 for generating and aligning information between the shortest CCTV cameras using respective positional information based on the CCTV camera existing in the shortest distance and the area range dividing line in the direction obtained by acquiring the set direction,
And a specific CCTV camera reference point alignment module 320 for acquiring the set reference CCTV camera information and generating and arranging information in the order of the CCTV cameras in the shortest distance with reference to the CCTV camera, Automatic monitoring camera control device based on Giaezes.
1. An automatic surveillance camera control apparatus based on a GIAESE,
An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;
A database 200 including location data of the CCTV camera and GIS map data;
A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;
An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;
And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently output on the GIS screen,
The automatic surveillance image display unit (400)
The CCTV camera image is displayed on the GIS screen center, and the previous CCTV camera image and the subsequent CCTV camera image are displayed on the basis of the current CCTV camera in the direction of the corresponding CCTV camera A CCTV camera image display module 410 for each direction,
A plurality of images are automatically or manually displayed in a line on the right or left side of the GIS screen, the images of the previous CCTV cameras are displayed in the first column in the corresponding columns, and the images of the CCTV cameras are displayed in the order column And an image display module (420). The apparatus for controlling an automatic surveillance camera according to any one of claims 1 to 5,
1. An automatic surveillance camera control apparatus based on a GIAESE,
An automatic surveillance area setting unit (100) for setting a surveillance area on a GIS screen and searching for a CCTV camera existing in the surveillance area;
A database 200 including location data of the CCTV camera and GIS map data;
A CCTV camera order arranging unit 300 for generating a CCTV camera list existing in the set area by referring to the database, setting a reference point of a specific CCTV camera and aligning a CCTV camera order to be automatically monitored using a set reference point, Wow;
An automatic surveillance image display unit 400 for generating an area on the screen frame of the GIS so that the current camera image can be recognized as a certain image;
And a CCTV camera display unit 500 for displaying an icon of the CCTV camera currently output on the GIS screen,
The CCTV camera display unit 500 displays,
The CCTV camera is positioned at the center of the GIS screen. The CCTV camera is enlarged or reduced from the previous CCTV camera to the CCTV camera at a time, and the icon of the CCTV camera in which the current image is displayed is displayed differently. A current center CCTV camera display module 510 for facilitating camera recognition,
While the image is displayed on the GIS screen, the GIS screen is enlarged or reduced to a scale at which the entire CCTV camera can be viewed at a time, and the CCTV camera icon in which the current image is displayed can be displayed And a whole CCTV camera relation display module 520 for displaying the displayed CCTV camera differently from the CCTV camera and facilitating recognition of the CCTV camera currently displayed. Device.

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