Map data-based CCTV video monitoring device and method thereof

The map data-based CCTV system integrates with Smart City Platforms to enhance urban monitoring by offering real-time event information and control, addressing the challenge of efficient CCTV management in urban areas.

WO2026141904A1PCT designated stage Publication Date: 2026-07-02GEOMEXSOFT

Patent Information

Authority / Receiving Office
WO · WO
Patent Type
Applications
Current Assignee / Owner
GEOMEXSOFT
Filing Date
2025-10-23
Publication Date
2026-07-02

AI Technical Summary

Technical Problem

Existing CCTV systems lack effective integration with Smart City Integrated Platforms, hindering efficient monitoring and management of urban areas and transportation hubs, particularly in emergency situations.

Method used

A map data-based CCTV video monitoring device and method that integrates with a Smart City Integrated Platform, enabling real-time event occurrence information display, CCTV search and control, and patrol monitoring through a user interface with menu items and sub-items for managing CCTV operations.

Benefits of technology

Facilitates easy access and control of CCTV footage, allowing agencies to respond swiftly to events by providing real-time event information and enabling efficient patrol and selective monitoring.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present invention relates to a map data-based CCTV video monitoring device and a method thereof, the device comprising a memory and a processor, wherein the processor: accesses a smart city integration platform; receives, from the smart city integration platform, map data including CCTV information about a to-be-monitored area to display the map data in a first area of a display; displays, in a second area, first menu items related to a video providing service of a CCTV; displays, in a third area, second menu items for interacting with a map displayed in the first area; displays corresponding sub-menu items when an item pertaining to event occurrence monitoring is selected by a user from among the first menu items; displays, in a fourth area, third menu items pertaining to an event occurrence list and event information; moves map data displayed in the first area to a selected event occurrence position and displays the map data when an item for moving to the event occurrence position is selected by the user from among the third menu items; and displays a video of the CCTV related to the event occurrence position in a fifth area when an item for casting a net over the event occurrence position is selected by the user from among the third menu items. By providing event occurrence information by using a CCTV video on the basis of map data, related organizations can easily check a relevant CCTV video and take measures in real time.
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Description

Map data-based CCTV video monitoring device and method

[0001] The present invention relates to a map data-based CCTV video monitoring device and a method thereof.

[0002] In modern society, effectively monitoring and managing urban areas and major transportation hubs using CCTV is emerging as a critical challenge. This is an issue directly linked to public safety, the smooth flow of traffic, and rapid response in emergency situations.

[0003] Meanwhile, the Smart City Integrated Platform is a core technology for managing various urban situations and operating Smart City Integrated Operations Centers. It was developed through government R&D to link and utilize information systems such as crime prevention, disaster prevention, and transportation, and is being distributed to local governments.

[0004] Therefore, various efforts are needed to link and utilize CCTV control systems within the smart city integrated platform.

[0005] In order to solve the aforementioned problems, the present invention aims to provide event occurrence information based on map data using CCTV footage.

[0006] The above objective can be achieved by a device comprising a map data-based CCTV video monitoring device, wherein the device includes a memory and a processor, wherein the processor is connected to a smart city integrated platform; receives map data containing CCTV information of a monitoring target area from the smart city integrated platform and displays it in a first area of ​​a display, displays a first menu item related to a video provision service of the CCTV in a second area, displays a second menu item for operating the map displayed in the first area in a third area, and when an item related to monitoring event occurrence among the first menu items is selected by the user, displays a corresponding sub-menu item, displays a third menu item related to an event occurrence list and event information in a fourth area, when an item for moving to an event occurrence location among the third menu items is selected by the user, moves the map data displayed in the first area to the selected event occurrence location and displays it, and when an item for viewing the event occurrence location among the third menu items is selected by the user, displays the CCTV video related to the event occurrence location in a fifth area.

[0007] And, when the user selects a CCTV search item among the second menu items, the processor displays a fourth menu item regarding search conditions and a list of CCTVs according to the search conditions in the fourth area, and when the user selects to move to one of the CCTV lists displayed in the fourth area, the map data displayed in the first area can be moved to the map data of the location of the selected CCTV and displayed.

[0008] Additionally, when the user selects any one of the items among the fourth menu items for designating a search area as a circle, square, or polygon based on a specific point, the processor may set and display a search area as a circle, square, or polygon centered on the currently selected location in the map data of the first area in response to the user's input, and display a list of CCTVs belonging to the search area in the fourth area.

[0009] Furthermore, the processor displays a fifth menu item regarding the CCTV when the CCTV icon is selected from the map data displayed in the first area by the user, and when the item regarding CCTV screen control among the fifth menu items is selected by the user, it displays a control UI for controlling the direction of the CCTV up, down, left, and right and zooming in and out, and can control the direction and zoom in and out of the CCTV according to a command input by the user through the control UI.

[0010] In addition, when "selective monitoring" is selected among the submenu items by the user, the processor may display an item for setting the selected monitoring target CCTV and an image of the selected monitoring target CCTV.

[0011] In addition, when patrol monitoring is selected among the submenu items by the user, the processor can set a patrol monitoring route in the map data displayed in the first area according to the user's input, and sequentially play and display the video of the corresponding CCTV along the patrol monitoring route.

[0012] In addition, the first menu item above includes an item regarding the application and management of video export of a CCTV, and the processor can display an input item regarding the video export application when a CCTV subject to video export is selected by the user.

[0013] Meanwhile, the above objective can be achieved by a CCTV video monitoring method based on map data, comprising: a step of accessing a smart city integrated platform; a step of receiving map data containing CCTV information of a monitoring target area from the smart city integrated platform and displaying it in a first area of ​​a display, a step of displaying a first menu item related to a CCTV video provision service in a second area, and a step of displaying a second menu item for operating the map displayed in the first area in a third area; a step of displaying a corresponding sub-menu item and displaying a third menu item related to an event occurrence list and event information in a fourth area when an item related to event occurrence monitoring is selected by the user among the first menu items; a step of moving the map data displayed in the first area to the selected event occurrence location when an item for moving to the event occurrence location is selected by the user among the third menu items; and a step of displaying the CCTV video related to the event corresponding to the selection in a fifth area when an item related to event occurrence CCTV information is selected by the user among the third menu items.

[0014] As described above, the map data-based CCTV video monitoring device and method according to the present invention provide event occurrence information based on CCTV video map data, thereby enabling relevant agencies to easily check and take action on related CCTV video in real time.

[0015] FIG. 1 schematically illustrates a map data-based CCTV video monitoring system according to one embodiment of the present invention.

[0016] FIG. 2 is a flowchart regarding a CCTV search function in a map data-based CCTV video monitoring method according to a first embodiment of the present invention, which is performed by the system of FIG. 1.

[0017] FIG. 3a illustrates an example of a web page provided by a smart city platform (200) according to an embodiment of the present invention.

[0018] FIG. 3b illustrates an example of a first menu item according to an embodiment of the present invention, and FIG. 3c illustrates an example of a second menu item.

[0019] FIG. 4 illustrates an example of performing a task by selecting an item for CCTV search among the second menu items according to an embodiment of the present invention.

[0020] FIG. 5 is a flowchart regarding an event monitoring function in a map data-based CCTV video monitoring method according to a first embodiment of the present invention, which is performed by the system of FIG. 1.

[0021] FIG. 6 illustrates an example of a screen in which 'Event Monitoring' and its sub-menu item 'Monitoring' are selected and operated according to an embodiment of the present invention.

[0022] FIG. 7 illustrates an example of a screen in which 'casting net' is selected from the third menu item according to an embodiment of the present invention.

[0023] FIG. 8 illustrates an example of a screen for explaining the function of controlling a CCTV among the 'monitoring' items according to an embodiment of the present invention.

[0024] FIG. 9 is a flowchart for explaining the selective monitoring and patrol monitoring functions in a map data-based CCTV video monitoring method according to the first embodiment of the present invention, which is performed by the system of FIG. 1.

[0025] FIG. 10 is an example of a screen for explaining a selective monitoring function according to an embodiment of the present invention.

[0026] FIG. 11 is an example of a screen for explaining a patrol monitoring function according to an embodiment of the present invention.

[0027] Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

[0028] Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, detailed descriptions of known functions or configurations that may obscure the essence of the present invention in the following description and the accompanying drawings are omitted. Additionally, it should be noted that identical components throughout the drawings are indicated by the same reference numerals whenever possible.

[0029] The terms and words used in the specification and claims described below should not be interpreted as being limited to their ordinary or dictionary meanings, but should be interpreted in a meaning and concept consistent with the technical spirit of the invention, based on the principle that the inventor can appropriately define the concept of the terms to best describe his invention. Accordingly, the embodiments described in this specification and the configurations illustrated in the drawings are merely the most preferred embodiments of the invention and do not represent all of the technical spirit of the invention; therefore, it should be understood that various equivalents and modifications that can replace them may exist at the time of filing this application.

[0030] FIG. 1 schematically illustrates a map data-based CCTV video monitoring system according to an embodiment of the present invention. Referring to FIG. 1, the map data-based CCTV video monitoring system includes a local government CCTV system (100), a smart city platform (200), and a related organization (300).

[0031] The local government CCTV system (100) includes CCTVs (111) installed in the local government and a control server (110) for controlling and managing the CCTVs (111). The local government CCTV system (100) includes a Video Management System (VMS) for managing the video of the CCTVs (111), and the control server (110) requests and receives the CCTV video through the VMS.

[0032] In FIG. 1, only one local government CCTV system (100) is shown for convenience of explanation, but a map data-based monitoring system according to one embodiment of the present invention has a structure in which multiple local government CCTV systems (100) are connected to a smart city platform (200) through a network.

[0033] The smart city platform (200) is intended to integrate and manage information systems such as crime prevention, disaster prevention, and traffic, and provides services by linking with other information systems in addition to the local government CCTV system (100) shown in FIG. 1. Below, it will be explained that the smart city platform (200) provides CCTV video information services to related organizations (300) through linkage with the local government CCTV system (100).

[0034] The relevant agencies (300) include the Fire Department, the Disaster Situation Room, the National Police Agency, and the Ministry of Justice, and each relevant agency (300) can access the Smart City Platform (200) through a user terminal (310) to view desired services, such as CCTV footage. The user terminal (310) is a computing device including a processor and memory that can access the Smart City Platform (200) online to apply for and receive CCTV video monitoring services according to the present invention, and may include a PC, a smartphone, and a tablet PC.

[0035] The smart city platform (200) and the local government CCTV system (100) include a CCTV information synchronization API (Application Programming Interface) for synchronizing CCTV information, an RTSP (Real Time Streaming Protocol) video distribution API for providing web-based CCTV video playback services to related organizations (300), a PTZ (Pan Tilt Zoom) camera control API, and a preset control API for providing net surveillance services.

[0036] FIG. 2 is a flowchart regarding a CCTV search function in a map data-based CCTV video monitoring method according to a first embodiment of the present invention, which is performed by the system of FIG. 1.

[0037] Referring to FIG. 2, each local government CCTV system (100) builds CCTV information into a DB and periodically synchronizes it with the smart city platform (200) (S10).

[0038] In the relevant institution (300), the user terminal (310) accesses the smart city platform (200) and logs in (S12), and the smart city platform (200) processes the login based on the input information (S13) and provides a user web page (S14).

[0039] The user terminal (310) displays a web page provided by the smart city platform (200) on the display (S15).

[0040] FIG. 3a illustrates an example of a web page provided by a smart city platform (200) according to an embodiment of the present invention. Referring to FIG. 3, a web page for a CCTV video monitoring service displays map data (600) in a first area, displays a first menu item (400) related to the CCTV video provision service in a second area, and displays a second menu item (500) for manipulating the map data displayed in the first area in a third area.

[0041] FIG. 3b illustrates an example of a first menu item according to an embodiment of the present invention, and FIG. 3c illustrates an example of a second menu item.

[0042] Referring to FIG. 3b, the first menu item is a menu item related to the video provision service of the CCTV, and includes items related to 'event monitoring' (401), 'video export request' (402), 'video export management' (403), 'equipment management' (404), 'big data analysis' (405), 'statistical inquiry' (406), 'history inquiry' (407), 'space editing' (408), 'layer management' (409), 'layer authority' (410), 'business management system' (411), 'business management system management' (412), and 'system management' (413). The 'event monitoring' (401) item is a submenu item and includes items related to 'monitoring' (420), 'event list' (421), 'SMS transmission' (422), 'selective monitoring' (423), and 'patrol monitoring' (424).

[0043] Referring to FIG. 3c, the second menu item is a menu item for manipulating map data displayed in the first area, and includes a first icon (501) for turning the legend on / off, a second icon (502) for searching for registered layer objects, a third icon (503) for searching for CCTV, a fourth icon (504) for moving to a set center coordinate, a fifth icon (505) for initializing information displayed on the map, a sixth icon (506) for moving the map by dragging the mouse, a seventh icon (507) for moving to the previously moved coordinate or scale, an eighth icon (508) for moving to the next moved coordinate or scale, a ninth icon (509) for measuring distance, a tenth icon (510) for measuring area, an eleventh icon (511) for a sketching function, a twelfth icon (512) for saving the map, a thirteenth icon (513) for creating a work log, a fourteenth icon (514) for map synchronization, and a fifteenth icon (515) for web search.

[0044] The user can perform the desired task by selecting either the first menu item or the second menu item displayed on the screen.

[0045] FIG. 4 illustrates an example of performing an operation by selecting an item for CCTV search among the second menu items according to an embodiment of the present invention. Referring to FIG. 4, when a user selects a third icon (503) for CCTV search among the second menu items (S20), the smart city platform (200) generates a UI for CCTV search and provides it to the user terminal (310) (S21), and the user terminal (310) displays a fourth menu item (600) representing CCTV search conditions and a list of CCTVs according to the search conditions in the fourth area (S22).

[0046] The fourth menu item (600) includes a first UI item (610) for entering CCTV search conditions, a second UI item (620) for specifying a search area, and a third UI item (630) for displaying a list of CCTVs based on search results. The first UI item (610) includes an item for entering an administrative district, a legal district, a classification based on the purpose of CCTV installation, and a CCTV name as search conditions.

[0047] The second UI item (630) is for specifying a search area and provides a UI that can be set to one of a circle (radius), a square, and a polygon.

[0048] In the case of a 'radius' search, the user can select the center point of the circle with a left mouse click, then move the mouse to enlarge or reduce the circle, and by moving the mouse to determine the size of the circle and left-clicking the mouse, the user can search for CCTVs (111) located within the area.

[0049] For 'rectangle' searches, users can zoom in or out of the rectangle by dragging the mouse after grabbing a corner with a left click. Once the user determines the size of the rectangle by moving the mouse and left-clicks, they can search for CCTVs located within that area.

[0050] For 'polygon' search, the user selects each point with a left mouse click to draw an area of ​​the desired shape, and if the user double-clicks the left mouse button at the last point, the last vertex and the first vertex are automatically connected, allowing the user to search for CCTVs located within that area.

[0051] When a user terminal (310) requests a search by entering search conditions and a search area, etc. through the fourth menu item (S23), the smart city platform (200) extracts a list of CCTVs matching the search conditions and provides it to the user terminal (310) (S24). The user terminal (310) displays the received list of CCTVs in the third menu item (S25).

[0052] The third UI item regarding the list of CCTVs displayed as search results includes a 'location' item, and when a user selects any of the 'location' items in the list of CCTVs (S26), the smart city platform (200) extracts map data to the location of the selected CCTV (111) and provides it to the user terminal (310) (S27), and the user terminal (310) updates and displays the map data displayed in the first area to the location of the selected CCTV (111) (S28). Referring to FIG. 4, when the user clicks the 'location' button in the list of CCTVs displayed in the list, the map data displayed in the first area moves to the location of the corresponding CCTV (111) and is displayed, and the corresponding CCTV (111) is indicated inside a red shape so that its location can be easily identified.

[0053] Additionally, the fourth menu item (600) includes an 'Export to Excel' item (631) for the search results, and the user can download the search results to Excel by clicking the 'Export to Excel' item.

[0054] FIG. 5 is a flowchart regarding an event monitoring function in a map data-based CCTV video monitoring method according to a first embodiment of the present invention performed by the system of FIG. 1, and FIG. 6 illustrates an example of a screen in which 'event monitoring' (401) among the first menu items and 'monitoring' (420), which is a sub-menu item thereof, are selected and operated according to an embodiment of the present invention.

[0055] Referring to FIGS. 5 and 6, when a user selects 'Event Monitoring' (401) from the second menu item and selects 'Monitoring' (420) from the sub-menu item (S30), the smart city platform (200) extracts a list of event occurrences and related information for the monitoring target area and provides them to the user terminal (310) (S31). The user terminal (310) displays the received event-related third menu item (700) in the fourth area (S32).

[0056] Here, events include various incidents such as crimes, disasters, or traffic accidents, and the event occurrence list (710) displayed on the third menu screen (700) includes information regarding the type, status, administrative district, address, and date of occurrence of the event, an item (711) for checking the location, and an item (712) for checking the net image.

[0057] In FIG. 5, when a user selects one of the event occurrence lists (710), detailed information (720) regarding the event is displayed. Additionally, items (730) for receiving new events and processing events are displayed at the bottom, so that the user can select these items (730) to receive new events or process received events.

[0058] Meanwhile, in FIG. 5, when the user selects the 'Location' (711) item to move to the event occurrence location among the third menu items (700) (S33), the smart city platform extracts map data corresponding to the location and provides it to the user terminal (310) (S34). The user terminal (310) updates and displays the map data displayed in the first area as the event occurrence location selected by the user (S35).

[0059] FIG. 7 illustrates an example of a screen for performing operations by selecting 'casting net' (711) from the third menu item (700) according to an embodiment of the present invention. When the 'casting net' (711) button regarding a specific event is selected from the event occurrence list among the third menu items on the user terminal (310) (S36), the smart city platform (200) extracts the CCTV related to the event occurrence location corresponding to the selection and requests the images of the corresponding CCTV from the local government control server (110) (S37), and the control server (110) provides the corresponding CCTV images to the smart city platform (200) (S38). The smart city platform (200) provides the received casting net images to the user terminal (310) (S39), and the user terminal (310) displays the casting net images (740) related to the event in the fifth area (S40).

[0060] Referring to FIG. 7, when a 'net' button is selected for any one of the event occurrence lists (710), the related CCTV videos are displayed as grid videos (740). If the user selects any of the net videos, the corresponding CCTV video is displayed at that location. At this time, the net videos are real-time videos, and when a report is received, CCTV videos of netting the location where the report was received are extracted and displayed on the screen, thereby allowing monitoring of the accident scene and the progress of the incident processing.

[0061] FIG. 8 illustrates an example of a screen for explaining the function of controlling a CCTV (111) among the 'monitoring' (420) items according to an embodiment of the present invention. When a user on a user terminal (310) clicks on a CCTV icon (750) that the user wants to check in the map data displayed in the first area, the user terminal (310) displays menu items (751) such as 'View CCTV Information', 'View Cluster Object Information', 'Control Standalone Monitoring', and 'Start Grid Monitoring', as shown in FIG. 8.

[0062] When the user selects the 'Standalone Monitoring Control' (751A) item from the menu items (751), the user terminal (310) plays the video (760) of the corresponding CCTV and displays menu items such as 'Real-time Video Sharing' and 'Start Camera Control' (761) in the playback window. When the user selects the 'Start Camera Control' (761) item from the menu items, the user terminal (310) provides a control UI (770) that can control the camera. The control UI (770) for PTZ camera control includes up, down, left, right, and diagonal movement buttons, as well as zoom-in (+) and zoom-out (-) buttons. The user can check the incident scene while controlling the camera's movement direction and zooming in / out using the control UI (770), such as the up, down, left, and right buttons and the zoom-in / zoom-out buttons.

[0063] FIG. 9 is a flowchart for explaining selective monitoring and patrol monitoring functions in a map data-based CCTV video monitoring method according to a first embodiment of the present invention performed by the system of FIG. 1, and FIG. 10 is an example of a screen for explaining a selective monitoring function according to an embodiment of the present invention.

[0064] Referring to FIG. 9, when the 'selective monitoring' (423) item is selected from the submenu items of 'event monitoring' (401) on the user terminal (310) (S50), the smart city platform (200) provides a menu screen for setting the selective monitoring function to the user terminal (310) (S51).

[0065] Referring to FIG. 10, the menu screen (800) for setting 'selective monitoring' is displayed in the fourth area and is a menu that allows you to select only the desired CCTV (111) and view the corresponding videos.

[0066] When a user terminal (310) wishes to set a new target for selective monitoring, the user clicks the desired CCTV icon in the map data displayed in the first area and selects the 'Start Grid Monitoring' item (811) from the corresponding menu items (810) displayed. When the 'Start Grid Monitoring' item (811) is selected, the smart city platform (200) requests the relevant CCTV video from the local government's control server (110) (S53), and the control server (110) provides the relevant CCTV video (S54). The smart city platform (200) provides the received CCTV video to the user terminal (310) (S55), and the user terminal (310) displays the relevant grid-set CCTV playback video on the right (S56). At this time, the user can select the desired CCTV to add to the grid monitoring. After the grid is set, if the 'Add New' item (830) is selected from the menu items (810) for selective monitoring settings, the corresponding CCTVs are set for selective monitoring. The CCTV screens set for 'selective monitoring' can be played, modified, deleted, etc.

[0067] Referring to FIG. 9, when the 'patrol monitoring' (424) item is selected from the submenu items of 'event monitoring' (401) on the user terminal (310) (S60), the smart city platform (200) creates a menu screen for setting the patrol monitoring function and provides it to the user terminal (310) (S61).

[0068] The user terminal (310) displays a menu screen for setting the patrol monitoring function on the screen (S62) and can set the route to be patrol monitored (S63).

[0069] FIG. 11 is an example of a screen for explaining a patrol monitoring function according to an embodiment of the present invention. Referring to FIG. 11, a menu screen (900) for setting 'patrol monitoring' is displayed in the fourth area and is a menu that allows setting a desired patrol route and sequentially playing and viewing CCTVs along the route.

[0070] The menu screen (900) for setting 'patrol surveillance' allows you to input a route name, movement interval, search radius, and the number of displayed CCTVs, select the 'draw route' item (910), and draw a desired route from the map data displayed in the first area. For example, you can specify route points by clicking a mouse on the user terminal (310) and save the route by double-clicking the last point.

[0071] When a route is set, the smart city platform (200) requests the corresponding CCTV video from the local government control server (110) (S64), and the control server (110) provides the CCTV video corresponding to the request (S65). The smart city platform (200) provides the CCTV video according to the set patrol monitoring route to the user terminal (310) (S66), and the user terminal (310) displays the patrol monitoring video (920) on the screen. The user terminal (310) sequentially plays the CCTVs located within the radius of each route.

[0072] Meanwhile, the menu items related to the video provision service of the CCTV according to one embodiment of the present invention include, in addition to the aforementioned 'event monitoring' (401), 'video export request' (402) and 'video export management' (403).

[0073] It allows a relevant agency (300) to apply for the export of necessary CCTV footage from the smart city platform (200) and enables an authorized administrator to manage the application for export of footage. It is very convenient for the relevant agency (300) to apply for the export of necessary CCTV footage through the smart city platform (200) and to verify it.

[0074] The present invention may also be implemented on various computer-readable recording media, such as magnetic storage media, optical reading media, and digital storage media, in which a computer program for performing the method according to the present invention is stored when executed on a computer. Furthermore, the descriptions expressed as steps in the claims are not limited to the order of steps.

[0075] Although several embodiments of the present invention have been described so far, those skilled in the art will understand that it is possible to modify or substitute parts of the embodiments without departing from the technical spirit of the present invention. Therefore, the scope of protection of the present invention should be considered to extend to the invention described in the claims and its equivalents.

Claims

1. In a map data-based CCTV video monitoring device, Includes memory and processor, The above processor is, Access the Smart City Integrated Platform; Map data containing CCTV information of a monitoring target area is received from the smart city integrated platform and displayed in a first area of ​​the display, a first menu item related to the video provision service of the CCTV is displayed in a second area, and a second menu item for operating the map displayed in the first area is displayed in a third area. When an item regarding event occurrence monitoring among the first menu items is selected by the user, a corresponding submenu item is displayed, and a third menu item regarding an event occurrence list and event information is displayed in the fourth area. When an item for moving to an event occurrence location is selected from the third menu item by the user, the map data displayed in the first area is moved to the selected event occurrence location and displayed. A device characterized by displaying a CCTV image related to the event occurrence location in a fifth area when an item for viewing the event occurrence location is selected from the third menu item by the user.

2. In Paragraph 1, The above processor is, When the CCTV search item among the second menu items is selected by the user, a fourth menu item regarding search conditions and a list of CCTVs according to the search conditions is displayed in the fourth area, and A device characterized by moving the map data displayed in the first area to the map data of the selected CCTV location when the user selects to move to one of the CCTV lists displayed in the fourth area.

3. In Paragraph 2, The above processor is, A device characterized by, when any one of the items for designating a search area as a circle, square, or polygon based on a specific point is selected from the fourth menu item by the user, setting and displaying a search area as a circle, square, or polygon based on the currently selected location in the map data of the first area in response to the user's input, and displaying a list of CCTVs belonging to the search area in the fourth area.

4. In Paragraph 1, The above processor is, When the CCTV icon is selected from the map data displayed in the first area by the above user, a fifth menu item regarding the CCTV is displayed, and When the item regarding CCTV screen control among the above 5 menu items is selected by the above user, a control UI for controlling the direction of the CCTV up, down, left, and right and zooming in and out is displayed, and A device characterized by controlling the direction and zoom in / out of the CCTV according to commands input by the user through the control UI.

5. In Paragraph 1, The above processor is, A device characterized by displaying an item for setting a CCTV subject to selective monitoring and an image of the CCTV subject to selective monitoring when "selective monitoring" is selected among the submenu items by the user.

6. In Paragraph 1, The above processor is, A device characterized by, when patrol monitoring is selected among the sub-menu items by the user, setting a patrol monitoring route in map data displayed in the first area according to the user's input, and sequentially playing and displaying images of corresponding CCTVs according to the patrol monitoring route.

7. In Paragraph 1, The above first menu item includes an item regarding the application and management of CCTV video export, and The above processor is a device characterized by displaying input items regarding a video export request when a CCTV subject to video export is selected by the user.

8. In a map data-based CCTV video monitoring method, Steps to access the smart city integrated platform; A step of receiving map data containing CCTV information of a monitoring target area from the smart city integrated platform and displaying it in a first area of ​​a display, displaying a first menu item related to the video provision service of the CCTV in a second area, and displaying a second menu item for operating the map displayed in the first area in a third area; When an item regarding event occurrence monitoring among the first menu items is selected by the user, a step of displaying a corresponding submenu item and displaying a third menu item regarding an event occurrence list and event information in a fourth area; When an item for moving to an event occurrence location is selected from the third menu item by the user, the step of moving the map data displayed in the first area to the selected event occurrence location and displaying the map data; and A CCTV video monitoring method characterized by including the step of displaying a CCTV video related to an event corresponding to an event in a fifth area when an item regarding event occurrence CCTV information is selected from the third menu item by the user.