KR101279341B1 - Apparatus for setting improved sequential monitoring in surveillance system and monitoring apparatus using the set improved sequential monitoring - Google Patents

Abstract

The present invention relates to a device having an improved sequential monitoring setting function in a control system and a monitoring device using sequential monitoring set through the device. The graphic surveillance setting apparatus of the control system includes an object arrangement unit for arranging icons for surveillance objects selected by a user among a plurality of surveillance objects on a screen, and an object connection unit for displaying a connection state of the surveillance objects by a link between the icons. The monitoring group setting unit which stores the monitored objects arranged by the graphic user interface unit and the object arranging unit as a monitoring group, and the monitoring sequence for setting the connection order of the monitoring objects connected by the object connection unit as the monitoring order of the monitoring group. It may include a monitoring setting unit including a setting unit.

Description

Improved sequential monitoring setting device of control system and monitoring device using the set sequential monitoring

The present invention relates to a control system having an improved sequential monitoring setting function, and more particularly, to a monitoring setting device having an improved sequential monitoring setting function and a monitoring device using a sequential monitoring set through the device.

In video surveillance systems, camera sequential monitoring is one of the ways to make the most efficient use of limited monitoring resources. However, in order to set up camera sequential monitoring in a general control system, the user has to check each camera's information one by one and input the monitoring sequence monitoring duration one by one. In addition, the user must know each camera position and the identifier of the corresponding camera. Normally, camera sequential monitoring can be set up, which required a lot of manpower and time.

In particular, it is difficult to input the monitoring duration of each camera for each camera in order to set up the sequential monitoring of a large-scale video control system, and it is often applied to all the surveillance cameras in the same batch. In addition, even after the camera sequential monitoring setting is completed, the user has to check the camera identifier of the current surveillance image and determine the position or property of the camera through this, which is not intuitive and imposes a lot of load on the user. Korean Unexamined Patent Publication No. 10-2011-0030203 discloses a method of displaying an image through a map on a control server and controlling the map.

In order to provide an intuitive and efficient monitoring setting interface, the user can provide a monitoring setting device of the control system through which the monitoring order and monitoring duration for each monitoring object are efficiently set and managed.

According to an aspect, the graphic monitor setting apparatus of the control system displays an object disposition unit for arranging icons for surveillance objects selected by a user among a plurality of surveillance objects on a screen, and displays the connection state of the surveillance objects through a link between the icons. The monitoring group setting unit which stores the monitoring objects arranged by the graphic user interface unit and the object arrangement unit including the object connection unit, and the connection order of the monitoring objects connected by the object connection unit in the monitoring order of the monitoring group. And a monitoring setting section including a monitoring sequence setting section to be set.

According to a further aspect, the graphical user interface unit may further include a map loading unit for loading a map of the surveillance area, wherein the object disposition unit may display icons selected by the user at the position of the surveillance object on the map loaded by the map loading unit. Can be placed.

According to an additional aspect, the object connection unit may receive input information of the length of the connection link between the icon, the monitoring setting unit is a time interval setting unit for setting the monitoring duration of the time object of each link according to the length of the connection link between the icons It may further include.

According to an additional aspect, the monitoring order setting unit or the time interval setting unit may store the set monitoring order or the monitoring duration of the set monitoring objects as the monitoring setting information.

According to an additional aspect, the apparatus may further include an information transmitter configured to transmit the stored monitoring setting information to the monitoring apparatus according to a request of the monitoring apparatus.

According to an additional aspect, the graphic user interface unit may further include a path storage unit that stores graphic information regarding the arrangement and connection state of the icons as unit path information.

According to an additional aspect, the apparatus may further include an information transmission unit configured to transmit unit path information stored by the path storage unit to the monitoring device at the request of the monitoring device.

According to one aspect, the monitoring device of the control system is a path loading unit for loading the unit path information displayed graphically by connecting the icons for the monitoring objects to the link, the path screen for displaying the loaded unit path information on the path screen graphically And a control processor for receiving surveillance information from the surveillance objects displayed on the display unit and the route screen, and displaying the surveillance information on the surveillance screen.

 According to an additional aspect, the path loading unit may further load the monitoring setting information corresponding to the loaded unit route information, and the control processor may monitor the monitoring objects based on the monitoring sequence of the monitoring setting information and the monitoring duration information of the monitoring objects. Information is sequentially received and displayed on the monitoring screen, and the monitoring screen may be displayed for the monitoring duration of each monitoring object.

In this case, the route screen display unit may load a map of the surveillance area and display the loaded unit route information at an object position on the map.

It provides an intuitive and efficient monitoring configuration interface that allows users to easily and efficiently set and manage the monitoring sequence and monitoring duration for each monitoring object.

1 is a block diagram of a control system having an improved sequential monitoring setting function according to one embodiment.
2 is a block diagram of a monitoring setting apparatus of a control system having an improved sequential monitoring setting function according to an embodiment.
3 is an example of sequential monitoring setting in the monitoring setting device according to an embodiment.
4 is an example of a user interface of the apparatus for monitoring setting according to an embodiment.
5 is a block diagram of a monitoring device of a control system with an improved sequential monitoring setting function according to an embodiment.
6 is an example of a user interface of a monitoring apparatus according to an embodiment.
7 is a flowchart of a monitoring setting method in a control system having an improved sequential monitoring setting function according to an embodiment.
8 is a flowchart of a monitoring method in a control system having an improved sequential monitoring setting function according to an embodiment.

The details of other embodiments are included in the detailed description and drawings. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, an apparatus for setting an improved sequential monitoring of a control system and a monitoring device using the set sequential monitoring will be described in detail with reference to the drawings.

1 is a block diagram of a control system having an improved sequential monitoring setting function according to one embodiment. As shown in FIG. 1, the control system having the improved sequential monitoring setting function includes an IP camera, a DVR, a video encode, an alarm (eg, a warning light, a siren), an event sensor (eg, a door open sensor, a motion detection), and the like. It includes a configuration server for controlling the surveillance objects, streaming server and various surveillance settings of the storage and storage of various configured surveillance information. In addition, by using the monitoring setting information set in the monitoring setting device 100 and the monitoring setting device 100 for setting the monitoring group, the monitoring sequence and the monitoring interval of the monitoring time of each monitoring object collected from each monitoring object. It may include a plurality of surveillance apparatus 200 for monitoring the surveillance region through the surveillance information, such as surveillance image.

The surveillance object, in particular the IP camera, photographs its own surveillance section and transmits the photographed surveillance image to the surveillance apparatus 200. When the monitoring object adjusts the size of the screen to be displayed by the user in the monitoring apparatus 200, the monitoring apparatus 200 requests an image having the corresponding video to the streaming control unit of the streaming server, and the streaming server corresponds to the corresponding monitoring object from the corresponding monitoring object. You can request streaming of a video with a resolution. The monitoring object may change the image input from the camera module to the requested resolution using an internal scaler and then buffer and transmit the image to the streaming server. The streaming transmission unit of the monitoring object may include a plurality of scalers and transmission buffers supporting a plurality of resolutions, and may simultaneously service a plurality of monitoring apparatuses 200.

A plurality of streaming threads or streaming processes may be executed in the streaming server. When the monitoring apparatus 200 requests streaming of a new camera, the streaming server executes a new streaming thread or process. Each streaming thread or process may receive a format of an image to be streamed from the surveillance apparatus 200 through the streaming controller, transmit the format to the surveillance object, and request the streaming of the image having the corresponding format. When the streaming processor receives the streaming of the video, the streaming processor may transmit the request to the monitoring apparatus 200. In addition, when the monitoring device 200 requests to change the reception format such as the resolution and the number of frames during streaming, the monitoring device 200 may transmit the received streaming data to the monitoring object through the streaming controller to receive the changed streaming and transmit the same to the monitoring device 200. When the monitoring apparatus 200 requests to stop streaming, the corresponding streaming thread or process may terminate after requesting the monitoring object to stop.

The setting server may store and manage the monitoring related setting information when the administrator allocates a monitoring area corresponding to the work division of each monitoring device 200 and sets various monitoring related settings. At this time, the administrator may assign a surveillance task to the monitoring personnel by setting a surveillance region and arranging at least one or more surveillance objects in the surveillance region and setting a surveillance group through the surveillance setting apparatus 100. The apparatus 100 for setting up surveillance may provide a user interface that allows an administrator to set up a surveillance group and easily set a surveillance order and a surveillance interval between the surveillance objects in the group. The control agent assigned the surveillance area monitors the surveillance area through the monitoring device 200, and easily sets the screen size, resolution of the surveillance video, color information, and the like through the user interface provided by the monitoring device 200. You can also edit a watch group. On the other hand, the control personnel may edit such setting information according to the authority granted to them, and at this time, the editing authority may be differentially granted according to the status of each controller, and only the editing that corresponds to the authority granted may be possible. You can do that.

2 is a block diagram of a monitoring setting apparatus of a control system having an improved sequential monitoring setting function according to an embodiment. As illustrated in FIG. 2, the monitoring setting apparatus 100 may include a graphic user interface 110 and a monitoring setting unit 120.

The graphic user interface unit 110 provides a user interface for the administrator to set the monitoring information for the surveillance area, and may include an object arrangement unit 112 and an object connection unit 113. The object arrangement unit 112 may arrange icons for the surveillance objects selected by the user among the plurality of surveillance objects on the setting screen. That is, the object arranging unit 112 may display the screen on the screen in response to the administrator placing the icons of the monitored objects at the monitoring point through the user interface. The object connection unit 113 may display the connection state between the icons on the screen as a link in response to the administrator connecting the links between the arranged icons.

The monitoring setting unit 120 may include a monitoring group setting unit 121 and a monitoring order setting unit 122. The watch group setting unit 121 stores the watch objects arranged by the object arranging unit 112 as a watch group. The monitoring group setting unit 121 may set and store the monitoring objects connected to each other as a group by an administrator arranging and connecting the monitoring objects through a user interface. Surveillance objects arranged on one setting screen may be set as one or a plurality of surveillance groups according to a state connected by an administrator. The monitoring order setting unit 122 may set the connection order of the monitoring objects connected by the object connection unit 113 as the monitoring order of the monitoring group and store it as the monitoring setting information.

According to an additional aspect, the monitoring setting unit 120 may further include a time interval setting unit 123. The object connection unit 113 may receive the length information of the connection link between the monitored objects, that is, icons for the monitored objects. The object connection unit 113 may automatically calculate the length of the link connected by the administrator by connecting icons to each other through a user interface. In addition, the object connection unit 113 directly receives the length of the connection link of each monitoring object from the administrator. According to the length of the input link, each monitoring object can be connected and displayed. The deceleration interval setting unit 123 may set the monitoring duration of the viewpoint object of each link according to the length of the connection link between the monitoring objects received or calculated by the object connection unit 113 and store it as monitoring setting information. Meanwhile, the time interval setting unit 123 may directly receive the monitoring duration of each watched object through a user interface from an administrator to set the monitoring duration of each watched object or modify the preset monitoring duration.

According to a further aspect, the monitoring setting unit 120 may further include a monitoring setting information DB (124). The monitoring group setting unit 121, the monitoring sequence setting unit 122, and the deceleration interval setting unit 123 monitor the monitoring group information, the monitoring sequence information, and the monitoring interval information, which is the monitoring duration of each monitoring object, respectively. The setting information DB 124 may be stored. Meanwhile, according to another exemplary embodiment, the monitoring group setting unit 121, the monitoring sequence setting unit 122, and the time interval setting unit 123 may monitor the monitoring group information, the monitoring sequence information, and each monitoring object set by each of them. The monitoring interval information, which is the duration, can be stored in the configuration DB of the configuration server.

3 is an example of sequential monitoring setting in the monitoring setting device according to an embodiment. As illustrated in FIG. 3, the graphic user interface 110 may provide a schematic camera arrangement and a WYSIWYG camera sequential monitoring setup user interface. 3 illustrates the surveillance objects of # 1 to # 10 and the alarms of * 1 and * 2 arranged by the administrator and the connection state of the surveillance objects as surveillance objects. In the example of FIG. 3, the administrator may include the first watch group (# 1, # 2, # 3, # 4, * 1, # 5) and the second watch group (* 2, # 6, # 7, # 3, # 4). , # 8, # 9, # 10). At this time, # 3 and # 4 are watched objects monitored in both watched groups.

The administrator can conveniently set the monitoring group and the monitoring sequence of the monitoring area by sequentially placing and connecting the monitoring objects on the setting screen through the user interface. The user interface may be connected to each other by sequentially clicking the icons to be connected, or may be connected to links of various lengths in a straight line or a curve by a mouse drag operation. In addition, the administrator may allow the object connection unit 113 to automatically connect icons to each other by inputting information of monitoring objects to be individually connected.

The object connection unit 113 may receive connection link length information of icons for monitoring objects, that is, monitoring objects. At this time, the length information of the connection link input is information for determining the monitoring duration of the time object of each link, and the monitoring duration, that is, the monitoring interval of each monitoring object may be set automatically according to the length information of the link. have. On the other hand, the object connection unit 113 may automatically calculate the monitoring duration of the connection link length information of the monitored objects through the length of the link connected by the user's icon connection operation. For example, the monitoring duration of # 1 of FIG. 3 may be automatically calculated and set through the length of the connection link between # 1 and # 2. Similarly, the monitoring duration of # 2 can be calculated and set automatically through the length of the connecting link between # 2 and # 3. Therefore, the administrator can set the monitoring duration of each monitoring object differently by arbitrarily setting the length of the connection link. The object connection unit 113 may directly receive the value directly from the user and display a connection relationship therethrough.

4 is an example of a user interface of the apparatus for monitoring setting according to an embodiment. The graphic user interface unit 110 according to the present embodiment may further include a map loading unit 111. The map loading unit 111 may load a map of the surveillance area and include the map in the user interface and provide the map to the administrator. When an administrator places icons at a watched object location on a map of a specific watched area included in the user interface as shown in FIG. 4, the object disposition unit 112 displays an icon of watched objects on the map in response. I can display it. In addition, the object connection unit 113 may display the connection state of the surveillance objects displayed on the map.

According to an additional aspect, the graphic user interface unit 110 may further include a graphic processing unit (not shown). The graphic processor (not shown) may display the color, size, etc. of each icon or link on the setting screen in response to the administrator setting the color of the icon, the size of the icon, and the color of the link through the user interface. In this case, the user interface may provide a property edit window when a right mouse is clicked on each icon or link. Alternatively, the user interface may change the color in a predetermined order by left-clicking or double-clicking each icon or link.

In addition, the monitoring setting unit 120 may further include a graphic attribute setting unit (not shown). The graphic property setting unit (not shown) stores the graphic property information of the monitoring objects and each link in the monitoring setting information DB 124 or the setting server of the setting server when the administrator sets the graphic properties of the monitoring object through the user interface. Can be.

The graphic user interface unit may further include a path storage unit 114. The path storage unit 114 may store graphic information regarding the arrangement and connection status of the surveillance objects, that is, icons arranged on the setting screen, as unit path information. The unit path information may be stored for each surveillance group or surveillance region. The path storage unit 114 may store the unit path information in the monitoring setting information DB 124 or the setting DB of the setting server.

According to an additional aspect, the monitoring setting device 100 may further include an information transmitting unit 130. The information transmitting unit 130 may query the monitoring setting information or the unit path information stored in the monitoring setting information DB 124 according to a request of the monitoring apparatus and transmit the inquiry setting information to the requested monitoring apparatus.

5 is a block diagram of a monitoring device of a control system with an improved sequential monitoring setting function according to an embodiment. As illustrated in FIG. 5, the monitoring apparatus 200 may include a path loading unit 210, a path screen display unit 220, and a control processor 230.

The path loading unit 210 loads unit path information displayed graphically by connecting icons for monitoring objects by a link. The path loading unit 210 may request and receive the unit path information stored and set through the monitoring setting apparatus 100, or may request and receive the setting server from the setting server and load the unit path information. . The path screen display unit 220 displays the unit path information loaded by the path loading unit 210 on the path screen graphically. According to an additional aspect, the route screen display unit 220 may load a map of the surveillance area and display the map on the route screen, and display the loaded unit route information at an object location on the map. The control processor 230 may receive surveillance information such as a surveillance image from the surveillance objects displayed on the route screen by the route screen display unit 230 and display the received surveillance information on the surveillance screen.

According to an additional aspect, the path loading unit 210 may receive and load the monitoring setting information corresponding to the loaded unit path information. As described above, the monitoring setting information may be received from the monitoring setting apparatus 100 or the setting server. The control processor 230 displays the monitoring information sequentially on the monitoring screen according to the monitoring sequence of the loaded monitoring setting information, and displays the monitoring information for the monitoring duration of each monitoring object according to the monitoring duration information of each monitoring object. Can be.

6 is an example of a user interface of a monitoring apparatus according to an embodiment. As shown in (a) of FIG. 6, the route screen may include a surveillance region selection window having a tree structure and a window displaying map and unit route information of one surveillance region selected from the surveillance region window. When the control agent clicks on the area to be monitored in the tree structure monitoring area selection window on the left side of FIG. 6 (a), the path loading unit 210 loads a map of the monitoring area and displays the loaded map on the loaded map. The unit path information of the monitoring area can be displayed. The control processor 230 monitors the surveillance video received from the monitoring object sequentially activated in response to the control agent dragging the path sequence with the mouse as shown in FIG. 6 (b) as shown in FIG. Can be displayed on the screen. Meanwhile, as shown in FIG. 6D, when the control agent clicks a specific surveillance object, the control processor 230 may display an image received from the surveillance object in a preview form at a predetermined position of the map. However, the UI manipulation operation is just one example, and the user interface provided according to the present embodiment may variously set and change an operation such as a mouse or a keyboard.

7 is a flowchart of a monitoring setting method in a control system having an improved sequential monitoring setting function according to an embodiment. Referring to FIG. 7, the monitoring user setting method, first, the graphic user interface 110 displays the icons arranged on the setting screen in response to an operation in which the administrator arranges the icons of the monitoring objects on the setting screen through the user interface. (Step 310). More specifically, the graphical user interface unit 110 may load a map of the surveillance area and include the map in the user interface to provide the administrator. As shown in FIG. 4, when an administrator places icons at a location of a watched object on a map of a specific watched area included in the user interface, the manager may display icons of watched objects on the map in response to the operation.

Next, the graphic user interface unit 110 may display the connection state of the icons on the setting screen in response to an operation in which the administrator connects the arranged icons by a link (step 320). The administrator can conveniently set the monitoring group and the monitoring sequence of the monitoring area by sequentially placing and connecting the monitoring objects on the setting screen through the user interface. The user interface may be connected to each other by sequentially clicking the icons to be connected, or may be connected by a mouse drag operation. In addition, managers can connect to each other by inputting information of supervised objects to be connected individually.

The graphic user interface unit 110 may receive connection link length information of icons for the monitored objects, that is, the monitored objects. In this case, the input length information of the connection link may be used as information for setting the monitoring interval of the monitoring objects. Meanwhile, the graphic user interface unit 110 may calculate the length information of the link through a link between the connected icons by the administrator connecting the icons. In addition, the user may directly input the value individually, and the connection relationship may be displayed through the input value.

The graphic user interface 110 may display the color, size, etc. of each icon or link on the setting screen in response to the administrator setting the color of the icon, the size of the icon, the color of the connection link, etc. through the user interface. . In this case, the user interface may provide a property edit window when a right mouse is clicked on each icon or link. Alternatively, the user interface may change the color in a predetermined order by left-clicking or double-clicking each icon or link.

Next, the monitor setting unit 120 may set the arranged watch objects as a watch group (step 340), and set the connection order of the watch objects to the watch group of the watch group (step 350). The monitor setting unit 120 may store the arranged watch objects as a watch group. The monitoring setting unit 120 may set and store the monitoring objects connected to each other as a group by an administrator arranging and connecting the monitoring objects through a user interface. Therefore, the surveillance objects arranged on one setting screen may be set to one or more surveillance groups according to the state connected by the administrator. In addition, the connection order of the connected monitoring objects may be set as the monitoring order of the monitoring group and stored as the monitoring setting information.

In addition, the monitoring setting unit 120 may set a monitoring interval, which is a monitoring duration of the viewpoint object of each link, according to the connection link length between the monitoring objects (step 360). The monitor setting unit 120 displays the connection information of the watch object by the graphic user interface 110 (step 320) according to the length of the connection link between the watch objects received or calculated. You can set the monitoring duration and save it as monitoring setup information. Meanwhile, the monitoring setting unit 120 may directly receive the monitoring duration of each monitoring object through a user interface from an administrator to set the monitoring duration of each monitoring object or modify the preset monitoring duration.

On the other hand, the step of storing the monitoring group information, the monitoring sequence information set by the monitoring setting unit 120, the monitoring interval information which is the monitoring duration of each monitoring object as the monitoring setting information to the monitoring setting information DB 124 Can be. Meanwhile, according to another exemplary embodiment, the monitoring setting unit 120 may store the set monitoring setting information in the setting DB of the setting server.

Meanwhile, the information transmitting unit 130 may transmit the monitoring setting information including the monitoring order or the time interval information to the monitoring apparatus according to the request of the monitoring apparatus 200 (step 370).

8 is a flowchart of a monitoring method in a control system having an improved sequential monitoring setting function according to an embodiment. First, the path loading unit 210 loads unit path information displayed graphically by connecting icons for monitoring objects with a link (step 410). The path loading unit 210 may request and receive the unit path information stored and set through the monitoring setting apparatus 100, or may request and receive the setting server from the setting server and load the unit path information. . The path loading unit 210 may receive and load the monitoring setting information corresponding to the loaded unit path information.

Next, the path screen display unit 220 may display the unit path information loaded by the path loading unit 210 on the path screen graphically (step 420). The route screen display unit 220 may load a map of the surveillance area and display the map on the route screen, and display the loaded unit route information at an object position on the map.

Finally, the controller 230 receives surveillance information such as a surveillance image from the surveillance objects displayed on the route screen by the route screen display unit 230 and displays the received surveillance information on the surveillance screen (step 430). As described above, the monitoring setting information may be received from the monitoring setting apparatus 100 or the setting server. The control processor 230 displays the monitoring information sequentially on the monitoring screen according to the monitoring sequence of the loaded monitoring setting information, and displays the monitoring information for the monitoring duration of each monitoring object according to the monitoring duration information of each monitoring object. Can be.

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 therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

100: monitor setting device 110: graphic user interface unit
111: map loading unit 112: object arrangement unit
113: object connection 114: path storage unit
120: monitor setting unit 121: watch group setting unit
122: monitoring sequence setting unit 123: deceleration interval setting unit
124: monitoring setting information DB 130: information transmission unit
200: monitoring device 210: path loading unit
220: route screen display unit 230: control processing unit

Claims (10)

An object arranging unit for arranging icons for surveillance objects selected by a user from among a plurality of surveillance objects, and inputting length information of a connection link between the icons, and displaying the connection status of the surveillance objects through a link between the icons. A graphic user interface unit including an object connection unit; And
A watch group setting unit for storing watch objects arranged by the object arranging unit as a watch group, a watch order setting unit and the icon for setting a connection order of watch objects connected by the object connection unit as a watch order of the watch group; And a monitoring setting unit including a monitoring interval setting unit configured to set a monitoring duration of a viewpoint object of each link based on the length information of the connection link between them. The method of claim 1, wherein the graphical user interface unit,
And a map loading unit for loading a map of the surveillance region.
The object arrangement unit,
And an icon selected by a user at a location of a monitored object on a map loaded by the map loading unit. delete The method of claim 1, wherein the monitoring order setting unit or the time interval setting unit,
And a monitoring duration of the set monitoring sequence or the set monitoring objects as monitoring setting information. 5. The method of claim 4,
And an information transmission unit for transmitting the monitoring setting information to the monitoring device according to a request of the monitoring device. The method of claim 1, wherein the graphical user interface unit,
And a path storage unit for storing graphic information regarding the arrangement and connection status of the icons as unit path information. The method according to claim 6,
And an information transmission unit for transmitting the unit path information stored by the path storage unit to the monitoring device according to a request of the monitoring device. A path loading unit configured to load unit path information graphically displayed on the monitor objects by link and load monitoring setting information corresponding to the unit path information;
A route screen display unit displaying the loaded unit route information on a route screen graphically; And
Receive surveillance information from the surveillance objects displayed on the route screen and display the received surveillance information on the surveillance screen, wherein each surveillance object is set based on the length information of the connection link of the icons for the surveillance objects among the surveillance setup information. And a control processor configured to display a monitoring screen for the monitoring duration of each monitoring object based on the monitoring duration information of the monitoring objects. The method of claim 8, wherein the control processing unit,
The monitoring apparatus of the control system, characterized in that receiving the monitoring information collected through the monitoring objects in sequence based on the monitoring sequence information in the monitoring setting information to display on the monitoring screen. The display apparatus of claim 8, wherein the route screen display unit comprises:
And a map of the surveillance area, and displaying the loaded unit path information at an object location on the map.

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