KR0167155B1 - Camera Image Control Method of Security / Disaster Prevention System - Google Patents

Abstract

The present invention relates to the control of the camera image according to the alarm signal in the crime prevention / disaster prevention system, and the security / disaster prevention system that is generally used is only one method in which the image of the camera is displayed on a limited monitor according to the occurrence and disappearance of the alarm If this applies, changes in the operating environment (differences between the places where it is intended to operate), changes in the operating time zones (because it may be necessary to differ between the usual and emergency operating methods, as well as day and night operation methods). As a result, it is operated by a simple type conversion due to the difficulty of a consistent form or physical change of hardware, resulting in flexibility and unnecessary system operation. Accordingly, the present invention allows the user to determine a flexible alarm control method according to the installation environment of the crime prevention / disaster prevention system according to the menu for other existing systems that must maintain a fixed operating mode even in the change of installation environment An object of the present invention is to provide a camera image control method of a security / disaster prevention system having flexibility.

Description

Camera Image Control Method of Security / Disaster Prevention System

1 is a block diagram of a general security / disaster prevention system.

2 is a diagram illustrating a display of a camera image according to generation / destruction of an alarm.

Figure 3 is a flow chart of the camera image control method of the security / disaster prevention system of the present invention.

4 is a flowchart of alarm image redistribution in the second control mode of FIG.

* Explanation of symbols for main parts of the drawings

1: Video receiving unit 2: Printer

3, 4: BC 5: Central processing unit

6: keyboard 7: monitor

8: alarm sensor

The present invention relates to the control of the camera image according to the alarm signal in the crime prevention / disaster prevention system, and in particular, to make the alarm control method flexible to the user according to the installation environment of the security / disaster prevention system according to the menu A camera image control method of a disaster prevention system.

One of the security / disaster prevention systems, the CCTV system, monitors and controls the video of a surveillance camera installed in a specific area through a monitor installed by an administrator.

In addition, an alarm sensor (hereinafter referred to as an alarm sensor) is installed in the area where the camera is installed, and the administrator can take appropriate action by showing the camera image of the alarm occurrence area on a specific monitor according to the occurrence / destruction of this sensor.

The present invention provides three such methods of displaying a camera image, so that the camera can be selectively operated according to the number of cameras, the number of monitors, operating environment change, and user's preference.

1 is a block diagram of a security / disaster prevention system that is generally used, an image receiving unit 1 for receiving an image signal of cameras CA1 to CA32, converting the image signal into a corresponding electric signal, and outputting the same, and the image receiving unit 1 A central processing unit (5) for receiving a signal received from the received signal and processing it according to a specified program to control the device connected to the surroundings, an alarm sensor unit (8) installed in the monitoring area to detect when an error occurs, and the central processing unit ( A monitor unit 7 which is controlled under the control of 5) and displays the image signal received by the image receiving unit 1 to an administrator, and prints or records the image signal and various information under the control of the central processing unit 5; It consists of the printer 2 and the BC3,4.

The operation of the general crime prevention and disaster prevention system configured as described above is as follows.

First of all, the conventional technology related to the control of the response to the alarm signal is operated in one mode, and the function of automatically displaying the camera image on the monitor or bypassing the alarm when the alarm is generated / disappeared, It will perform the function of recording to the seed.

That is, in FIG. 2, when an alarm sounds by the alarm sensors A1 to A32, it is first determined whether to bypass the alarm. If not, the camera connected to the alarm is checked (2-b). The image is displayed on the monitor 2-c connected to the camera.

However, in the above process, the alarm sensors A1 to A32, the cameras CA1 to CA32, and the monitors M1 to M8 are full matrix, that is, each alarm sensor A1 to A32 is connected to all cameras. When the cameras CA1 to CA32 are connected to all the monitors M1 to M8, and the cameras CA1 to CA32 do not have a full matrix structure, the images are determined by the specific alarm sensors A1 to A8. And monitors M1 to M8, which are distinct from displaying arbitrary cameras CA1 to CA32 on arbitrary monitors M1 to M8, and utilizing cameras CA1 to CA32 and monitors M1 to M8. Will fall.

Therefore, when only one method of displaying the camera's image on a limited monitor is applied according to the occurrence and disappearance of the alarm, the change of the operating environment (difference between places to be operated), the change of the operating time (the usual operating method and emergency The operation method may need to be different, and the operation method of day and night may be different). This is brought about.

Accordingly, the present invention allows the user to determine a flexible alarm control method according to the installation environment of the crime prevention / disaster prevention system according to the menu for other existing systems that must maintain a fixed operating mode even in the change of installation environment An object of the present invention is to provide a camera image control method of a security / disaster prevention system having flexibility.

The present invention requires that the alarm sensors A1 to A32, cameras CA1 to CA32, and monitors M1 to M8 form a full matrix as shown in FIG. The central processing unit 5 constitutes a logical full matrix structure.

Actually, the alarm sensor unit 8 and the monitor unit 8 of FIG. 1 are connected in parallel, and the cameras CA1 to CA32 are connected in series so that they do not form a physical full matrix, but are respectively connected to the central processing unit 5. By assigning variables for the concatenation of, we can operate on a logical full matrix structure.

Variables related to the connection state of the alarm sensors A1 to A32 and the cameras CA1 to CA32 have connection information of the second part (2-b), and the cameras CA1 to CA32 and the monitors M1 to M8. The variable related to the connection state has connection information of FIG. 2 (2-c).

Therefore, the alarm sensors A1 to A32 from the outside can be connected to any camera CA1 to CA32 in a full matrix manner, and again all cameras CA1 to CA32 are connected to up to eight monitors M1 to M8. It becomes possible.

The operation of the crime prevention and disaster prevention system according to the present invention and its effect will be described in detail with reference to the control flowchart of FIG.

First, in FIG. 2, when the alarms A1 to A32 do not take any action on the bypass, that is, on the occurrence / destruction of the alarms A1 to A32, all the cameras CA1 connected to the specific alarms A1 to A32. The image of CA32 is displayed on the monitors M1 to M8 according to the respective control modes to be described later.

That is, the first control mode is a basic alarm control mode as shown in step 20 of FIG. 3, and the cameras CA1 to CA32 that monitor all eight monitors M1 to M8 or the alarm sensors A1 to A32. Are displayed on all monitors M1 to M8 connected to the cameras CA1 to CA32, and when the plurality of cameras CA1 to CA32 images are displayed, the images are alternately displayed every three seconds.

When the alarm is released, the monitors M1 to M8 can be individually designated for the display of the alarm image. However, once an alarm occurs, the monitors M1 to M8 can be designated but the release is common. Release to use), and when the alarm is canceled, the displayed camera image is automatically deleted from the monitors M1 to M8.

In the second control mode, eight monitors (M1 to M8) can be designated according to the user's request, but the alarm image is displayed on only one monitor. In case of continuous alarm, the new alarm image is transferred to the next connected monitor and displayed. .

When more than the number of alarms of the connected monitors M1 to M8 occurs, the respective monitors M1 to M8 alternately display for 3 seconds as necessary.

The redistribution function is also performed to adjust the imbalance of the number of images of the cameras CA1 to CA32 in the monitors M1 to M8 according to the release of the specific alarm.

The flowchart of Fig. 3 is executed in this mode as follows.

First, after reading the information of the generated alarm sensors A1 to A32 and not bypassing, the cameras CA1 to CA32 connected to the sensors A1 to A32 are checked.

At this time, if the cameras CA1 to CA32 are present, the control mode is determined, and if the second control mode is used, all the monitors M1 to M8 connected to the cameras CA1 to CA32 adopted by the sensors A1 to A32 are identified. In the case of a camera image of the alarm sensors A1 to A32, it is displayed on the monitors M1 to M8 having the smallest number of camera images among the connected monitors M1 to M8, and the extinguished alarm sensors A1 to A32. In the case of the images of the cameras CA1 to CA32, the images of the cameras CA1 to CA32 for the current alarm sensors A1 to A32 are deleted from the corresponding monitors M1 to M8, and the alarm monitors M1 to M8 are designated. The number of images of the cameras CA1 to CA32 of the monitors M1 to M8 is properly redistributed each time.

This redistribution is maintained such that there is no image aberration between the monitors M1 to M8 or 1 as shown in FIG.

On the other hand, in the third control mode, two monitors are used for the display of all one alarm image (display alternately for 3 seconds in the case of multiple alarms), and the other for the exclusive display of a specific alarm image among those alarm images.

That is, when the third control mode is set after reading the information of the alarm sensors A1 to A32 and checking the bypass, checking the camera, and checking the control mode, the following process is performed according to the occurrence / destruction of the alarm sensors A1 to A32. Follow.

In the case of the camera CA1 to CA32 image of the generated alarm sensors A1 to A32, the camera CA1 to CA32 image is displayed on the monitor M1, and the camera CA1 to CA32 image is generated by the first alarm. If it is, it is displayed on the monitor M2. If it is not the first alarm, the input state of the acknowledgment key on the keyboard 6 of FIG. 1 is checked, and if there is a key input, the camera currently being displayed on the monitor M1. The image is also displayed on the monitor M2, and the image currently being displayed on the monitor M2 no longer displays.

However, if there is no key input, go to the next step and check whether the images of all the cameras CA1 to CA32 adopted are displayed, and the images of all the cameras CA1 to CA32 adopted by all the generated alarm sensors A1 to A32. If you have processed, the execution ends.

In the case of the camera CA1 to CA32 images of the extinguished alarm sensors A1 to A32, the camera CA1 to CA32 images are deleted from the monitor M1 and then the monitor M2 is displayed on the monitor M2. If it is confirmed, the image is deleted from the monitor M2 and any image currently displayed on the monitor M1 is also displayed on the monitor M2, and then the process proceeds to the next step.

The three alarm control modes are determined and operated by the user selecting a menu displayed on the screens of the specific monitors M1 to M8 by the operation of the keyboard 6 of FIG. 1 and at any time by the menu except when an alarm occurs. If the alarm is generated while the menu is being changed, the menu screen is immediately stopped and the alarm is controlled according to the control method of the three modes.

As described above, the present invention is different from the existing system in that the user can select the control method according to the generation / disappearance of the alarm by a menu method, and the second control mode is selected by the generation of the alarm. Display only one camera image among multiple connected monitors to prevent duplicate display, and in the third control mode, add more restrictions to designate two monitors as alarm display monitors. In case of occurrence, one of the camera images associated with the alarm is used for display and the other one of the camera images of the specific alarm is designated as a monitor for displaying by means of a recognition key to increase the activity efficiency of the monitor.

As described above, the present invention has the effect of providing a flexible alarm control method according to the installation environment of the crime prevention / disaster prevention system.

Claims (1)

After reading the information of the generated alarm sensors A1 to A32, if it is not in the bypass mode, check the cameras CA1 to CA32 connected to the sensor and obtain the alarm control mode. The images of the cameras CA1 to CA32 monitoring the alarm sensors A1 to A32 are displayed on all monitors M1 to M8 connected to the cameras CA1 to CA32. When the alarm is released, the displayed camera images are automatically displayed. Step 20 of deleting from the monitors M1 to M8 and the smallest number of cameras currently present among the monitors M1 to M8 connected to the cameras for the alarm sensors A1 to A32 that are generated when the alarm is in the second control mode. Displayed on the monitors M1 to M8 having the images, the case of the cameras CA1 to CA32 images for the extinguished alarm sensors A1 to A32 is deleted from the monitors M1 to M8, and the alarm monitors M1 to M8. Redistributing the number of images of cameras CA1 to CA32 of M8) each time 30 and the generated cameras CA1 to CA32 images of the alarm sensors A1 to A32 are displayed on the first monitor, and when the cameras CA1 to CA32 images are caused by the first alarm, In the case of the images of the cameras CA1 to CA32 for the extinguished alarm sensors A1 to A32, the image of the cameras CA1 to CA32 is deleted from the monitor M1 and any image being displayed on the first monitor is displayed. And displaying (40) the second monitor (M2).