JP3656923B2 - Crime prevention reporting device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a crime prevention notification device used for a crime prevention security system.
[0002]
[Prior art]
A signal indicating that the heat ray sensor has detected an intruder when the surveillance camera and the heat ray sensor are placed in a pair in a security location such as a building or a general house and is in an alert state (hereinafter this signal is issued) When a heat ray sensor issues a notification to the center unit via a public telephone line (hereinafter simply referred to as a telephone line) Security security systems that transmit images are known.
[0003]
A schematic configuration example is shown in FIG. In the figure, 1 is a security notification device, 2 is a surveillance camera, 3 is a heat ray sensor, 4 is a center device, 5 is a data processing device, and 6 is a monitor.
[0004]
A security reporting device 1 is installed at a security location, and a surveillance camera 2 and a heat ray sensor 3 are connected to the security reporting device 1. The monitoring camera 2 and the heat ray sensor 3 are paired. Usually, the visual field of the monitoring camera 2 is set to cover the entire visual field of the heat ray sensor 3.
[0005]
FIG. 6 shows only one pair of the surveillance camera 2 and the heat ray sensor 3, but this is for avoiding the complexity of the figure. The monitoring camera 2 and the heat ray sensor 3 can be connected. The same applies to this point.
[0006]
On the other hand, a center device 4 is arranged in the security company. The center device 4 includes a data processing device 5 and a monitor 6.
[0007]
Now, in the crime prevention reporting device 1, a warning state and a release state are set. The alert state is a state where alert is performed, and the release state is a state where alert is not performed. In other words, since the heat ray sensor 3 is always operating, it is also reported when there is a movement of a person in the daytime. However, since it is inappropriate to have an intruder, this time zone In this case, the crime prevention reporting device 1 ignores even if the hot wire sensor 3 reports. This is the release state.
[0008]
On the other hand, since it can be determined that there is an intruder when the heat ray sensor 3 is triggered during a time zone in which no human movement is allowed, for example, at night, the crime prevention reporting device 1 is in the center. The device 4 is notified that an abnormality has occurred. This is an alert state.
[0009]
The crime prevention reporting device 1 can be set to a warning state and a release state at an arbitrary time zone.
[0010]
In the configuration shown in FIG. 6, when the security reporting device 1 is in a warning state, when the security reporting device 1 receives a notification signal from the heat ray sensor 3, it captures an image at the time of the notification from the surveillance camera 2, The data is transmitted to the center device 4 via the line 7. Since the transmitted image is received by the data processing device 5 and displayed on the monitor 6, the monitor of the monitor 6 can know the state of the site when the heat ray sensor 3 reports.
[0011]
Then, when the transmission of the image at the time of reporting by the heat ray sensor 3 is completed, the crime prevention reporting device 1 transmits the current image, that is, the image captured from the monitoring camera 2 when the transmission of the image at the time of reporting is completed. .
[0012]
[Problems to be solved by the invention]
As described above, the crime prevention reporting device 1 automatically dials the telephone number of the data processing device 5 of the center device 4 as soon as the hot-wire sensor 3 reports when it is in the alert state. It usually takes about 10 seconds to 30 seconds until the transmission of the first image, that is, the image when the heat ray sensor 3 is triggered, is started after the data processing device 5 captures the line. It takes. That is, from when the security notification device 1 starts dialing to when image transmission is possible, the data processing device 5 goes off-hook and captures the line, and then the security notification as in the case of facsimile communication. Negotiation operation is required for the device 1 and the data processing device 5 to recognize each other, and thus the above-described time is required.
[0013]
In addition, it is necessary to transmit an image that allows the intruder to be clearly recognized on the monitor 6 of the center device 4, and for that purpose, it takes about 10 to 20 seconds to transmit one image. End up.
[0014]
Therefore, it takes about 50 seconds at the maximum from the time when the heat sensor 3 reports the second image, that is, the next image transmitted after the heat sensor 3 is activated. It may take some time, but no image is transmitted between the first and second images, so even if there are intruders in the first image, they are not in the second image. In the meantime, there was a problem that it might not be understood what movement the intruder made during that time.
[0015]
The present invention solves the above-described problem, and provides a crime prevention reporting device that can know on the center device 4 side how the intruder has moved since the time when the heat ray sensor 3 issued. It is for the purpose.
[0016]
[Means for Solving the Problems]
In order to achieve the above object, the crime prevention reporting device of the present invention, when a signal indicating that a heat ray sensor has detected an intruder is output, an image captured by a monitoring camera corresponding to the heat ray sensor is connected to a public telephone line. In the crime prevention notification device transmitted to the center device via the surveillance camera, at least during the period from when the heat ray sensor outputs a signal indicating that an intruder has been detected until the line connection is made with the center device. When the processing for obtaining the mark position indicating the position of the intruder in the image based on the image is repeated at a predetermined cycle, and then the image can be transmitted to the center device, the image captured by the monitoring camera , The obtained mark position information is transmitted.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments will be described with reference to the drawings. The overall configuration of the security system using the security notification device according to the present invention is the same as that shown in FIG. 6, but the configuration of the security notification device 1 is as shown in FIG. In FIG. 1, 10 is a control device, 11 is an image memory, 12 is a background memory, 13 is a work memory, and 14 is a modem. In addition, the same code | symbol is attached | subjected about the component equivalent to what is shown in FIG.
[0018]
The control device 10 manages and manages the operation of the crime prevention notification device 1. In particular, the security notification device 1 performs an operation specific to the present invention described later.
[0019]
The image memory 11 is for storing an image from the surveillance camera 2 and has a capacity capable of storing an image of two frames or more.
[0020]
The background memory 12 stores a normal image in the field of view of the monitoring camera 2 in the alert state. Therefore, the shape of the object detected by the heat ray sensor 3 can be obtained by taking the difference between the image when the heat ray sensor 3 reports and the image stored in the background memory 12. In order to store the background image in the background memory 12, it is only necessary to install the monitoring camera 2, and then to capture only one frame from the monitoring camera 2 and write it into the background memory 12 during the warning time zone.
[0021]
The work memory 13 is provided for the control device 10 to perform processing to be described later.
[0022]
Now, even if the control device 10 receives the notification signal from the heat ray sensor 3 in the release state, the control device 10 dials the telephone number of the center device 4 when receiving the notification signal from the heat ray sensor 3 in the alert state, When the image signal from the monitoring camera 2 is taken in and the vertical synchronizing signal of the first odd field is detected after receiving the notification signal, the image signal for one frame is written in the first area of the image memory 11 from there.
[0023]
Next, the control device 10 takes the difference between the image at the time of reporting written in the first area of the image memory 11 and the background image written in the background memory 12, and further binarizes the difference image. To write in a predetermined area of the work memory 13. This binarization process is performed in order to extract only a significant difference by removing low-level noise included in the difference image.
[0024]
Then, the control device 10 determines a mark position in the difference image, and stores the coordinate value in the difference image of the mark position in a predetermined memory such as a predetermined area of the work memory 13 or an internal memory of the control device 10.
[0025]
Here, the mark position can be arbitrarily determined. For example, if the region having a significant difference in the difference image 20 is 21 as shown in FIG. 2A, the top of the region 21 as shown by the point P in the figure, and The position of the leftmost pixel may be the mark position, or as indicated by a point Q in FIG. 2B, the circumscribed rectangle 22 of the area 21 may be obtained, and the center of the circumscribed rectangle 22 may be the mark position. . Furthermore, it is natural that other positions can be determined as mark positions.
[0026]
When the process for obtaining the first mark position is completed as described above, the control device 10 takes in the image signal from the monitoring camera 2 and performs vertical synchronization of the first odd field after the process for obtaining the first mark position. When a signal is detected, an image signal for one frame is written in the second area of the image memory 11 to obtain a difference between the image and the background image written in the background memory 12, and the difference image is further converted into 2 The process of digitizing and writing in a predetermined area of the work memory 13 to obtain the mark position and storing the coordinate value in the difference image at the mark position in the predetermined memory is repeated.
[0027]
The process for obtaining the coordinate value of the mark position is a period from when the heat ray sensor 3 is issued until the transmission of the first image after the heat ray sensor 3 is issued, that is, the first image taken from the monitoring camera 2 can be started. Alternatively, it may be performed during a period from when the heat ray sensor 3 reports to the end of transmission of the first image.
[0028]
First, the operation in the former case will be described.
The control device 10 performs the process of obtaining the mark position until the transmission of the first image can be started as described above. When the transmission of the first image becomes possible, the coordinate value in the difference image of the obtained mark position. Are sent to the telephone line 7 via the modem 14 in the order obtained. When transmitting the coordinate value of the mark position, as shown in FIG. 3, for example, an ID assigned to the preamble, information indicating that this report is an abnormal report, and the mark position to be transmitted are included in the preamble portion, for example. Data related to the number of items is added.
[0029]
Since the data relating to the mark position has a small amount of data, it can be transmitted in a short time. When the transmission of the data is completed, the control device 10 continues to display the first image written in the first area of the image memory 11. It is read out and sent to the telephone line 7 via the modem 14. When the transmission of the first image is completed, the control device 10 takes in the image signal from the surveillance camera 2 and detects the vertical synchronization signal of the first odd field after the transmission of the first image is completed. Then, the image signal for one frame is written in the first area or the second area of the image memory 11. When the writing is completed, the image signal is read out and sent to the telephone line 7 through the modem 14.
[0030]
Next, in the latter case, that is, when the process for obtaining the coordinate value of the mark position is performed during the period from when the heat ray sensor 3 reports to the end of the transmission of the first image, the operation is as follows.
[0031]
In this case, when the image transmission becomes possible, the control device 10 first transmits the first image, and when the transmission ends, the coordinate values in the difference image of the determined mark positions are arranged in the determined order and the modem 14 is set. Via the telephone line 7. When the transmission of the data related to the mark position is completed, the control device 10 takes in the image signal from the monitoring camera 2 and detects the vertical synchronization signal of the first odd field after the transmission of the data related to the mark position is completed. From there, the image signal for one frame is written in the first area or the second area of the image memory 11, and when the writing is completed, it is read out and sent to the telephone line 7 via the modem 14.
[0032]
The operation of the crime prevention reporting device 1 has been described above. Next, the data processing device 5 of the center device 4 will be described.
[0033]
4 is a diagram showing a configuration example of the data processing device 5 that receives a report from the crime prevention reporting device 1 shown in FIG. 1, in which 30 is a control device, 31 is an input device, 32 is an image memory, and 33 is A mark position memory 34 indicates a modem. In addition, the same code | symbol is attached | subjected about the component equivalent to what is shown in FIG.
[0034]
The input device 31 includes a keyboard or the like. The image memory 32 is for storing received images, and preferably has a capacity for storing images of two or more frames. The mark position 33 only needs to have a capacity for storing an image for one frame.
[0035]
As described above, the data related to the mark position from the crime prevention reporting device 1 may be sent before the first image, or may be sent after the first image. When 30 receives the data from the security reporting device 1, the first image data is written in the image memory 32, and the data relating to the mark position is written in a predetermined memory, for example, a predetermined area of the internal memory.
[0036]
Then, the coordinate values of all the mark positions are recognized from the received data regarding the mark positions, and a predetermined graphic is written at the same coordinate position in the mark position memory 33. FIG. 5 is a diagram showing an example. In FIG. 5A, “·” is written at the position of the coordinate value of the received mark position. Note that, as shown in FIG. 5A, it may be possible that the order of movement may not be obvious simply by writing a figure at the position of the coordinate value of the mark position. In this case, FIG. ), The mark positions may be connected by lines. It will be apparent to those skilled in the art that such processing can be easily performed.
[0037]
In this way, it is only necessary to allow the input device 31 to select whether to write only the mark position or to write the mark position by connecting the lines in order.
[0038]
When the display of the mark position is not instructed from the input device 31, the control device 30 reads the first image from the image memory 32 and supplies it to the monitor 6. As a result, only the image when the heat ray sensor 3 issues a notification is displayed on the monitor 6.
[0039]
In addition, when the display of the mark position is instructed from the input device 31, the control device 30 first image written in the image memory 32 and the image of the mark position written in the mark position memory 33. Are read in synchronism, combined and supplied to the monitor 6. As a result, the monitor 6 displays an image in which the mark position is superimposed on the image when the heat ray sensor 3 issues a report. You can know how the detected intruder has moved.
[0040]
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various deformation | transformation is possible. For example, in the above description, the mark position is obtained based on the difference between the image captured from the monitoring camera 2 and the background image stored in the background memory 12, but the inter-frame difference between the images captured from the monitoring camera 2 is calculated. In this case, the background memory 12 is unnecessary.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of a crime prevention reporting device according to the present invention.
FIG. 2 is a diagram for explaining how to determine a mark position.
FIG. 3 is a diagram illustrating an example of a data structure related to a mark position.
4 is a diagram showing a configuration example of a center device that receives a report from the crime prevention reporting device shown in FIG. 1. FIG.
5 is a diagram showing an example of mark positions written in the mark position memory 33 of FIG. 4; FIG.
FIG. 6 is a diagram showing a conventional configuration example of a security system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Security notification device, 2 ... Surveillance camera, 3 ... Heat ray sensor, 4 ... Center device, 5 ... Data processing device, 6 ... Monitor, 10 ... Control device, 11 ... Image memory, 12 ... Background memory, 13 ... Work memory , 14 ... modem, 30 ... control device, 31 ... input device, 32 ... image memory, 33 ... mark position memory, 34 ... modem.

Claims (1)

In the crime prevention reporting device that transmits an image captured by the monitoring camera corresponding to the heat ray sensor to the center device via the public telephone line when the heat ray sensor outputs a signal indicating that an intruder has been detected,
The position of the intruder in the image based on the image captured by the surveillance camera during the period from when the heat ray sensor outputs a signal indicating that the intruder has been detected to when the line connection is made with at least the center device. When the processing for obtaining the mark position indicating is repeated at a predetermined cycle and then transmission of the image to the center device becomes possible, the image captured by the monitoring camera and the information of the obtained mark position are transmitted. Crime prevention reporting device.

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