JP2008027251A - Device for detecting stealthy photographing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To ensure reliability by confirming whether a device normally operates in a device for detecting stealthy photographing to judg the existence/absence of a stealthy photographing action by detecting a video signal from a received radio wave. <P>SOLUTION: This device for detecting stealthy photographing to detect a video signal transmitted from a device stealthy photographing is provided with a receiving part for receiving radio waves, a detecting part for converting the received radio waves and detecting a video signal, an outputting part for outputting video of the video signal detected by the detecting part, and a test video transmitting part for converting a predetermined video signal into a radio wave of a predetermined frequency and transmitting the radio waves when a test signal is input from the outside. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a voyeurism detection device for finding a wireless voyeur camera installed in a CD / ATM corner, a toilet, a changing room, or the like.

  In recent years, voyeurism in CD / ATM corners and toilets has become a social problem. As a method of voyeurism, a method is often used in which a voyeur camera with a built-in radio transmitter is set at the voyeur location, and the voyeur camera's image is received by the radio receiver in the vicinity of the voyeur location. ing. The voyeur camera used in such a technique is downsized to the size of a match box and is difficult to find by visual observation.

Therefore, in order to solve such a problem, a voyeurism detection device described in Patent Document 1 is known. In Patent Document 1, a radio signal transmitted from a voyeur camera is detected, and an image included in the radio signal is displayed on a monitor in a security room. It is described that it is determined whether or not the camera is installed and the installation position of the voyeur camera is determined.
JP 2002-142235 A

Since voyeurism is not performed on a daily basis, it is necessary for the voyeurism detection device to always ensure reliability so that it can be reliably detected whenever voyeurism occurs.
However, the conventional voyeurism detection apparatus described above has a problem that it is difficult to confirm the reliability of the apparatus.

In other words, the voyeurism detection device detects and outputs a radio signal due to voyeurism, and if no radiowave signal is detected, the voyeurism itself has not been performed, It is not possible to determine whether the voyeurism detection device is not operating normally due to equipment failure or the like.
For this reason, in order to confirm whether or not the conventional voyeurism detection device is operating normally, it is necessary to dispatch a maintenance staff to the site each time to check the device, which takes manpower and time. There was a problem.

  Accordingly, an object of the present invention is to provide a voyeurism detection apparatus that can confirm whether or not the voyeurism detection apparatus is operating normally and can ensure reliability.

  In order to achieve the above object, a voyeurism detection device according to the present invention is a voyeurism detection device that detects a video signal transmitted from a voyeur camera, a reception unit that receives radio waves, and a video signal obtained by converting the received radio waves. A detection unit that detects a video signal, an output unit that outputs a video of the video signal detected by the detection unit, and a test video that converts a predetermined video signal into a radio wave of a predetermined frequency when a test signal is input from outside And a transmission unit.

  When receiving a test signal, the voyeurism detection apparatus having such a configuration wirelessly outputs a video signal on radio waves. That is, upon receiving the test signal, the video signal transmission unit is operated as a video transmitter in a pseudo manner. As a result, the radio wave is received by the receiving unit, the video signal is detected by the detecting unit, and a predetermined video is output from the output unit, so it is easy to determine whether the voyeurism detection device is operating normally. It becomes possible to confirm.

  Further, according to the voyeurism detection apparatus according to the present invention, a video image of a camera that captures an image of the inside of the casing or a video image stored in advance is wirelessly transmitted on radio waves having a predetermined frequency.

  Furthermore, in the aspect of the voyeurism detection apparatus according to the present invention, the test signal is input by input from the operation means or signal reception from the monitoring center.

  Moreover, the preferable aspect of this invention determines with apparatus abnormality, when a video signal is not detected in a detection part even if predetermined time passes after a test signal is input. Here, when the voyeurism detection device is operating normally, the video signal is output as a radio wave from the test video transmission unit by the input of the test signal, and the radio wave is received and detected by the reception unit. The video signal is detected by the unit. On the other hand, if the video signal is not detected by the detection unit even after a predetermined time after the test signal is input, there may be some abnormality in the voyeurism detection device. According to this aspect, it is possible to detect an abnormality that has occurred in such a device.

  According to the voyeurism detection apparatus according to the present invention, it is possible to confirm whether or not the voyeurism detection apparatus is operating normally.

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
FIG. 1 is a configuration diagram showing a voyeurism detection system using the voyeurism detection apparatus of the present invention.
The voyeurism detection system is configured by connecting a voyeurism detection apparatus 1 installed in a voyeurism monitoring area 4 and a remote monitoring center 2 via a communication network 3. In the present embodiment, a CD / ATM corner of a financial institution will be described as an example of the sneak shot monitoring area 4. Note that the voyeur surveillance area 4 is not limited to this, and depending on the situation where there is a possibility of voyeurism, a toilet, a changing room, a house, or the like becomes a voyeur surveillance area.

  Here, the voyeur camera 5 used for the voyeur action modulates a carrier wave of a predetermined frequency with a video signal photographed by a CCD element and transmits it as a radio wave signal. As the transmission frequency, one using a frequency in the UHF region, particularly a frequency of 1.2 GHz to 2 GHz is widely known. The voyeur receives the radio signal transmitted from the voyeur camera 5 with the receiver he / she possesses, and decodes the received radio signal to view the voyeur video.

  The voyeurism detection apparatus 1 searches for a video signal from the voyeur camera 5 while sequentially switching frequencies received by the reception antenna. Then, when a video signal is detected from the received radio wave signal, it is determined that there is a possibility that the video is from the voyeur camera 5. Then, a notification signal including the video of the received video signal is transmitted to the monitoring center 2.

  In addition, the voyeurism detection apparatus 1 operates a camera installed in the housing by operating the operation unit or by a control signal received from the monitoring center 2, and wirelessly transmits the captured image as a radio signal with a predetermined frequency. As a result, the radio wave signal based on the image captured inside the housing is received by the receiving antenna, and the image captured inside the housing is transmitted to the monitoring center 2. If a radio wave signal based on an image captured inside the housing cannot be received, the voyeurism detection apparatus 1 determines that the device is abnormal and transmits a notification signal indicating the device abnormality to the monitoring center 2.

  The monitoring center 2 is a facility equipped with a server system operated by a security company, and includes a communication unit 21 that communicates with the voyeurism detection apparatus 1 and a display 22 that displays various types of information. A person is monitoring the voyeur surveillance area 4. In addition, the monitoring center 2 has information on a facility that becomes the voyeur surveillance area 4, information on an administrator of the voyeur surveillance area 4, information on the voyeurism detection device 1 installed in the voyeur surveillance area 4, etc., that is, It has a database that stores and manages the name, address, telephone number, name of the monitoring area manager, manager's address, manager's telephone number, management number of the voyeurism detection device 1, past handling history, etc. Yes.

In the monitoring center 2, information on the voyeur surveillance area 4 to be dealt with based on the notification signal received from the voyeurism detection apparatus 1 and the received video are displayed on the display 22. Then, the monitor looks at the information and video of the displayed voyeur surveillance area 4 and determines whether or not the video is a voyeur video.

  Here, the monitoring person of the monitoring center 2 compares the video received from the voyeurism detection device 1 with the information of the voyeurism monitoring area 4 and confirms whether or not the video is related to the voyeurism monitoring area 4 (that is, a voyeurized video). Do. Specifically, the surveillance staff refers to a view of the voyeur surveillance area 4 that is information on the facility that will be the voyeur surveillance area 4, a view showing the installation status, and a video captured by the CCTV etc. It is determined whether or not the video is related to the voyeur surveillance area 4 by comparing with the video. At this time, if the contents of the TV broadcast in the voyeur surveillance area 4 at the time when the video signal is detected from the radio signal received by the voyeur detection apparatus 1 are referred to, the voyeur detection apparatus 1 detects the TV broadcast wave. There is no misjudgment even if it is a case.

  Then, if it is determined that the video has been voyeurized, the supervisor takes necessary measures such as a confirmation process for the administrator of the voyeur surveillance area 4 and instructions for the guards to deal with the voyeur surveillance area 4. On the other hand, if it is determined that the video is not voyeurized, the terminal of the server system is operated to transmit a stop signal to the voyeurism detection apparatus 1 via the communication unit 21 to stop transmission of the video. In addition, if the video displayed on the display 22 is a video obtained by imaging the inside of the housing, the monitoring person determines that the voyeurism detection apparatus 1 is in a state in which radio waves can be normally received.

<Voyeurism detection device>
Next, the voyeurism detection apparatus 1 will be described with reference to FIG. FIG. 1 is a block diagram illustrating a configuration of the voyeurism detection apparatus 1.
The voyeurism detection apparatus 1 includes an operation unit 18, a wireless transmission camera 10, a receiving antenna 11 that receives radio waves, a detection unit 12, a video processing unit 14, a communication unit 15, and a power supply unit that supplies power to each unit. 16 and a control unit 17 that controls each unit.
The control part 17 is implement | achieved by CPU, memory, etc., and controls each part of the voyeurism detection apparatus 1 according to the various programs memorize | stored in memory. The control unit 17 includes a determination unit 171 and a timer unit 172.

  The operation unit 18 is configured by a switch mechanism, and is operated by the user when the voyeurism detection apparatus 1 is installed. The operation unit 18 outputs a test signal to the control unit 17 by a user operation. The control unit 17 operates the wireless transmission camera 10 when a test signal is input.

  The wireless transmission camera 10 includes a camera 101 and a test video transmission unit 102, and wirelessly transmits a video captured by the camera 101 from the test video transmission unit 102. The wireless transmission camera 10 operates for a predetermined test time T2 (for example, 300 seconds) when a test signal is input to the control unit 17. The camera 101 is fixedly installed in the housing 1A of the voyeurism detection apparatus 1 so that the sign 1B installed in the housing 1A is kept in the field of view. While the camera 101 is operating, the field of view is illuminated by illumination means (not shown). The sign 1B is a plate on which a star-shaped figure is printed black with a white background color. Note that the present invention is not limited to this example, and it is only necessary to print a graphic with a strong edge and high contrast. Then, the camera 101 outputs a video signal obtained by photographing the sign 1B to the test video transmission unit 102 as a test video. The test video transmission unit 102 modulates a carrier wave having a predetermined frequency (for example, 1.3 GHz) into a radio wave signal using a video signal input from the camera 101 and wirelessly transmits it from the transmission antenna 100.

The detection unit 12 includes a tuner 121 and an IF detection unit 122. The detection unit 12 receives an input of radio waves received by the receiving antenna 11, converts the received radio waves, and detects a video signal. The control unit 17 causes the tuner 121 to automatically search for a radio wave signal by sequentially specifying a frequency range of 1.2 GHz to 2 GHz with a predetermined bandwidth (for example, an interval of 5 MHz) and outputting a tuning signal. When the auto search by the tuner 121 is completed up to 2 GHz, the search is started again from 1.2 GHz, and the frequency range of 1.2 GHz to 2 GHz is repeatedly searched. A radio wave received by the receiving antenna 11 is input to the tuner 121. The tuner 121 selects a radio wave having a designated frequency in accordance with a tuning signal from the control unit 17, converts it to an intermediate frequency signal, and outputs it to the IF detection unit 122. When receiving an intermediate frequency signal, IF detector 122 amplifies the intermediate frequency signal, and outputs the detected signal to control unit 17 when a video signal is detected.
The frequency range for automatic search by the tuner 121 is not limited to the above-mentioned 1.2 GHz to 2 GHz, and may be set as appropriate according to the transmission frequency of the voyeur camera to be detected.

In the control unit 17, the determination unit 171 functions as a unit that determines the presence / absence of voyeur radio waves and the abnormality of the device of the voyeurism detection apparatus 1. When the video signal is output from the IF detection unit 122, the determination unit 171 adds 1 to the counter. The counter is means for counting the number of video signal detections in the auto search that is repeatedly executed by the detection unit 12.
When the video signal is first detected (that is, when the counter is changed from “0” to “1”), the determination unit 171 starts measuring the determination time T1 (for example, 180 seconds) by the time measurement unit 172. And if the value of a counter becomes more than predetermined value (for example, 3) within judgment time T1, it will judge with detection of a sneak shot radio wave. On the other hand, when the determination time T1 elapses before the counter reaches a predetermined value, the counter is reset to zero. A specific description of such processing will be described later.

  Then, when the determination unit 171 determines that the voyeur radio wave is detected, the control unit 17 stops the auto search based on the tuning signal that specifies the next frequency for a predetermined time (for example, 10 seconds), and designates the detection unit 12 at present. The radio signal of the specified frequency is continuously received. Then, the control unit 17 outputs the video signal input from the detection unit 12 to the video processing unit 14.

Further, when a test signal is input to the control unit 17, the determination unit 171 resets the counter and starts measuring the test time T2 (for example, 300 seconds) by the time measuring unit 172. When the test time T2 elapses before the counter reaches the predetermined value, it is determined that the device is abnormal.
Further, if the counter reaches the predetermined value before the test time T2 elapses, it is determined that the voyeur radio wave is detected as described above.

  When radio wave signal transmission sources such as the voyeur camera 5 and the test video transmission unit 102 are in the vicinity of the voyeurism detection apparatus 1, the reception intensity of transmission radio waves from these transmission sources is relatively high, and the transmission source A radio wave signal may be detected in a noise manner even in the peripheral band of the transmission frequency from. In this case, the same video signal is detected a plurality of times continuously over a plurality of frequency bands in the search of the detection unit 12. Therefore, when the video signal is detected in the search by the detection unit 12 and the counter is added, the determination unit 171 performs control so that the counter is not added for a predetermined time (for example, 1 second).

The video processing unit 14 includes a compression unit 141 and a video output unit 142.
The compression unit 141 converts the video signal detected by the detection unit and input from the control unit 17 into a digital video at a predetermined sampling density. Then, the digitized video data is compressed by a predetermined codec and output to the video output unit 142.
The video output unit 142 outputs the video data input from the compression unit 141 to the control unit 17. When there is no input from the compression unit 141, a preset blue back video is output to the control unit 17.

The communication unit 15 functions as an output unit of the present invention, and communicates with the monitoring center 2 via the communication network 3.
When receiving a test signal from the monitoring center 2 via the communication unit 15, the control unit 17 operates the wireless transmission camera 10. Further, when the determination unit 171 determines that the voyeur radio wave is detected, the control unit 17 sends a notification signal including the video data input from the video output unit 142 and predetermined notification data from the communication unit 15 to the monitoring center 2. Send to. Further, when the determination unit 171 determines that the device is abnormal, the control unit 17 transmits a notification signal including notification data indicating the device abnormality from the communication unit 15 to the monitoring center 2.

  Further, when receiving a video request signal from the monitoring center 2 via the communication unit 15, the control unit 17 transmits the video data input from the video output unit 142 to the monitoring center 2. That is, when the determination unit 171 determines the detection of the voyeur radio wave, the video detected by the detection unit 12 is transmitted to the monitoring center 2, and when it is not determined as the voyeur radio wave, a blue-back video is transmitted. Is done. This process is performed, for example, when accessing the voyeurism detection apparatus 1 from the monitoring center 2 and checking the operation of the voyeurism detection apparatus 1 after transmitting the test signal.

<Description of operation>
Next, the operation of the above-described voyeurism detection apparatus 1 will be described.
2 and 3 are flowcharts showing the voyeurism determination process by the control unit 17.
When the theft detection device 1 is installed in the theft monitoring area 4 and turned on, first, the control unit 17 resets the counter of the determination unit 171 to 0 (step ST1), and receives a tuning signal specifying the reception frequency as a tuner. It outputs to 121 (step ST2). The reception frequency is specified at intervals of 1.2 GHz to 5 MHz in the frequency range of 1.2 GHz to 2 GHz.

  The detection unit 12 selects the frequency specified by the tuning signal from the control unit 17, converts the received radio wave into an intermediate frequency signal, amplifies it, and detects video (step ST3). Here, when a video signal is detected by the detection unit 12 (step ST4-Yes), it is determined whether or not a predetermined time has elapsed since the previous video signal detection (step ST5). If the predetermined time has elapsed (step ST5-Yes), the process proceeds to step ST6 and 1 is added to the counter.

That is, as described above, when the radio wave signal transmission source such as the voyeur camera 5 or the test video transmission unit 102 is in the vicinity of the voyeurism detection apparatus 1, the intensity of the radio waves received from these transmission sources by the reception antenna 11 is relative. The radio signal may be detected in a noise manner even in the peripheral band of the transmission frequency from the transmission source. In this case, the same video signal is detected continuously a plurality of times over a plurality of frequency bands in the search of the detection unit 12. Therefore, in this example, in step ST5, the elapsed time from the previous video signal detection in the search by the detection unit 12 is determined, and only when the predetermined time has passed since the previous video signal detection. Controls to increment the value. Here, the predetermined time is a time for preventing the video signal detected in the continuous frequency band from being counted by the counter, and is set as 1 second in this example.
Accordingly, it is possible to prevent erroneous determination by preventing the radio waves of the same video signal over a plurality of bands from being continuously detected and counting the number of detections.

  When the determination unit adds 1 to the counter in step ST6, it is determined whether or not it is the first video signal detection for voyeurism determination, that is, whether or not the value of the counter is 1 (step ST7). If it is 1 (step ST7-Yes), the time measuring unit starts measuring the determination time T1 (step ST8). In this example, the determination time T1 is 180 seconds.

  When counting of the determination time T1 is started in step ST8, the control unit 17 returns the process to step ST2, designates the next reception frequency, and outputs a tuning signal. That is, the control unit 17 sequentially designates a frequency range of 1.2 GHz to 2 GHz by the tuning signal, thereby causing the detection unit 12 to automatically search these frequency ranges and search for radio waves from the voyeur camera 5.

  If no video signal is detected by the detection unit 12 in step ST4 (step ST4-No), it is determined whether or not the determination time T1 is being measured (step ST9). If the determination time T1 (180 seconds) is being measured (step ST9-Yes), the control unit 17 returns the process to step ST2, specifies the next reception frequency, and outputs a tuning signal. On the other hand, if the determination time T1 (180 seconds) is not being measured, that is, if the determination time T1 has not started or has already been counted (step ST9-No), the process proceeds to step ST1. The process is returned and the counter is reset to 0, and the next reception frequency is designated and a tuning signal is output in step ST2.

  As described above, the control unit 17 sequentially specifies the reception frequency in the frequency range of 1.2 GHz to 2 GHz, outputs the tuning signal, and performs the auto search by the detection unit 12. When the auto search is completed up to 2 GHz, the search is started again from 1.2 Hz, and the frequency range of 1.2 GHz to 2 GHz is repeatedly searched.

  On the other hand, in step ST4, the video signal is detected by the detection unit 12 (step ST4-Yes), and a predetermined time (1 second) has elapsed since the previous video signal detection (step ST5-Yes), and the counter is set to 1. As a result of the addition (step ST6), when the counter value exceeds 1 (step ST7-No), it is determined whether or not the counter value is equal to or greater than a predetermined value (step ST10). This predetermined value is a value for determining the number of times of detection of the video signal within the determination time T1, and is set to 3 in this example.

If the value of the counter is less than the predetermined value (step ST10-No), it is determined whether or not the determination time T1 (180 seconds) is being measured (step ST9).
On the other hand, when the video signal is repeatedly detected by repeated auto search and the counter value becomes equal to or greater than the predetermined value (step ST10-Yes), the determination unit 171 determines that there is a voyeur radio wave and turns on the voyeur flag ( Step ST11). Then, the measurement of the determination time T1 is finished.
In this way, by repeatedly performing an auto search in the frequency range of 1.2 GHz to 2 GHz and setting the detection of the video signal a plurality of times within the determination time T1 as a condition for the voyeurism determination, the video signal received as instantaneous noise is used. It is possible to suppress erroneous determination.

  When the presence of the voyeur radio wave is determined, the control unit 17 causes the time measuring unit 172 to start measuring the video transmission time T3 (step ST12). Here, the video transmission time T3 is a time for temporarily stopping the auto search designating the next frequency, continuously receiving the video signal at the current frequency, and reporting the video to the monitoring center 2. In the example, it is set to 10 seconds.

Then, the control unit 17 outputs the video signal input from the detection unit 12 to the video processing unit 14. The video processing unit 14 converts the input video signal into a digital video and executes a compression process (step ST13). Video data obtained from the video processing unit 14 is sequentially transmitted to the monitoring center 2 as a notification signal by the communication unit 15 (step ST14).
As a result, the video signal detected in the voyeur surveillance area 4 is transmitted to the surveillance center 2. In the monitoring center 2, the surveillance staff refers to this video to determine whether it is a voyeur video, that is, whether there is a voyeur action in the voyeur surveillance area 4, and where the voyeur camera 5 is installed. It is determined whether it is.

  If the time measured by the time measuring unit 172 has passed the video transmission time T3 (10 seconds) (step ST15-Yes), the video data transmission by the communication unit 15 is stopped and the voyeurism flag is turned off (step ST17). ), The process is returned to step ST1, the counter is reset to 0, and the auto search by the detection unit 12 is restarted.

  On the other hand, if the time measured by the time measuring unit 172 has not reached the video transmission time T3 (10 seconds) in step ST15 (step ST15-No), it is determined whether a stop signal is received from the monitoring center 2 (step ST16). . If the stop signal is not received from the monitoring center 2 (step ST16—No), the video signal received and output is continuously compressed by the detection unit 12 and the video data is sent to the monitoring center 2.

  On the other hand, when the stop signal is received from the monitoring center 2 (step ST16-Yes), the transmission of the video data by the communication unit 15 is stopped and the voyeurism flag is turned off (step ST17), the process is returned to step ST1, and the counter is set to 0. And the auto search by the detection unit 12 is resumed.

  As described above, according to the voyeurism detection apparatus of the present embodiment, the presence of voyeurism is detected based on the fact that a video that may be transmitted from the voyeur camera 5 is detected a plurality of times by repeated auto search. And erroneous determination due to a video signal received as instantaneous noise can be suppressed.

  Next, with reference to FIG. 4, a process for determining an abnormality of a device using a test video will be described. FIG. 4 is a flowchart showing an apparatus abnormality inspection process by the control unit 17. The process of FIG. 4 is executed in parallel with the voyeurism determination process shown in FIGS.

  First, the control unit 17 determines whether a test signal is input from the operation unit 18 or the monitoring center 2 (step ST51). When a test signal is input (step ST51-Yes), the counter of the determination unit 171 is reset to 0 (step ST52), and the time measuring unit 172 starts measuring the test time T2 (step ST53). Here, the test time T2 is a time for sending a test image and checking the voyeurism detection apparatus 1, and is set to 300 seconds in this example.

  And the control part 17 operates the wireless transmission camera 10 (step ST54). When the wireless transmission camera 10 starts operating, the camera 101 outputs a video signal obtained by imaging the sign 1B inside the housing 1A of the voyeurism detection apparatus 1 to the test video transmission unit 102 as a video signal of the test video. The test video transmission unit 102 modulates a carrier wave having a predetermined frequency (for example, 1.3 GHz) into a radio wave signal using a video signal input from the camera 101 and wirelessly transmits it from the transmission antenna 100. That is, the wireless transmission camera 10 operates as a pseudo voyeur camera that wirelessly transmits an image captured by inputting a test signal.

  Next, the control unit 17 determines whether or not the test time T2 (300 seconds) has elapsed (step ST55). If the test time T2 (300 seconds) has not elapsed (step ST55-No), it is determined in step ST56 whether or not voyeurism determination is made in the voyeurism determination processing executed in parallel. This process determines whether or not a voyeurism determination is made in the voyeurism determination process according to FIGS. 2 and 3 described above (the voyeurism flag is ON), and the test video sent from the wireless transmission camera 10 is detected by the detection unit. This means that it is determined whether or not it is detected at 12.

If voyeurism determination is made (step ST56-Yes), the process waits until the transmission of the notification signal is completed (step ST57-No). This process is to determine whether or not the report relating to the voyeurism determination has been completed (the voyeurism flag has changed from ON to OFF) in the voyeurism determination process according to FIGS. 2 and 3 described above. This means that it is determined whether or not the test video that is transmitted from and detected by the detection unit 12 is transmitted to the monitoring center 2.
At this time, in the voyeurism determination process shown in FIGS. 2 and 3, a test video (video obtained by photographing the sign 1 </ b> B) transmitted from the wireless transmission camera 10 and detected by the detection unit 12 is transmitted to the monitoring center 2. It will be. In the monitoring center 2, the monitor refers to this video to determine whether it is a test video, that is, whether the voyeurism detection apparatus 1 is operating normally.

  Then, when it is determined that the notification process related to the voyeurism determination is completed (step ST57-Yes), the determination unit 171 detects the test video transmitted from the wireless transmission camera 10 and detects the voyeurism. It is determined that the apparatus 1 is operating normally, the operation of the wireless transmission camera 10 is stopped (step ST58), the measurement of the test time T2 is terminated, and the process returns to step ST51.

On the other hand, if the voyeurism determination is not made (step ST56-No), the process is returned to step ST55, and the elapse of the test time T2 (300 seconds) is confirmed.
If it is determined in step ST55 that the test time T2 has elapsed (step ST55-Yes), the control unit 17 stops the operation of the wireless transmission camera 10 (step ST59), and the determination unit 171 It is determined that the device is not operating normally, that is, the device is in an abnormal state (step ST60). And the control part 17 transmits an apparatus abnormality signal to the monitoring center 2 from the communication part 15 (step ST61).
Thereby, based on the input of the test signal, the image obtained by imaging the inside of the housing 1A of the voyeurism detection apparatus 1 is regarded as a voyeur camera image and transmitted, and the transmitted radio wave is detected by itself to detect the voyeurism detection apparatus. 1 can be tested.

  The processing of the control unit 17 according to FIGS. 2 to 4 described above will be described with reference to the time chart of FIG. FIG. 5 (a) shows an example in which the voyeurism determination is not made within the test time T2, and it is determined that the device is abnormal. FIG. 5 (b) shows that the test video is detected within the test time T2 and the voyeurism determination is made. An example of the case (example of normal operation) is shown.

  As shown in FIG. 5A, when a test signal is input, the measurement of the test time T2 is started and the transmission of the test video by the wireless transmission camera 10 is started. When the video signal is detected by the auto search by the detection unit 12, the counter is incremented by 1, and the determination time T1 is started. When the determination time T1 (180 seconds) elapses without the counter reaching the predetermined value (3), the counter value is reset to zero. Then, when the test time T2 (300 seconds) elapses without making a voyeurism determination, the operation of the wireless transmission camera 10 is stopped and a device abnormality is determined. At this time, a device abnormality signal is transmitted from the voyeurism detection apparatus 1 to the monitoring center 2. The monitoring center 2 confirms that the voyeurism detection apparatus 1 is abnormal, and takes necessary measures such as a countermeasure instruction by a security guard.

  On the other hand, as shown in FIG. 5B, after the test video is transmitted by the input of the test signal, the video signal is repeatedly detected by the automatic search by the detection unit 12 within the determination time T1 (180 seconds), and the counter is When the predetermined value (3) is reached, voyeurism determination is made and a notification signal is transmitted. When the transmission of the notification signal is completed, the measurement of the test time T2 and the transmission of the test video are stopped, and the device abnormality is not determined. At this time, the test video transmitted from the wireless transmission camera 10 and detected by the detection unit 12 (video obtained by photographing the marker 1B) is transmitted from the voyeurism detection device 1 to the monitoring center 2. In the monitoring center 2, the monitor refers to this video to determine whether it is a test video, that is, whether the voyeurism detection apparatus 1 is operating normally.

  Thus, according to the embodiment described above, in the voyeurism detection device that determines the presence or absence of voyeurism by detecting the video signal from the received radio wave, based on the input of the test signal from the operation unit or the monitoring center, It is possible to perform an operation test of the voyeurism detection apparatus by wirelessly transmitting the test video and monitoring whether or not the test video can be detected by the detection unit.

  In the embodiment described above, the video is displayed and confirmed at the monitoring center. However, the voyeurism detection apparatus includes a display unit such as a liquid crystal monitor, and displays the video processed by the video processing unit. The display unit may be configured to display and output. In this case, the display unit functions as the output unit of the present invention. Moreover, it is good also as a structure which outputs the image | video processed in the image | video process part from the voyeurism detection apparatus to the portable terminal which a guard holds. As a result, the security guard resident in the voyeur surveillance area can watch the video displayed on the display unit and terminal, and cope with the voyeur act in the site that becomes the voyeur surveillance area, without waiting for a countermeasure instruction from the surveillance center, It is possible to check whether there is an equipment abnormality.

  In the embodiment described above, an example in which a video for testing is captured and transmitted by a wireless transmission camera has been described. However, the present invention is not limited to this. That is, it is possible to store a video imaged or created in advance and transmit this video image as a test video image. In this case, in this example, the wireless transmission camera part configured by the camera and the test video transmission unit is configured by the storage unit and the test video transmission unit, and the video from the storage unit is tested by the test signal of the control unit. The video is input to the video transmission unit, and the video is transmitted wirelessly.

Schematic showing a voyeurism detection system using the voyeurism detection apparatus of the present invention The flowchart which shows the voyeurism determination process of the voyeurism detection apparatus of this invention The flowchart which shows the voyeurism determination process of the voyeurism detection apparatus of this invention The flowchart which shows the apparatus abnormality inspection process of the voyeurism detection apparatus of this invention The figure which shows the time chart concerning the apparatus abnormality inspection process of the voyeurism detection apparatus of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Voyeurism detection apparatus 1A Case 1B Sign 2 Monitoring center 3 Communication network 4 Voyeur monitoring area 5 Voyeur camera 10 Wireless transmission camera 101 Camera 102 Test video transmission part 11 Reception antenna 12 Detection part 14 Video processing part 15 Communication part 16 Power supply part 17 Control unit 171 Determination unit 172 Timing unit 21 Monitoring center communication unit 22 Display

Claims (5)

A voyeurism detection device for detecting a video signal transmitted from a voyeur camera,
A receiver for receiving radio waves;
A detection unit that detects the video signal by converting the received radio wave;
An output unit for outputting a video signal detected by the detection unit;
A test video transmission unit that converts a predetermined video signal into a radio wave of a predetermined frequency when a test signal is input from the outside;
A voyeurism detection device characterized by comprising:
Furthermore, a camera installed in the housing so as to image the inside of the housing of the voyeurism detection device,
The voyeurism detection apparatus according to claim 1, wherein the test video transmission unit converts a video signal output from the camera into a radio wave having the predetermined frequency and transmits the radio signal.
Furthermore, a storage unit that stores video signals in advance is provided,
The voyeurism detection apparatus according to claim 1, wherein the test video transmission unit converts the video signal stored in the storage unit into a radio wave having the predetermined frequency and transmits the radio signal.
And a communication unit connected to the monitoring center and receiving the test signal from the monitoring center,
The voyeurism detection apparatus according to claim 1, wherein the output unit transmits a video of the video signal detected by the detection unit to the monitoring center.
5. The voyeurism detection according to claim 1, further comprising a determination unit that determines that the device is abnormal when the detection unit does not detect a video signal even after a predetermined time has elapsed since the test signal was input. apparatus.

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