JP2009259276A - Automatic ticket checker, monitor system and monitoring method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a monitor system excellent in monitoring efficiency. <P>SOLUTION: The monitor system is provided with a photographing means (C) for photographing an image, detection means (7A, 7B, 7C) each detecting a person and a control means (108) for controlling the image photographing operation of the photographing means on the basis of the detection of a person by the detection means. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an automatic ticket gate that reads information recorded on a ticket medium and executes a ticket gate process based on the read information, and a monitoring system and a monitoring method for monitoring the automatic ticket gate.

  In recent years, with the spread of automatic ticket gates, passengers who use automatic ticket gates are increasing. The performance of the automatic ticket gate device is improved, and the ticket gate processing is sufficiently performed even at the ticket gate where the automatic ticket gate device is independent, that is, no clerk is arranged. The number of high-performance automatic ticket gates has increased, the number of staff at the ticket gate has decreased, and unmanned stations and unmanned corners can now be seen more frequently.

  However, even though the performance of the automatic ticket gate device is improved, the automatic ticket gate device sometimes generates an abnormality. In other words, in response to an abnormality in an automatic ticket gate at an unmanned station or corner, an attendant needs to bother to go to the unmanned station or corner to deal with the abnormality. Under such circumstances, an automatic ticket gate apparatus equipped with a CCD camera is currently being developed (for example, see Patent Document 1). The purpose of the CCD camera is to display the state of the automatic ticket gate. An image photographed by the CCD camera is displayed on a monitoring board corresponding to a higher rank of the automatic ticket gate. The attendant can check the state of the automatic ticket gate by checking the monitoring panel while staying at the window. This allows an attendant to check the state of the automatic ticket gate where an abnormality has occurred in response to an abnormality in an automatic ticket gate installed at an unmanned station or an unmanned corner, and then head to the automatic ticket gate where the abnormality occurred. . In other words, preparations are made for dealing with abnormalities before proceeding to treatment.

  In addition, by installing a CCD camera, it is possible to monitor a station that has finished a day's work (a station after the last train), for example, a station at midnight. At midnight, some people mischief (throwing foreign objects into the slot, pouring juice, etc.) into the automatic ticket gates, and others try to forcibly enter the station. Such fraud can be prevented by monitoring with a CCD camera.

JP-A-10-105748

  However, monitoring by the CCD camera requires a staff member who monitors the video imaged by the CCD camera. When an attendant monitors images taken with a CCD camera throughout the day, the burden on the attendant is extremely heavy. Also, if all the images taken by the CCD camera are to be recorded, a huge amount of memory is required. Even if all the images shot by the CCD camera are recorded, the work burden of finding an abnormality or an illegal act from the recorded images is extremely heavy.

  An object of the present invention is to provide an automatic ticket gate apparatus, a monitoring system, and a monitoring method that have been made in view of the circumstances as described above and that are excellent in monitoring efficiency.

  In order to solve the above problems and achieve the object, an automatic ticket gate apparatus, a monitoring system, and a monitoring method of the present invention are configured as follows.

  (1) A monitoring system according to the present invention includes a photographing means for photographing a video, a first storage means for storing video data photographed by the photographing means, a detecting means for detecting a change in the state of a monitoring target, And second storage means for storing video data of a predetermined time period out of the video data stored in the first storage means with reference to the timing at which the change in state by the detection means is detected.

  (2) The present invention is an automatic ticket gate device that reads information recorded on a ticket medium and executes a ticket gate process based on the read information, and is photographed by a photographing means for photographing an image and the photographing means. Among the video data, volatile storage means for storing past video data for a predetermined time including the latest video data, detection means for detecting an abnormality of the automatic ticket gate, and detection of abnormality by the detection means Non-volatile storage means for storing video data of a predetermined time period as one file among the video data stored in the volatile storage means on the basis of timing.

  (3) According to the monitoring method of the present invention, the past video data for a predetermined time including the latest video data among the video data continuously photographed by the monitoring camera monitoring the automatic ticket gate is stored in the volatile storage means. Then, on the basis of the timing of detecting the abnormality of the automatic ticket gate, the video data of a predetermined time period out of the video data stored in the volatile storage unit is stored in the nonvolatile storage unit as one file.

  According to the present invention, a monitoring system and a monitoring method excellent in monitoring efficiency can be provided.

It is a figure which shows an example of a ticket gate system. It is a perspective view which shows the external appearance of an automatic ticket gate apparatus. It is a functional block diagram which shows schematic structure of an automatic ticket gate apparatus. It is a block diagram which shows schematic structure of a monitoring board. It is a flowchart for demonstrating the monitoring process of 1st Embodiment of this invention. It is a figure which shows the reaction area of each sensor for implement | achieving the monitoring process of 1st Embodiment of this invention. It is a flowchart for demonstrating the monitoring process of 2nd Embodiment of this invention. It is a figure which shows the preservation | save method of the monitoring video in the monitoring process of 2nd Embodiment of this invention. It is a figure for demonstrating the monitoring process of 3rd Embodiment of this invention. It is a figure showing an example of a monitoring system which monitors a plurality of automatic ticket gates with a plurality of monitoring boards. It is a flowchart for demonstrating the monitoring process which monitors a plurality of automatic ticket gate apparatus with a plurality of monitoring panels.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram illustrating an example of a ticket gate system. As shown in FIG. 1, for example, the ticket gate system includes a plurality of automatic ticket gate devices 100 and a monitoring panel (terminal device) 200.

  2 is a perspective view showing an external appearance of the automatic ticket gate apparatus 100 shown in FIG. 1, and FIG. 3 is a functional block diagram showing a schematic configuration of the automatic ticket gate apparatus 100 shown in FIG.

  As shown in FIG. 2, the automatic ticket gate apparatus 100 includes a main body 1. When such an automatic ticket gate 100 is installed as a set at a ticket gate of a facility, a ticket gate passage through which a user can pass in both directions is formed.

  Tickets that can be used with the automatic ticket gate 100 include magnetic tickets such as ordinary tickets, commuter passes, limited express tickets, coupon tickets, admission tickets, prepaid cards, and wireless tickets. For such tickets, in addition to ticket-specific identification information, ticket gate information necessary for ticket gate processing, such as available section information, expiration date information, entry record information, entry record information, user information, etc. Are stored in a predetermined format.

  On the upstream side in the passing direction of the main body 1 of the automatic ticket gate 100, there is provided a slot 2 that can receive a plurality of tickets that have been inserted at the time of entering the facility or entering the facility. . Note that the slot 2 can also receive tickets inserted one by one. In the vicinity of the insertion slot 2, a shutter for preventing the insertion of tickets is provided. Further, a discharge port 3 for discharging (returning) the tickets received from the insertion port 2 as necessary is provided on the downstream side in the passing direction of the main body 1.

  On the upstream side of the main body 1 in the passing direction, a wireless communication device 112 including a wireless antenna 111 that performs wireless communication with wireless tickets is provided. In addition, a display unit 4 </ b> A for displaying guidance for the ticket gate passage of the automatic ticket gate 100 is provided below the insertion slot 2 in the main body 1. Further, a display unit 4B for displaying various guidance to the user is provided in front of the discharge port 3 in the main body 1.

  Further, the monitoring camera (photographing means) C is disposed at the upper end of the main body 1 and at the downstream end portion in the passage direction of the ticket gate passage in the main body 1 (more specifically, the downstream side of the display portion 4B in the passage direction). . The monitoring camera C functions as a photographing unit, and is, for example, a CCD camera, and photographs a person approaching the automatic ticket gate and a person who has entered a ticket gate passage formed along the automatic ticket gate. Such a monitoring camera C reliably performs the ticket gate operation of the user, such as a ticket insertion operation to the insertion slot 2, a ticket contact operation to the wireless antenna AT, and a ticket extraction operation from the discharge slot 3. An image can be taken, and further, an error and an operation state on the main body 1 of the automatic ticket gate 100 can be confirmed.

  Openable / closable door mechanisms 5 for controlling the passage of the user are provided at both ends of the side face of the main body 10 on the ticket gate side. The door mechanism 5 opens the ticket gate passage when allowing the user to pass therethrough, and closes the ticket gate passage when blocking the user passage.

  In addition, a frame 6 serving as a partition for defining a ticket gate is provided at the upper part of the main body 1. The frame 6 is provided with a display 8 for notifying the operation state of the device such as insertion of a child ticket, insertion of an invalid or abnormal ticket, or device malfunction.

  Further, a plurality of sensors 7A, 7B, and 7C serving as detection means for detecting the passage of the user are provided on the side surfaces of the main body 1 and the frame 6 on the ticket gate passage side. These sensors 7A and 7B function as detection means for detecting a user who has entered the ticket gate passage. The sensor 7C functions as a detection unit that detects a user outside the ticket gate passage, that is, a user approaching the automatic ticket gate 100.

  The sensor 7A is configured by, for example, a transmission optical sensor, and outputs a detection signal corresponding to the presence or absence of a user at a predetermined position in the ticket gate passage. The sensor 7B is composed of, for example, a reflective optical sensor, and outputs a detection signal corresponding to the presence or absence of a user having a predetermined height (for example, about 1220 mm to 1250 mm) at a predetermined position in the ticket gate passage. The sensor 7C is configured by, for example, an ultrasonic sensor, and outputs a detection signal corresponding to the presence or absence of a user outside the ticket gate passage, for example, in a range about 3 m away from the main body 1.

  As shown in FIG. 3, the automatic ticket gate apparatus 100 includes a CPU 101 that controls the entire apparatus. The CPU 101 functions as a control unit that controls each unit. In addition, the CPU 101 functions as a ticket gate means for performing ticket gate processing based on ticket ticket information of tickets held by the user.

  The CPU 101 includes a memory unit 102, a reading circuit 103, a writing circuit 104, a reading circuit 105, an entry control circuit 106, a print control circuit 107, a drive control circuit 108, an interphone 109, a wireless communication device 112, a detection circuit 113, A conveyance control circuit 114, a passage detection circuit 116, a door control circuit 117, a display control circuit 118, a communication control circuit 119, an abnormality detection unit 120, and the like are connected.

  The memory unit 102 includes a ROM, a RAM, a fare memory, a video data memory, and the like. The ROM stores a control program for the CPU 101 and the like. The RAM stores information as a buffer for the control program, and stores ticket gate information read from tickets. The fare memory stores fare information corresponding to the entrance station (from the installation station). The video data memory will be described in detail later.

  The reading circuit 103 controls driving of the reading heads 14 and 15. That is, the reading heads 14 and 15 read ticket gate information from tickets. The reading circuit 103 processes (demodulates) the ticket gate information read by the reading heads 14 and 15. The write circuit 104 controls the drive of the write head 18. That is, the writing head 18 records necessary ticket information for the tickets. The writing circuit 104 processes (modulates) the ticket information recorded by the writing head 18.

  The reading circuit 105 controls driving of the reading head 19. That is, the reading head 19 reads the ticket information recorded by the writing head 18 from the tickets. The reading circuit 105 processes (demodulates) the ticket information read by the reading head 19. The entry control circuit 106 controls the drive of the entry unit 20. The print control circuit 107 controls driving of the printing units 21 and 27.

  The drive control circuit 108 controls the driving of the monitoring camera C. That is, the drive control circuit 108 functions as a control unit that controls the start and stop of the image capturing operation by the monitoring camera C.

  The wireless communication device 112 reads identification information and ticket gate information by performing wireless communication with a wireless ticket via the wireless antenna 111 and also writes predetermined ticket information. The wireless antenna 111 communicates with tickets held in a communicable area (communication area). The wireless communication device 112 demodulates information received from the tickets via the wireless antenna 111 and transmits the modulated information to the tickets via the wireless antenna 111.

  Based on detection signals output from sensors 51 and 52 provided in the ticket transport mechanism, the detection circuit 113 detects the presence / absence of tickets inserted into the slot 2 and the tickets discharged to the slot 3. Presence / absence, transport state of tickets at each predetermined position on each transport path, and the like are detected. The sensor 51 is a sensor that detects the presence / absence of tickets inserted from the insertion port 2, and the sensor 52 is a sensor that detects the presence / absence of tickets discharged to the discharge port 3. For example, the detection circuit 113 detects forgetting to remove the discharged ticket based on the detection signal output from the sensor 52. Further, the detection circuit 113 detects a jammed ticket based on detection signals output from the sensors 51 and 52.

  The transport control circuit 114 controls driving of the transport mechanism 115 for transporting tickets along a predetermined transport path. The transport mechanism 115 drives a transport belt and a transport roller that form transport paths such as a main transport path, a branch transport path, and a bill collection transport path. The transport mechanism 115 also controls driving of a sorting gate provided on the transport path.

  The passage detection circuit 116 passes a ticket (moving position) in a ticket gate passage of a user who has inserted a ticket based on detection signals output from the plurality of sensors 7A and 7B (or the ticket is held over the wireless antenna 111). ) Is detected. Alternatively, the passage (movement position) of a suspicious person, which will be described later, is detected. The passage detection circuit 116 detects the approach of a suspicious person, which will be described later.

  The door control circuit 117 controls driving of the door mechanism 5. The display control circuit 118 controls various display units such as the display units 4A and 4B. The communication control circuit 119 performs information communication with the monitoring panel 200 that controls the ticket gate device. The abnormality detection unit 120 detects various abnormalities (changes in the state of the monitoring target) in the automatic ticket gate device 100.

  FIG. 4 is a block diagram showing a schematic configuration of the monitoring panel 200 shown in FIG. As shown in FIG. 4, the monitoring board 200 includes a CPU 201, a memory unit 202, an operation unit 203, a display unit 204, an interphone 205, an alarm 206, and a communication control unit 207. The CPU 201 controls the overall monitoring operation. The memory unit 202 includes a video data memory, which will be described later, and stores video shot by the monitoring camera C as necessary. The operation unit 203 outputs various instructions to the automatic ticket gate apparatus 100 in response to an operation by an attendant. The display unit 204 displays an image captured by the monitoring camera C as necessary. The intercom 205 communicates with the intercom 109. As a result, it is possible to have a conversation between a staff member who performs monitoring work using the monitoring panel 200 and a user in the vicinity of the automatic ticket gate apparatus 200 as necessary. The alarm 206 makes a continuous call in response to an abnormality detection by the abnormality detection unit 120 of the automatic ticket gate 200. The monitoring panel 200 performs information communication with the automatic ticket gate 100 via the communication control circuit 207.

  Hereinafter, a case where the monitoring system according to the first embodiment of the present invention is applied to the ticket gate system shown in FIG. 1 will be described with reference to FIGS.

  When video is always recorded by the surveillance camera C for 24 hours, a huge amount of memory is required. That is, it is difficult to continuously record video for several days. Therefore, in the present invention, the timing for starting recording is found and only the necessary video is stored. The video that needs to be recorded is, for example, a video of a person who tries to mischief the automatic ticket gate device or a person who tries to break through the automatic ticket gate device after the last train at an unmanned station or corner.

  For example, after the work is finished, a person (moving object) who approaches the automatic ticket gate 100 is monitored by the sensor 7C of the automatic ticket gate 100, and the ticket gate formed along the automatic ticket gate 100 by the sensors 7A and 7B. A person (moving object) entering the passage is monitored (ST11). During the ticket gate business, the sensors 7A and 7B are used to detect the passage of passengers in the ticket gate passage, but after the end of the business (after the last train), the sensors 7A and 7B are used by people in the ticket gate passage. Used to detect movement. That is, when the ticket gate operation is stopped (after the final train), the sensors 7A and 7B detect whether or not there is a person in the ticket gate passage and not how the person moves. Specifically, it is detected whether or not there is a person in the reaction area E2 as shown in FIG. The sensor 7 </ b> C can detect a person who has entered a circle having a radius of about 3 m, for example, and is attached to the lower part of the insertion slot 2 of the automatic ticket gate 100. Thereby, the sensor 7C can detect a person approaching in the reaction area E1 as shown in FIG.

  When a person who approaches the automatic ticket gate 100 is detected by the sensor 7C (ST12, YES), the drive control circuit 108 starts the photographing operation of the surveillance camera based on the detection signal (detection signal ON) of the sensor 7C (ST13). ). That is, the detection of the person by the sensor 7C serves as a trigger, and the photographing operation of the monitoring camera C starts. At this time, corresponding to the person detection by the sensor 7C, the automatic ticket checking apparatus 100 notifies the monitoring panel 200 of the person detection, the alarm 206 of the monitoring panel 200 is continuously called, and the attendant is in the vicinity of the automatic ticket checking apparatus. Is notified that an abnormality has occurred.

  While the person is detected by the sensors 7A, 7B, and 7C (ST14, YES), the photographing operation by the monitoring camera C is continued (ST15). When no person is detected by the sensors 7A, 7B, and 7C for a predetermined time (ST14, NO), the drive control circuit 108 stops the photographing operation of the monitoring camera C based on the detection signal (detection signal OFF) of the sensor 7C (ST16). ).

  The video captured by the monitoring camera C is stored in a video data memory included in the memory unit 102 of the automatic ticket gate 100. Alternatively, the video shot by the monitoring camera C is stored in a video data memory included in the memory unit 202 of the monitoring board 200.

  Until the monitoring system is stopped (NO in ST17), a person who approaches the automatic ticket gate 100 is monitored by the sensor 7C, and enters the ticket gate passage formed along the automatic ticket gate 100 by the sensors 7A and 7B. A person is monitored. When the monitoring system stops (ST17, YES), person monitoring by the sensors 7A, 7B, 7C is also stopped.

  As described above, even if the automatic ticket gate 100 is in an unprotected state, the surveillance camera C starts to shoot the video at an appropriate timing, so that the clerk confirms the video where only the important points were shot later. Can do. That is, it can be monitored efficiently. As a result, it is possible to prevent mischief into the automatic ticket gate and illegal intrusion into the station premises. In addition, since it is not necessary to continuously record for a long time, it can be continuously monitored for many days.

  Next, the case where the monitoring system of the second embodiment of the present invention is applied to the ticket gate system shown in FIG. 1 will be described with reference to FIGS.

  In the second embodiment, for example, it is premised on monitoring during work (in operation).

During operation, it is not necessary to monitor mischief to the automatic ticket gate 100 or illegal intrusion into the station premises. However, there are cases where the automatic ticket gate 100 becomes in an abnormal state during operation and cannot be used. The attendant may not always monitor the automatic ticket gate 100, and may notice, and the automatic ticket gate device 100 may notify the abnormality at that time.

  Accordingly, continuous shooting by the monitoring camera C is started during work (ST21), and abnormality detection by the abnormality detection unit (detection means) 120 is also started (ST22). The video imaged by the monitoring camera C is stored in a volatile video data memory M1 (first storage means) as shown in FIG. 8 included in the memory unit 102 or the memory unit 202 (ST23). The video data memory M1 as a storage means is a ring buffer, and holds a capacity capable of storing video data for one hour, for example. The video data memory M1 accumulates video data to be transferred one after another, and stores the latest video data by overwriting the video data that is older in time when there is no free space. That is, the video data memory M1 always stores past video data for a predetermined time including the latest video data.

  When the abnormality detection unit 120 detects an abnormality (such as a paper jam or forgetting to take a ticket) in response to the detection of the paper jam or the forgetting to pick up the ticket by the detection circuit 113 (ST24, YES), the video is based on the timing of the abnormality detection. The video data of a predetermined time period out of the video data stored in the data memory M1 is extracted as one file, and the extracted video data file is included in the memory unit 102 or the memory unit 202 as shown in FIG. The video data memory M2 (second storage means) is transferred and stored (ST25). That is, every time an abnormality occurs, the video data before and after the timing of the occurrence of the abnormality is captured as one file in the video data memory M2 serving as a storage unit. In response to the abnormality detection of the abnormality detection unit 120, the monitoring panel 200 is notified of the occurrence of the abnormality. The monitoring panel 200 displays the occurrence of abnormality on the display unit 204, for example. Until the monitoring system is stopped (NO in ST26), the video data capturing corresponding to the abnormality detection as described above is continued.

  By capturing video data corresponding to abnormality detection as described above, the cause can be found after the abnormality has occurred. That is, by looking at the video data file captured in the video data memory M2, it is possible to confirm the cause of the abnormality, for example, what kind of ticket the passenger has inserted and how it has been done after the insertion. In addition, many passengers forget to take a commuter pass or ticket released from the automatic ticket gate device 100. As mentioned above, anomalies are detected in response to forgetting to take a ticket, and the video data before and after the timing of the anomaly detection is captured as a single file, so confirm the person who actually forgot to take the ticket Can do.

  When all the video data continuously shot by the surveillance camera is saved as in the prior art, it is not easy to search for a necessary scene from the saved video data. In addition, in order to save all the video data continuously photographed by the surveillance camera, a huge amount of memory is required in advance. According to the present invention, the above two problems can be solved. That is, if there is a memory having a capacity capable of storing video data for a certain time, only a video of a necessary scene (when an abnormality occurs) is captured as one file.

  Next, the case where the monitoring system of the third embodiment of the present invention is applied to the ticket gate system shown in FIG. 1 will be described with reference to FIG.

  Conventionally, even if a reading error occurs due to an abnormality on the automatic ticket gate side, for example, the passenger goes to the clerk window and shows the commuter pass etc. to pass through the clerk. In other words, the passenger is inconvenienced even though the passenger has a normal ticket. Therefore, according to the present invention, it becomes possible for a passenger to have a conversation with an attendant while staying at the place where the automatic ticket gate is installed.

  When an abnormality is detected by the abnormality detection unit 120, shooting data obtained by shooting by the monitoring camera C is transmitted to the monitoring panel 200 via the communication control unit 119. The monitoring board 200 receives the video data via the communication control unit 207 and displays it on the display unit 204. Further, in response to the abnormality detection, a call can be made between the intercom 109 of the automatic ticket gate 100 and the intercom 205 of the monitoring panel 200. Thereby, the clerk can talk to the passenger via the interphone 205. For example, a staff member gives guidance such as “please show the ticket inserted toward the monitoring camera C” via the interphone 205. The clerk can check the validity of the ticket by looking at the ticket displayed on the display unit 204. When the clerk confirms that the ticket is a correct ticket, a reset signal is output to the automatic ticket gate device 200 via the operation unit 203 of the monitoring panel 200. Correspondingly, the door mechanism 5 of the automatic ticket gate device 200 opens the ticket gate passage. If the clerk cannot confirm that the ticket is a correct ticket, that is, if it is confirmed that it is an out-of-section ride, an out-of-period ride, etc., the passenger is guided to the window. That is, it is possible to have a conversation between the staff at the installation location of the monitoring panel 200 and the passenger at the installation location of the automatic ticket gate 100. When an event occurs in the automatic ticket gate installed in the unmanned corner, the video data is transmitted to the monitoring panel 200 installed in the manned corner.

  Next, an example of a monitoring system that monitors a plurality of automatic ticket gates with a plurality of monitoring panels will be described with reference to FIGS. 10 and 11. As shown in FIG. 10, a plurality of automatic ticket gates 100 and a monitoring panel 200 are installed at corner 1 (for example, A station or A station ticket gate), and corner 2 (for example, B station or A station b ticket gate). A plurality of automatic ticket gates 100 and a monitoring panel 200 are installed in the mouth). The monitoring panel 200 at the corner 1 and the monitoring panel 200 at the corner 2 are connected by a LAN.

  In corner 1 and corner 2, image capturing by monitoring camera C of each automatic ticket gate 100 is started (ST31), and abnormality detection by abnormality detector 120 of each automatic ticket gate 100 is also started (ST32). When an abnormality is detected by the abnormality detection unit 120 of one automatic ticket gate 100 (ST33, YES) (ST34, NO), one image is captured by the monitoring camera C of the one automatic ticket gate 100. To the predetermined monitoring board 200 (ST37). At this time, the transmitted video captured by the monitoring camera C is displayed on the display unit 204 of one predetermined monitoring board 200 (ST38).

  If the abnormality detection unit 120 of two or more automatic ticket gates 100 detects an abnormality (ST33, YES) (ST34, YES), each image of the monitoring camera C of these two or more automatic ticket gates 100 is displayed. (For example, video 1 and video 2) are transmitted to different monitoring boards 200 (ST35). At this time, the transmitted video captured by the monitoring camera C is displayed on the display unit 204 of each monitoring panel 200 (ST36). For example, each video (for example, video 1 and video 2) of the monitoring camera C of two or more automatic ticket gates 100 is once collected in the server. Here, it is assumed that the predetermined monitoring panel 200 also serves as a server. The server distributes the collected video to each monitoring board 200. That is, the monitoring panel 200 that also serves as a server functions as a distribution control means, displays a video (video 1) taken by the monitoring camera C of one automatic ticket gate, and another monitoring panel 200 has one. A video (video 2) taken by the monitoring camera C of the automatic ticket gate is displayed.

  As described above, when a plurality of abnormalities occur in a plurality of automatic ticket gates in the same corner, that is, during the customer service corresponding to the occurrence of the abnormality on the predetermined monitoring panel 200, another abnormality is dealt with. When the need arises, the monitoring panel at another corner can respond to the occurrence of an abnormality. In other words, it is possible to deal with anomalies that have occurred at the same corner in a distributed manner at a plurality of corners. Thereby, it becomes possible to deal with an abnormality efficiently with a small number of staff.

  Note that the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the invention in the implementation stage. In addition, the embodiments may be appropriately combined as much as possible, and in that case, the combined effect can be obtained. Further, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some constituent requirements are deleted from all the constituent requirements shown in the embodiment, the problem described in the column of the problem to be solved by the invention can be solved, and the effect described in the column of the effect of the invention Can be obtained as an invention.

  The description of the claims at the beginning of the filing of the original application is added below.

(1) An automatic ticket gate device that reads information recorded on a ticket medium and executes ticket gate processing based on the read information,
Photographing means for photographing images;
Detection means for detecting a moving object approaching the automatic ticket gate and a moving object that has entered a passage formed along the automatic ticket gate;
Control means for controlling start and stop of a video image capturing operation by the image capturing means based on detection of a moving object by the detection means;
An automatic ticket gate characterized by comprising:

(2) photographing means for photographing images;
First storage means for storing video data photographed by the photographing means;
A detection means for detecting a change in the state of the monitoring target;
Second storage means for storing video data of a predetermined time period out of the video data stored in the first storage means with reference to the timing at which a change in state by the detection means is detected;
A monitoring system characterized by comprising:

(3) An automatic ticket gate device that reads information recorded on a ticket medium and executes ticket gate processing based on the read information,
Photographing means for photographing images;
Volatile storage means for storing past video data for a predetermined time including the latest video data of the video data shot by the shooting means;
Detection means for detecting an abnormality of the automatic ticket gate,
Non-volatile storage means for storing video data of a predetermined time period as a single file among video data stored in the volatile storage means with reference to the timing of abnormality detection by the detection means;
An automatic ticket gate characterized by comprising:

(4) a plurality of surveillance cameras that respectively monitor a plurality of automatic ticket gates;
A plurality of terminal devices for receiving images taken by the plurality of surveillance cameras;
A plurality of detecting means for detecting abnormalities occurring in the plurality of automatic ticket gates;
Based on the abnormality detection of one automatic ticket gate by one of the plurality of detection means, the video of one monitoring camera that monitors this one automatic ticket gate is displayed on a predetermined terminal. Two or more units that are distributed to the device and monitor each of these two or more automatic ticket gates based on detection of duplication of abnormality of two or more automatic ticket gate devices by two or more of the plurality of detection units Distribution control means for distributing each video of the surveillance camera to different terminal devices;
A monitoring system characterized by comprising:

(5) Based on the detection of a person approaching the automatic ticket gate, the video recording by the monitoring camera that monitors the automatic ticket gate is started.
Based on the detection of the detected person leaving the automatic ticket gate, the video recording by the monitoring camera is stopped.
A monitoring method characterized by that.

(6) Store past video data for a predetermined time including the latest video data among the video data continuously photographed by the monitoring camera monitoring the automatic ticket gate device in the volatile storage means,
With reference to the timing of detection of an abnormality in the automatic ticket gate device, the video data of a predetermined time period among the video data stored in the volatile storage unit is stored in the nonvolatile storage unit as one file.
A monitoring method characterized by that.

(7) Monitor multiple automatic ticket gates with multiple surveillance cameras,
Based on the detection of duplication of abnormality of two or more automatic ticket gates by two or more detection means of a plurality of detection means for detecting an abnormality of each of the plurality of automatic ticket gates, the two or more automatic ticket gates are Deliver each video of two or more surveillance cameras to be monitored to different terminal devices,
A monitoring method characterized by that.

C ... surveillance camera, 100 ... automatic ticket gate, 101 ... CPU, 102 ... memory unit, drive control circuit 108, abnormality detection unit 120, 200 ... monitoring panel, 201 ... CPU, 202 ... memory unit

Claims (8)

Photographing means for photographing images;
First storage means for storing video data photographed by the photographing means;
A detection means for detecting a change in the state of the monitoring target;
Second storage means for storing video data of a predetermined time period out of the video data stored in the first storage means with reference to the timing at which a change in state by the detection means is detected;
A monitoring system characterized by comprising: An automatic ticket gate device that reads information recorded on a ticket medium and executes ticket gate processing based on the read information,
Photographing means for photographing images;
Volatile storage means for storing past video data for a predetermined time including the latest video data of the video data shot by the shooting means;
Detection means for detecting an abnormality of the automatic ticket gate,
Non-volatile storage means for storing video data of a predetermined time period as a single file among video data stored in the volatile storage means with reference to the timing of abnormality detection by the detection means;
An automatic ticket gate characterized by comprising: A plurality of surveillance cameras each monitoring a plurality of automatic ticket gates;
A plurality of terminal devices for receiving images taken by the plurality of surveillance cameras;
A plurality of detecting means for detecting abnormalities occurring in the plurality of automatic ticket gates;
Based on the abnormality detection of one automatic ticket gate by one of the plurality of detection means, the video of one monitoring camera that monitors this one automatic ticket gate is displayed on a predetermined terminal. Two or more units that are distributed to the device and monitor each of these two or more automatic ticket gates based on detection of duplication of abnormality of two or more automatic ticket gate devices by two or more of the plurality of detection units Distribution control means for distributing each video of the surveillance camera to different terminal devices;
A monitoring system characterized by comprising: Store the past video data for a predetermined time including the latest video data among the video data continuously photographed by the monitoring camera monitoring the automatic ticket gate device in the volatile storage means,
With reference to the timing of detection of an abnormality in the automatic ticket gate device, the video data of a predetermined time period among the video data stored in the volatile storage unit is stored in the nonvolatile storage unit as one file.
A monitoring method characterized by that. Monitor multiple automatic ticket gates with multiple surveillance cameras,
Based on the detection of duplication of abnormality of two or more automatic ticket gates by two or more detection means of a plurality of detection means for detecting an abnormality of each of the plurality of automatic ticket gates, the two or more automatic ticket gates are Distribute each video of two or more surveillance cameras to be monitored to different terminal devices,
A monitoring method characterized by that. Photographing means for photographing images;
First storage means for storing video data photographed by the photographing means;
A detection means for detecting a change in the state of the monitoring target;
Second storage means for storing video data of a predetermined time period out of the video data stored in the first storage means with reference to the timing at which a change in state by the detection means is detected;
With
The photographing means is disposed at the upper part of the main body of the automatic ticket gate and downstream in the passage direction, and photographs the loading of the ticket medium into the insertion port provided in the main body of the automatic ticket gate. Monitoring system.   The monitoring system according to claim 6, wherein the photographing unit photographs the extraction of the ticket medium from a discharge port provided in a main body of the automatic ticket gate. Photographing means for photographing images;
First storage means for storing video data photographed by the photographing means;
A detection means for detecting a change in the state of the monitoring target;
Second storage means for storing video data of a predetermined time period out of the video data stored in the first storage means with reference to the timing at which a change in state by the detection means is detected;
With
The photographing means is arranged at the upper part of the main body of the automatic ticket gate apparatus and on the downstream side in the traffic direction, and photographs the contact of the ticket medium with a wireless antenna provided in the main body of the automatic ticket gate apparatus. Monitoring system.

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