JP5265321B2 - Image recording apparatus, image storage method, and security system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent the loss of the image of a monitoring region imaged after an image is transmitted to a service device the last when the abnormality of a monitoring region is detected. <P>SOLUTION: An image recording device 100 includes: an image storage part 130; a storage part 112 for storing sequentially in the image storage part 130, an image picked up by monitoring cameras 101 and 102 for picking up the image of a monitoring region; a detection information acceptance part 113 for accepting detection information showing that abnormality has been detected in a monitoring region from intruder detection sensors 151a and 151b and a fire detection sensor 152 installed in the monitoring region; and a transmission part 114 for transmitting the images successively stored in the image storage part 130 to an image storage server 200 in every prescribed time, and for, when the detection information is accepted, transmitting the images stored in the image storage part 130 to the image storage server 200 since the images stored in the image storage server 200 are transmitted the last until the detection information is accepted. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to an image recording apparatus, an image storage method, and a security system including the image recording apparatus and the server apparatus, which transmit an image obtained by capturing an image of a monitoring area by an imaging unit to a server apparatus that stores a remote image. It is about.

  Conventionally, an image obtained by imaging a monitoring area by an imaging device such as a monitoring camera has been stored in a recording device installed in the monitoring area. However, when an image is stored by a recording device, since the image is stored on a medium such as a video tape, it has been troublesome to periodically replace the medium. In a surveillance area where a large number of surveillance cameras are installed, images from a large number of surveillance cameras are stored over a long period of time, so a recording device having a large-capacity storage medium is required, which is expensive. It will hang.

  Furthermore, if the recording device is installed in the monitoring area, the stored image may be burned down if a fire or the like occurs in the monitoring area. In addition, there is a possibility that a recording device or a medium storing an image is destroyed or stolen by an intruder into the monitoring area. Therefore, even if the cause of the fire and the intruder are imaged by the surveillance camera, if the images are lost due to burning, destruction, theft, etc., The person could not be confirmed.

  Therefore, in recent years, as communication infrastructure has been improved and communication costs have been reduced, images captured in the monitoring area are transmitted to a remote server device and the images captured by the server device are stored (backup). ) Technology is being used. When using this technology, it is conceivable to always connect a communication line and transmit an image captured in real time to a remote server device. However, in the method of constantly transmitting and storing images to the server device, it is expensive. Communication costs. Therefore, the images captured in the monitoring area are accumulated in the image recording apparatus for a certain period, the images are compressed, and the images are periodically transmitted (accumulated every predetermined time) to the server apparatus for accumulation. The method is actually used.

  In addition, an image transmission system is disclosed in which when an abnormality occurs in a monitoring area (monitored facility), an image at the time of the abnormality and images before and after the abnormality are transmitted to a remote center device via a communication line (for example, , See Patent Document 1).

JP-A-8-124065

  However, in the above-described conventional technique in which an image is periodically transmitted to and stored in the server device, when an abnormality occurs in the monitoring area, until the abnormality occurs after the image is last transmitted to the server device. In some cases, an image captured in a loss may be lost due to burning by fire or theft by an intruder.

  In addition, the system disclosed in Patent Document 1 assumes that about two or three still images are transmitted to the center device when an abnormality is detected. Since it can be transmitted to the apparatus, the stored image (to be transmitted to the center apparatus) is less likely to be lost. However, if the amount of image data to be transmitted to the center device increases, the image may be lost due to a fire or a theft by an intruder.

  The present invention has been made in view of the above, and in the event of detecting an abnormality in a monitoring area, image recording that reduces loss of an image in the monitoring area that has been captured since the last transmission of an image to the server device An object is to provide a device, an image storage method, and a security system.

In order to solve the above-described problems and achieve the object, the present invention provides an image storage device connected to a server device that stores images via a network, and an image storage device and an imaging device that images a monitoring area. A storage unit that sequentially stores captured images in the image storage unit; a detection information reception unit that receives detection information indicating that an abnormality has been detected in the monitoring region; from a detection unit that is installed in the monitoring region; transmits sequentially images stored in the image storage unit to the server device at predetermined time intervals, further wherein when the detection information receiving unit receives the detection information, wherein the stored image in the image storage unit transmitting means for transmitting the image stored in the image storage unit until receiving the detection information from the transmission to the last server in the server device , Characterized by comprising a.

According to another aspect of the present invention, there is provided an image storage method executed in an image recording apparatus connected via a server apparatus network for storing an image. The image recording apparatus includes an image storage unit, and the storage unit includes a monitoring area. A storing step of sequentially storing images captured by the imaging unit that captures images in the image storage unit, and a detection information receiving unit indicating that an abnormality has been detected in the monitoring region from the detection unit installed in the monitoring region A detection information reception step for receiving detection information, and a transmission unit that transmits images sequentially stored in the image storage unit to the server device at predetermined time intervals, and further, the detection information reception unit receives the detection information. If, before until receiving the detection information stored image in the image storage unit since the last sent to the server device A transmission step of transmitting the images stored in the image storage unit to the server apparatus, to include the features.

According to another aspect of the present invention, there is provided a monitoring system including a server device that stores an image and an image recording device that is connected to the server device via a network and records an image. The image recording device includes a first image storage device. That an abnormality has been detected in the monitoring area from the means, a storage means for sequentially storing images captured by the imaging means for capturing the monitoring area in the first image storage means, and a detection means installed in the monitoring area Detection information reception means for receiving detection information indicating the image information, and images sequentially stored in the first image storage means are transmitted to the server device at predetermined time intervals, and the detection information reception means receives the detection information. wherein the first image storage hands during when, from the transmission of the stored image in the image storage means the last to the server apparatus until receiving the detection information Transmitting means for transmitting the image stored in the server device to the server device, wherein the server device stores second image storage means for storing the image transmitted from the image recording device, and the image recording device from the image recording device. Receiving means for receiving an image and storing it in the second image storage means.

  Advantageous Effects of Invention According to the present invention, when an abnormality in a monitoring area is detected, there is an effect that it is possible to reduce loss of an image in the monitoring area that has been imaged after the last image transmission to the server device.

  Exemplary embodiments of an image recording apparatus, an image storage method, and a security system according to the present invention will be explained below in detail with reference to the accompanying drawings. In the following embodiments, as described above, when an abnormality in the monitoring area is detected, loss of an image captured from when the image was last transmitted to the server device until the abnormality is detected is reduced. It is an object.

  Further, when an abnormality in the monitoring area due to the detection of an intruder in the monitoring area is detected, if an image recording medium or the like that records an image of the monitoring area from the image recording device is stolen by the intruder, Information related to privacy included in images may be leaked or confidential information may be leaked. Therefore, in the following embodiments, even when an image recording medium or the like of a captured image is stolen, an image recording apparatus that can prevent leakage of privacy-related information included in the image or leakage of confidential information An object is to provide an image storage method and a security system.

(Embodiment 1)
The image recording apparatus according to the present embodiment sequentially accumulates images obtained by imaging a monitoring area by an imaging unit such as a monitoring camera, and periodically transmits the accumulated images to an image accumulation server that accumulates remote images. Is. When detecting an abnormality in the monitoring area, the image recording apparatus transmits an image captured and accumulated until the abnormality is detected after the last transmission of the image to the image accumulation server. To do.

  FIG. 1 is a configuration diagram illustrating an overview of the monitoring system according to the first embodiment. FIG. 2 is a block diagram of the configuration of the image recording apparatus and the image storage server according to the first embodiment. As shown in FIGS. 1 and 2, the monitoring system includes an image recording device 100, a security device 150, an image storage server 200, and a monitoring center 300 via a network 50 such as a telephone line, a wireless network, and the Internet. It is connected.

  The security device 150 guards the monitoring area, and the intruder detection sensors 151a and 151b and the fire detection sensor 152 are connected.

  The intruder detection sensors 151a and 151b are human sensors that are installed for the purpose of detecting an abnormality such as an intruder or the like entering the surveillance area to be guarded. The intruder detection sensor 151a is provided near the entrance / exit of the monitoring area, and detects the presence of a person (intruder etc.) passing through the entrance / exit, a person (intruder etc.) near the entrance / exit, and the opening / closing of the door. In this case, a detection signal is output. The intruder detection sensor 151b is provided near the installation location of the image storage unit 130 (described later) of the image recording apparatus 100 in the monitoring area, and is detected when the presence of a person near the image storage unit 130 is detected. Output a signal. The intruder detection sensors 151a and 151b are, for example, an infrared sensor that detects the presence of a person based on a change in the amount of received infrared light, a blocking sensor that detects the presence of a person by blocking reception of infrared light, and an electromagnetic wave. It can be constituted by various sensors such as a radio wave sensor that detects the presence of a person due to disturbance of the sound and a magnet sensor that detects opening and closing of a door by a magnet.

  The fire detection sensor 152 is provided on the ceiling or the like of the monitoring area to be monitored, and is a sensor that detects the occurrence of a fire in the monitoring area, and outputs a detection signal when the occurrence of a fire is detected. Examples of the fire detection sensor 152 include a smoke detection type sensor and a heat detection type sensor, and a battery type and an AC power supply type.

  And the security apparatus 150 is equipped with the security mode of a security state and a security cancellation | release state. The security state refers to a state in which when the intruder detection sensors 151a and 151b detect an abnormality in the monitoring area, an alarm indicating that fact is transmitted to the monitoring center 300. Further, the security release state is a state in which, even if an intruder detection sensor 151a, 151b detects an abnormality in the monitoring area, it is not determined as an abnormality and an alarm is not transmitted to the monitoring center. If an abnormality in the monitoring area is detected by the fire detection sensor 152, an alarm indicating that an abnormality has been detected is transmitted to the monitoring center 300 regardless of which security mode is set.

  Further, when the security mode is the security state and the intruder detection sensor 151a detects an intruder entering / exiting the monitoring area in the vicinity of the entrance / exit of the monitoring area, the security device 150 indicates the first. A detection signal of intruder detection information is sent to the image recording apparatus 100. Further, the security device 150 is in a case where the security mode is a security state, and the intruder detection sensor 151b intrudes in the vicinity of the installation location of the image storage unit 130 (described later) of the image recording device 100 installed in the monitoring area. When a person is detected, a detection signal of second intruder detection information indicating that fact is sent to the image recording apparatus 100. Further, when the fire detection sensor 152 detects the occurrence of a fire in the monitoring area, the security device 150 sends a detection signal of fire detection information indicating that to the image recording apparatus 100.

  When the monitoring center 300 receives an alarm indicating that an abnormality has been detected from the security device 150 that guards the monitoring area, the monitoring center 300 instructs the waiting guard to go to the monitoring area where the abnormality is detected. It is a center that sends out reports to related organizations such as the police and fire department as needed.

  The image storage server 200 is a server that stores images transmitted from the image recording apparatus 100, and mainly includes an image storage unit 220 and a reception unit 211.

  The image storage unit 220 is a storage medium such as an HDD (Hard Disk Drive) or a memory that stores an image captured from the monitoring area and transmitted from the image recording apparatus 100.

  The receiving unit 211 receives an image obtained by capturing the monitoring area from the image recording apparatus 100 and stores it in the image storage unit 220.

  The image recording apparatus 100 transmits an image obtained by imaging a monitoring area to a remote image storage server 200, and includes a monitoring camera 101, a monitoring camera 102, an image storage unit 130, an image receiving unit 111, It mainly includes a storage unit 112, a detection information receiving unit 113, a transmission unit 114, and a deletion unit 115.

  The monitoring camera 101 and the monitoring camera 102 image a monitoring area that is a security target, and are mainly installed at positions where the vicinity of the entrance / exit of the monitoring area and the vicinity of the image recording apparatus 100 are imaged. Here, in this embodiment, two surveillance cameras are installed, but the present invention is not limited to this, and one or three or more cameras may be installed.

  The image accumulating unit 130 is a storage medium such as an HDD or a memory that accumulates images in which the monitoring area is captured by the monitoring camera 101 and the monitoring camera 102.

  The image receiving unit 111 receives images of the monitoring area captured by the monitoring camera 101 and the monitoring camera 102 from the monitoring cameras 101 and 102. The storage unit 112 sequentially stores the images received by the image receiving unit 111 in the image storage unit 130.

  The detection information reception unit 113 receives a detection signal of detection information transmitted from the security device 150 and indicating that an abnormality in the monitoring area has been detected by the intruder detection sensors 151a and 151b or the fire detection sensor 152. Specifically, the detection information receiving unit 113 receives the detection signal for the first intruder detection information, the detection signal for the second intruder detection information, and the detection signal for the fire detection information sent from the security device 150.

  The transmission unit 114 is sequentially stored in the image storage unit 130 by the storage unit 112, performs compression processing on the stored image, and periodically transmits the image to the image storage server 200 at predetermined time intervals. Is. In addition, when the detection information reception unit 113 receives at least one of the first intruder detection information and the fire detection information from the security device 150, the transmission unit 114 periodically transmits the detection information to the image storage server 200. The image accumulated by the storage unit 112 from the last transmission of the image being transmitted to the time until receiving at least one of the detection information (first intruder detection information, fire detection information) is stored in the image storage unit 130. And the acquired image is transmitted to the image storage server 200.

  Here, the transmission of the image by the transmission unit 114 will be described in detail. FIG. 3 is an explanatory diagram showing transmission of an image to an image storage server by a conventional image recording apparatus. FIG. 4 is an explanatory diagram showing transmission of images to the image storage server by the image recording apparatus according to the first embodiment. 3 and 4, t indicates time, and t1, t2, t3, and t6 indicate times divided at predetermined time intervals.

  3 and 4, first, the image recording apparatus transmits an image captured by the surveillance camera from t1 to t2 to the image storage server by an arrow S1 after elapse of t2. Similarly, images captured from t2 to t3 are transmitted to the image storage server by an arrow S2 after elapse of t3. If no abnormality occurs in the monitoring area, an image captured from t3 to t6 is scheduled to be transmitted after elapse of t6. That is, the image recording apparatus transmits the captured image to the image storage server at every predetermined time t1, t2, t3, and t6 (predetermined timing).

  However, as shown in FIG. 3, since the conventional image recording apparatus transmits an image captured only at the predetermined timing described above, the occurrence of fire or intruders in the monitoring area at t4 after t3 has elapsed. If the image is detected and burned out by fire at t5 after elapse of t4, or the image is destroyed or stolen by an intruder, the image captured from t3 to t6 is transmitted to the image storage server 200. It becomes impossible to do.

  On the other hand, as shown in FIG. 4, the image recording apparatus 100 according to the present embodiment transmits a captured image when a fire or an intruder is detected even at a timing other than the predetermined timing described above. Therefore, when a fire or an intruder is detected in the monitoring area at t4 after elapse of t3, an image captured from t3 to t4 is transferred to the image storage server by an arrow S3 immediately after elapse of t4. Send. Therefore, even if an image is burnt down by a fire at t5 after elapse of t4, or an image is destroyed or stolen by an intruder, not all images captured from t3 to t6 are lost. The loss of a part of the images captured from t4 to t6 can be limited. Note that if the data captured from t3 to t4 is not burned at the end of transmission to the image storage server, the image captured after t4 may be transmitted to the image storage server.

  Returning to FIGS. 1 and 2, the deletion unit 115 deletes the image stored in the image storage unit 130. The timing for deleting the image may be determined based on the importance of the image stored in the image storage unit 130, the risk of burning, destruction, theft, or the like. Specifically, for example, the deletion unit 115 deletes the image stored in the image storage unit 130 when transmission of the image to the image storage server 200 ends. Further, for example, the deletion unit 115 stores the image stored in the image storage unit 130 when a predetermined time has elapsed since the start of image transmission to the image storage server 200 (even if the image transmission has not ended). Is deleted. For example, the deletion unit 115 deletes the image stored in the image storage unit 130 when the second intruder detection information is received after the transmission of the image to the image storage server 200 is started. The deletion unit 115 may delete the image stored in the image storage unit 130 by selectively using the above-described timing of deleting the image.

  On the other hand, when an abnormality occurs in the monitoring area by detecting the occurrence of a fire in the monitoring area and the fire detection information is received by the detection information receiving unit 113, the image stored in the image storage unit 130 is not deleted.

  The reason for deleting the image is that when the interval (predetermined time) at which the image recording apparatus 100 periodically transmits the image to the image storage server 200 is long, the image captured in the monitoring area includes privacy-related information and confidential information. There may be images containing. Therefore, if an image recording medium or the like on which the image is recorded is stolen by an intruder into the monitoring area, the image may flow out and cause unexpected secondary damage. Therefore, in the image recording apparatus 100 according to the present embodiment, when an intruder into the monitoring area is detected so that an image captured in the monitoring area does not flow out, the image stored in the image storage unit 130 is deleted. doing. On the other hand, if there is a fire in the monitoring area, there is no risk of the image being stolen, so the image is not erased.

  Next, an image storage method by the monitoring system configured as described above will be described. FIG. 5 is a flowchart showing a flow of an image storage method by the monitoring system in the first embodiment.

  First, the monitoring camera 101 and the monitoring camera 102 capture an image of the monitoring area (step S10). Next, the image receiving unit 111 receives an image of the monitoring area captured from the monitoring camera 101 and the monitoring camera 102 (step S11). The storage unit 112 stores the image received by the image reception unit 111 in the image storage unit 130 (step S12).

  Next, the transmission unit 114 determines whether or not a predetermined time has elapsed for periodically transmitting an image to the image storage server 200 (step S13). If the predetermined time has not elapsed (step S13: No), the transmission unit 114 does not transmit the image to the image storage server 200, and proceeds to step S15 to perform the next process. On the other hand, when the predetermined time has elapsed (step S13: Yes), the transmission unit 114 transmits the image stored in the image storage unit 130 to the image storage server 200 (step S14).

  Next, the transmission unit 114 determines whether or not the detection information is received by the detection information reception unit 113 (step S15). When detection information is not received (step S15: No), it returns to step S10 and repeats a process again. On the other hand, when the detection information is received (step S15: Yes), the transmission unit 114 lastly transmits the image that is periodically transmitted to the image storage server 200 and then stores the detection information before receiving the detection information. The image accumulated by the above is transmitted to the image accumulation server 200 (step S16).

  Next, it is determined whether or not the transmission of the image to the image storage server 200 has been completed (step S17). If the image transmission has not ended (step S17: No), the detection information receiving unit 113 further detects that an intruder has been detected in the vicinity of the installation location of the image storage unit 130 of the image recording apparatus 100 in the monitoring area. 2. It is determined whether or not intruder detection information has been received (step S18). When the second intruder detection information is received (step S18: Yes), the deletion unit 115 deletes the image stored in the image storage unit 130 (step S19). In step S17, if the image transmission has ended (step S17: Yes), the deletion unit 115 deletes the image stored in the image storage unit 130 (step S19).

  On the other hand, when the second intruder detection information is not accepted in step S18 (step S18: No), the process returns to step S16, and the transmission of the image to the image storage server 200 is continued.

  As described above, in the monitoring system according to the present embodiment, when the security device 150 detects an abnormality in the monitoring area, the image recording apparatus 100 detects an abnormality after the last image transmission to the image storage server 200. Since the image of the monitoring area that has been imaged until then is transmitted to the image storage server, it is possible to reduce the loss of the image captured since the image was last transmitted to the image storage server 200.

  In this embodiment, the image is deleted based on the completion of the image transmission in step S17. However, when the second intruder detection information is received after the image transmission is completed. It may be configured to delete the image. Further, after the detection information is received in step S15, when the security mode is switched to the security release state, the previous detection information is regarded as being due to a false alarm, and the image transmission to the image storage server 200 is interrupted and stored. It may be configured to end the image without deleting it.

(Embodiment 2)
The image recording apparatus according to the first embodiment stores sequentially received images when images captured by the monitoring camera are received, and stores images that are sequentially stored and accumulated when an abnormality occurs in the monitoring area. It was configured to send to the server. In contrast, in the present embodiment, when an image captured by the monitoring camera is received, the sequentially received image is stored, and an image to be transmitted when an abnormality occurs in the monitoring area is generated and stored. . When an abnormality occurs in the monitoring area, the generated image is transmitted to the image storage server.

  Since the configuration diagram showing the outline of the monitoring system is the same as that of the first embodiment, the description thereof is omitted (see FIG. 1). FIG. 6 is a block diagram of the configuration of the image recording apparatus and the image storage server according to the second embodiment. As shown in FIGS. 1 and 6, in the monitoring system, an image recording device 400, a security device 150, an image storage server 200, and a monitoring center 300 are connected via a network 50. Here, since the configurations and functions of the security device 150, the image storage server 200, the monitoring center 300, and the network 50 are the same as those in the first embodiment, description thereof will be omitted.

  Next, the image recording apparatus 400 will be described. The image recording apparatus 400 transmits an image obtained by capturing a monitoring area to a remote image storage server 200, and includes a monitoring camera 101, a monitoring camera 102, an image storage unit 130, an image receiving unit 111, It mainly includes a storage unit 412, a detection information receiving unit 113, a transmission unit 414, a deletion unit 415, and an image processing unit 416. Here, since the configurations and functions of the monitoring camera 101, the monitoring camera 102, the image storage unit 130, the image receiving unit 111, and the detection information receiving unit 113 are the same as those in the first embodiment, the description thereof is omitted.

  The image processing unit 416 captures the monitoring area by the monitoring camera 101 and the monitoring camera 102, and finally transmits the normal image periodically transmitted to the image storage server 200 from the image (normal image) received by the image receiving unit 111. When the detection information receiving unit 113 receives the detection information, an emergency image that is an image transmitted to the image storage server 200 is generated. In other words, when the detection information is received by the detection information receiving unit 113, the emergency stored from the last transmission of the normal image periodically transmitted to the image storage server 200 until the detection information is received. The image is transmitted by the transmission unit 414.

  Specifically, the image processing unit 416 generates, as an emergency image, an image having a capacity smaller than that of the normal image from the normal image received by the image receiving unit 111. For example, the image processing unit 416 generates an emergency image having a frame rate lower than the frame rate of the normal image by thinning out the frame of the normal image from the normal image that is a moving image. Specifically, when the normal image is a moving image including 10 frames per second, the image processing unit 416 extracts one frame from all 10 frames per second, and emergency of 1 frame per second. Generate an image. For example, the image processing unit 416 generates an emergency image having a smaller number of pixels than the number of pixels of the normal image from the normal image. Specifically, when the normal image has a resolution of 1024 × 768 pixels, the image processing unit 416 generates an emergency image having a resolution of 640 × 480 by thinning out the pixels of the resolution of the normal image. Further, the image processing unit 416 may generate an emergency image by thinning out frames of the normal image and further thinning out pixels having the resolution of the normal image.

  The storage unit 412 stores the normal image received by the image reception unit 111 and the emergency image generated by the image processing unit 416 in the image storage unit 130.

  The transmission unit 414 sequentially stores the normal image stored in the image storage unit 130 by the storage unit 412 and performs compression processing on the stored normal image. The transmission unit 414 periodically stores the normal image in the image storage server 200 at predetermined time intervals. To be sent. In addition, when the detection information reception unit 113 receives at least one of the first intruder detection information and the fire detection information from the security device 150, the transmission unit 414 receives the image storage unit from the storage unit 412. The emergency image stored in 130 is acquired from the image storage unit 130, and the acquired emergency image is transmitted to the image storage server 200. Note that the emergency images may be transmitted in the order in which they are stored, or may be transmitted retroactively from the latest image. In addition, when a plurality of cameras are installed, a priority order may be set in advance, and an image from a camera with a higher priority order may be transmitted.

  The deletion unit 415 deletes the normal image and the emergency image stored in the image storage unit 130. The timing for deleting an image may be determined based on the importance of the image stored in the image storage unit 130, the risk of burning, destruction, theft, etc., as in the case of the deletion unit 115. Specifically, for example, the deletion unit 415 deletes the normal image and the emergency image stored in the image storage unit 130 when the transmission of the emergency image to the image storage server 200 is completed. When the predetermined time has elapsed since the start of the transmission of the emergency image to the image storage server 200 (even if the image transmission has not ended), the unit 415 stores the normal image and the emergency image stored in the image storage unit 130. Delete the image. For example, when the deletion unit 415 receives the second intruder detection information after starting the transmission of the emergency image to the image storage server 200, the deletion unit 415 displays the normal image and the emergency image stored in the image storage unit 130. delete. The deletion unit 415 may delete the normal image and the emergency image stored in the image storage unit 130 by selectively using the above-described timing of deleting the image.

  On the other hand, when an abnormality occurs in the monitoring area by detecting the occurrence of a fire in the monitoring area and the fire detection information is received by the detection information receiving unit 113, the normal image and the emergency image stored in the image storage unit 130 Do not delete

  Here, in the image recording apparatus 400 according to the present embodiment, when the image processing unit 416 generates an emergency image with a frame rate lower than the frame rate of the normal image, for example, the normal image has 10 frames per second. In this case, an image file for only the first frame, an image file for only the second claim, ... an image file for only the tenth frame is generated as an emergency image, and the storage unit 412 stores the emergency image generated by the image processing unit 416. Also good. In this case, when receiving the detection information, the transmission unit 414 sequentially transmits image files that are those emergency images. The transmission order at this time may be the order of the first to tenth frames, or may be transmitted in the order of the first, fourth, seventh, tenth, third, sixth, ninth, second, fifth, and eighth frames. According to this method, an emergency image having a file size 1/10 that of a normal image is transmitted at the time of transmission, so that the transmission time can be shortened and an emergency image that can be transmitted within the time until the image is deleted can be transmitted. . When an image to be transmitted to the image storage server 200 can be divided into a plurality of files, the file may be deleted each time transmission of one file ends.

  Next, an image storage method by the monitoring system configured as described above will be described. FIG. 7 is a flowchart showing a flow of an image storage method by the monitoring system in the second embodiment.

  First, the monitoring camera 101 and the monitoring camera 102 capture an image of the monitoring area (step S30). Next, the image receiving unit 111 receives an image (normal image) obtained by capturing the monitoring area from the monitoring camera 101 and the monitoring camera 102 (step S31). The image processing unit 416 is an image after the last transmission of the normal image periodically transmitted to the image storage server 200 from the normal image received by the image reception unit 111, and the detection information reception unit 113 When the detection information is received, an emergency image transmitted to the image storage server 200 is generated (step S32). Then, the storage unit 412 stores the normal image received by the image reception unit 111 and the emergency image generated by the image processing unit 416 in the image storage unit 130 (step S33).

  Next, the transmission unit 414 determines whether or not a predetermined time has elapsed for periodically transmitting a normal image to the image storage server 200 (step S34). If the predetermined time has not elapsed (step S34: No), the transmission unit 414 does not transmit the normal image to the image storage server 200, and proceeds to step S36 to perform the next process. On the other hand, when the predetermined time has elapsed (step S34: Yes), the transmission unit 414 transmits the normal image stored in the image storage unit 130 to the image storage server 200 (step S35). Further, the emergency image stored in the image storage unit 130 becomes unnecessary when the normal image is transmitted to the image storage server 200, and therefore the emergency image is deleted.

  Next, the transmission unit 414 determines whether the detection information is received by the detection information reception unit 113 (step S36). When the detection information is not received (step S36: No), the process returns to step S30 and the process is repeated again. On the other hand, when the detection information is received (step S36: Yes), the transmission unit 414 lastly transmits the normal image that is periodically transmitted to the image storage server 200, and until the detection information is received, the storage unit 414 The urgent image stored in 412 is transmitted to the image storage server 200 (step S37).

  Next, it is determined whether or not the transmission of the emergency image to the image storage server 200 has been completed (step S38). If the transmission of the emergency image has not ended (step S38: No), the detection information receiving unit 113 further indicates that an intruder has been detected near the installation location of the image storage unit 130 of the image recording apparatus 100 in the monitoring area. It is determined whether the second intruder detection information has been received (step S39). When the second intruder detection information is received (step S39: Yes), the deletion unit 415 deletes the normal image and the emergency image stored in the image storage unit 130 (step S40). In step S38, if the transmission of the emergency image has been completed (step S38: Yes), the deletion unit 415 deletes the normal image and the emergency image stored in the image storage unit 130 (step S40).

  On the other hand, if the second intruder detection information is not accepted in step S39 (step S39: No), the process returns to step S37 and the transmission of the emergency image to the image storage server 200 is continued.

  In the image recording apparatus 400 of the present embodiment, in step S38, after the emergency image is transmitted and before the second intruder detection information is received, the normal image accumulated so far is stored in the image accumulation server 200. You may make it transmit. Further, since the emergency image is an image having a frame rate lower than that of the normal image or an image having a smaller number of pixels than that of the normal image, it is preferable to transmit the normal image having a larger amount of information to the image storage server as much as possible.

  As described above, in the monitoring system according to the present embodiment, when the security device 150 detects an abnormality in the monitoring area, the image recording apparatus 100 detects an abnormality after the last image transmission to the image storage server 200. Since the image of the monitoring area that has been imaged until then is transmitted to the image storage server, it is possible to reduce the loss of the image captured since the image was last transmitted to the image storage server 200. In addition, when the monitoring system according to the present embodiment detects an abnormality in the monitoring area, an emergency image having a capacity smaller than that of the normal image is transmitted. Therefore, an image in which the monitoring area is efficiently captured in a short time is transmitted. The image can be transmitted to the image storage server 200.

  In the above-described embodiment, when two intruder detection information of the first intruder detection information and the second intruder detection information is received, the image in the image storage unit 130 is erased. This is because the image is not erased when the intruder detection information is erroneous detection. Therefore, when the intruder detection sensor 151a installed near the entrance / exit of the monitoring area detects an intruder, the intruder detection sensor installed near the image recording apparatus 100 transmits an image to the image storage server 200. When 151b further detects an intruder, the image is erased. However, the present invention is not limited to this, and the image is deleted when the intruder detection sensor 151a installed near the entrance / exit of the monitoring area receives one intruder detection information as a result of detecting the intruder. It is good. The intruder detection sensors 151a and 151b may be configured to delete images when intruder detection information is received three or more times. In this embodiment, two intruder detection sensors are provided, but one or three or more intruder detection sensors may be provided. Further, after the detection information is received, when the security mode is switched to the security release state, the previous detection information is considered to be due to a false alarm, and the transmission of the image to the image storage server 200 is interrupted, and the image storage unit The normal image and the emergency image stored in 130 may be deleted without being deleted.

  In the above-described embodiment, the image recording devices 100 and 400 and the security device 150 are described as individually provided. However, the image recording devices 100 and 400 and the security device 150 may be configured as an integrated device. In the above-described embodiment, the image storage server 200 and the monitoring center 300 are described as separately provided. However, these may be provided in the same facility.

  In the above-described embodiment, the communication line that transmits an image from the image recording apparatuses 100 and 400 to the image storage server 200 and the communication line that transmits an alarm from the security apparatus 150 to the monitoring center 300 are used as a common line. Although the configuration has been described, both communication lines may be divided and individual lines may be used.

  Further, in the present embodiment, it relates to an image obtained by imaging a monitoring area. However, in terms of data backup (accumulation) and countermeasures against information leakage in data, a server or PC storing important data is used. It can also be applied to (personal computer). In other words, the server or PC in which customer information and confidential data are stored also needs to be backed up (accumulated) so that the data is not lost, and measures are taken to prevent the confidential information from being carried away along with the storage medium. By applying the concept of form, data can be saved to a remote server or deleted so that it is not stolen.

1 is a configuration diagram illustrating an overview of a monitoring system according to a first embodiment; 1 is a block diagram illustrating a configuration of an image recording apparatus and an image storage server according to a first embodiment. It is explanatory drawing which shows transmission of the image to the image storage server by the conventional image recording apparatus. 6 is an explanatory diagram illustrating transmission of an image to an image storage server by the image recording apparatus according to the first embodiment. FIG. 3 is a flowchart showing a flow of an image storage method by the monitoring system in the first embodiment. FIG. 3 is a block diagram illustrating a configuration of an image recording apparatus and an image storage server according to a second embodiment. 10 is a flowchart illustrating a flow of an image storage method by the monitoring system in the second embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 50 Network 100,400 Image recording device 101,102 Monitoring camera 111 Image reception part 112, 412 Storage part 113 Detection information reception part 114,414 Transmission part 115,415 Deletion part 416 Image processing part 130 Image storage part 150 Security | security apparatus 151a, 151b Intruder detection sensor 152 Fire detection sensor 200 Image storage server 211 Receiving unit 220 Image storage unit 300 Monitoring center

Claims (12)

In an image recording device connected via a network to a server device that stores images,
Image storage means;
Storage means for sequentially storing images captured by the imaging means for capturing the monitoring area in the image storage means;
Detection information receiving means for receiving detection information indicating that an abnormality has been detected in the monitoring area, from detection means installed in the monitoring area;
The images stored in the image storage means are transmitted to the server device every predetermined time, and when the detection information receiving means receives the detection information, the images stored in the image storage means are Transmitting means for transmitting an image accumulated in the image accumulating means to the server apparatus between the last transmission to the server apparatus and the reception of the detection information;
An image recording apparatus comprising:   The detection information is information including at least one of intruder detection information indicating that an intruder has been detected in the monitoring area and fire detection information indicating that a fire has been detected in the monitoring area. The image recording apparatus according to claim 1. The detection information when the reception unit receives the intruder detection information, an image recording apparatus according to claim 2, wherein the obtaining further Bei deleting means for deleting the stored image in the image storage means. The deleting means transmits the image accumulated in the image accumulating means until the intruder detection information is received after the transmitting means last transmits the image accumulated in the image accumulating means to the server device. 4. The image recording apparatus according to claim 3 , wherein when the operation of transmitting to the apparatus is completed, the image stored in the image storage unit is deleted. The deleting means transmits the image accumulated in the image accumulating means until the intruder detection information is received after the transmitting means last transmits the image accumulated in the image accumulating means to the server device. predetermined time has elapsed since the start of the operation that sends device then, the image recording apparatus according to claim 3, characterized in that to remove the stored image in the image storage means. The deletion unit, the claims in the case of receiving said intruder detection information from the detection means in the vicinity of the installation location of the previous SL image storage unit, and deletes the stored image in the image storage unit 4. The image recording apparatus according to 3 . Further comprising an image processing means for generating a normal image or al emergency image is an image captured by the imaging means,
The storage means stores the said normal image and the previous SL emergency image on the image storage means,
The transmission means transmits the normal image stored in the image storage means to the server device every predetermined time, and further, when the detection information reception means receives the detection information, the image storage means The emergency image stored in the image storage means is transmitted to the server device after the normal image stored in the server is last transmitted to the server device and before the detection information is received. The image recording apparatus according to claim 1.   The image recording apparatus according to claim 7, wherein the image processing unit generates the emergency image having a capacity smaller than that of the normal image from the normal image. The normal image is a moving image,
The image recording apparatus according to claim 8, wherein the image processing unit generates the emergency image having a frame rate smaller than a frame rate of the normal image from the normal image.   The image recording apparatus according to claim 8, wherein the image processing unit generates the emergency image having a smaller number of pixels than the number of pixels of the normal image from the normal image. In an image storage method executed in an image recording device connected via a server device network for storing images,
The image recording apparatus includes image storage means,
A storage step in which a storage unit sequentially stores images captured by the imaging unit that images the monitoring area in the image storage unit;
A detection information receiving step for receiving detection information indicating that an abnormality has been detected in the monitoring area from a detection means installed in the monitoring area;
The transmission unit transmits the images sequentially stored in the image storage unit to the server device at predetermined time intervals, and further stores in the image storage unit when the detection information reception unit receives the detection information. A transmission step of transmitting, to the server device, an image stored in the image storage unit from when the image was last transmitted to the server device until the detection information is received;
An image storage method comprising: In a monitoring system comprising a server device that stores images, and an image recording device that is connected to the server device via a network and records images,
The image recording apparatus includes:
First image storage means;
A storage unit that sequentially stores images captured by the imaging unit that captures the monitoring area in the first image storage unit;
Detection information receiving means for receiving detection information indicating that an abnormality has been detected in the monitoring area, from detection means installed in the monitoring area;
Images sequentially stored in the first image storage unit are transmitted to the server device at predetermined time intervals, and further, stored in the image storage unit when the detection information reception unit receives the detection information . Transmission means for transmitting the image stored in the first image storage means to the server apparatus from when the image was last transmitted to the server apparatus until the detection information is received,
The server device
Second image storage means for storing the image transmitted from the image recording device;
Receiving means for receiving the image from the image recording device and storing it in the second image storage means;
A monitoring system comprising:

Images