JP2021177395A - Monitoring terminal - Google Patents

Abstract

To provide a monitoring terminal which allows for appropriately responding to abnormal conditions.SOLUTION: The monitoring terminal of the present invention comprises: an image capturing unit configured to capture an image including a facility; a display unit for displaying the image captured by the image capturing unit; a specified response information database storing specified response information representing predetermined responses for the facility shot by the image capturing unit; and a determination unit configured to determine the condition of the facility according to the image and the specified response information.SELECTED DRAWING: Figure 1

Description

According to the present invention, in a monitoring system for facilities such as rivers, dams, and plants in a wide area, when a facility equipped with a measuring unit or an alarm unit for measuring water level, electric energy, etc. shows an abnormality, a procedure for dealing with the abnormal state is shown. It relates to a monitoring system and a terminal for monitoring having an AR function superimposed on the display.

In a conventional monitoring system, when equipment equipped with a water amount or power measurement unit or alarm unit indicates an abnormality, the person in charge at the site captures the abnormal condition with the camera of the terminal and stores the captured equipment image in the database. There was a system for superimposing and displaying the operated procedure (Patent Document 1).

Japanese Unexamined Patent Publication No. 2016-99757 (see abstract, etc.)

However, in the configuration of Patent Document 1, when there is an operation procedure stored in the database, the person in charge at the site may operate the buttons and valves of various facilities based on the operation procedure, but the operation procedure corresponding to the abnormal state is stored in the database. If this is not the case, it may not be possible to take immediate action in the event of an abnormality, and even if the abnormal state is the same, if the cause is different, it may not be possible to take sufficient measures. As a result, there have been problems such as the abnormal state becoming worse or the abnormal state continuing for a long time.

Therefore, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to enable appropriate measures to be taken.

The monitoring terminal according to the present invention has a photographing unit that captures an image including equipment, a display unit that displays an image captured by the photographing unit, and a prescribed correspondence that is a default correspondence of the equipment photographed by the photographing unit. It is characterized by including a regulation correspondence information database for storing information and a determination unit for specifying the state of the equipment based on a video and the regulation correspondence information.
Further, the monitoring terminal according to the present invention is a default correspondence between a photographing unit that captures an image including equipment, a display unit that displays an image captured by the photographing unit, and equipment that is photographed by the photographing unit. It is characterized by having a regulation compliance information database that stores regulation compliance information and a judgment unit that checks whether the regulation compliance information corresponding to the video exists in the regulation compliance information database and identifies the state of the equipment based on the video. And.
Further, the monitoring terminal according to the present invention is a default correspondence between a photographing unit that captures an image including equipment, a display unit that displays an image captured by the photographing unit, and equipment that is photographed by the photographing unit. It is characterized by having a regulation compliance information database that stores regulation compliance information and a determination unit that identifies the state of equipment based on images and confirms whether or not the regulation compliance information exists in the regulation compliance information database.
Further, the monitoring terminal according to the present invention is a default correspondence between a photographing unit that captures an image including equipment, a display unit that displays an image captured by the photographing unit, and equipment that is photographed by the photographing unit. It is characterized by including a regulation compliance information database that stores regulation compliance information and a determination unit that identifies the type of the equipment based on an image and confirms whether or not the regulation compliance information exists in the regulation compliance information database.

The monitoring terminal of the present invention enables an appropriate response.

It is a block diagram which shows the monitoring system and equipment which concerns on Embodiment 1. FIG. It is a block diagram which shows the monitoring system and equipment which concerns on Embodiment 1. FIG. It is a block diagram which shows the content of the regulation correspondence information database which concerns on Embodiment 1. It is a figure which shows the operation flow of the terminal and the apparatus which concerns on Embodiment 1. FIG. It is a figure which shows the screen configuration example of the terminal which concerns on Embodiment 1, and the apparatus which shares an image with a terminal. It is a block diagram which shows the monitoring system and equipment which concerns on modification 1a of Embodiment 1. FIG. It is a figure which shows the screen composition example of the monitoring system which visualizes and displays the state inside the equipment which concerns on Embodiment 2. FIG. It is a block diagram of the monitoring system which displays correspondence information for changing the value of the measurement target of equipment to a desired value on the terminal which concerns on Embodiment 3. FIG. It is a block diagram which shows the content of the regulation correspondence information database which concerns on Embodiment 3. It is a figure which shows the screen configuration example which displays the correspondence information for changing the value of the measurement target of the equipment to a desired value on the terminal which concerns on Embodiment 3. FIG. It is a figure which shows the screen configuration example of the system which selectively displays a plurality of kinds of measurement results which concerns on Embodiment 4. FIG. It is a figure which shows the configuration example of the system which concerns on Embodiment 5. FIG. 5 is a block diagram showing a configuration for calling a remote control unit performed on equipment by the device according to the sixth embodiment on a terminal. It is a figure which shows the screen configuration example when the remote control part which concerns on Embodiment 6 is called on a terminal.

Hereinafter, the monitoring system according to the embodiment of the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment. Further, the same components and members in each embodiment are designated by the same reference numerals and the description thereof will be omitted.

Embodiment 1.
The monitoring system 1 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 5. The first embodiment is characterized in that an image taken at a site with equipment is shared on a screen of a device located at a position away from the site, and the device side describes correspondence information for the equipment on the image.

FIG. 1 is a block diagram showing a monitoring system and equipment according to the first embodiment. The monitoring system 1 is a monitoring system for equipment 100 that manages facilities such as rivers, dams, and plants in a wide area, and is a monitoring terminal 2 that displays a procedure for dealing with the equipment 100, and a device 10 that can communicate with the terminal 2. And is included. The terminal 2 has a first display having a photographing unit 3 capable of photographing the surroundings with a camera or the like, a first communication unit 4 as a communication unit capable of communicating with the device 10, and a display for displaying an image photographed by the photographing unit 3. A unit 5 and a first superimposed display unit 6 that superimposes and displays the correspondence information 6a (correspondence message for the equipment 100, see FIG. 2) sent from the device 10 on the first display unit 5.

Further, the device 10 is installed in a center or the like away from the equipment 100, and has a remote operation unit 11 that remotely operates the equipment 100 and a regulation correspondence information database 12 that stores a regulation correspondence procedure for the equipment 100. The input unit 13 (first input unit) such as a keyboard and mouse for editing the information in the regulation correspondence information database 12 and creating the information sent by the user to the terminal 2, and the first terminal 2. The second communication unit 14 that communicates with the communication unit 4, the second display unit 15 that displays the image 3a (see FIG. 2) from the photographing unit 3 sent from the terminal 2, and the image displayed on the second display unit 15. The second superimposed display unit 16 that superimposes and displays the information input by the input unit 13 on 3a, and the image determination unit 17 that determines the type of the equipment 100 and the state of the equipment 100 from the images captured by the photographing unit 3. And have. It should be noted that the regulation correspondence information database 12 and the image determination unit 17 may be stored in the equipment 100 itself or the terminal 2 instead of in the device 10 and processed in the same manner as the above-described processing in the device 10. good.

Further, the facility 100 determines whether or not the determination unit 102 is a normal value based on the measurement result (measured value) of the measurement unit 101 that measures the amount of water, power, gas concentration, temperature, etc. of the facility. However, if the measured value is abnormal, the alarm unit 103 issues an alarm assuming that the condition of the facility is abnormal, and the button, valve, and operation panel for receiving the alarm from the alarm unit 103 and performing processing on the facility. The third communication unit for communicating with the operation unit 104 such as, and any of the first communication unit 4 and the second communication unit 14 in the facility 100 and the monitoring system 1, or the first communication unit 4 and the second communication unit 14. It is equipped with 105.

The configuration of the monitoring system 1 and the equipment 100 will be clarified with reference to FIG. In the storage tank 100a as the equipment 100, water 106a as the object to be measured 106 of the measuring unit 101 is stored. Then, how much water is stored is measured by an ultrasonic sensor 101a as a measuring unit 101 provided in the storage tank 100a. As a result of measurement by the ultrasonic sensor 101a, when it is considered that the amount of water 106a to be measured is less than the normal range, the alarm lamp 103a in the area surrounded by the broken line is turned on as the alarm unit 103. .. In response to this, a field worker or the like operates the operation unit 104 including the operation buttons to open and close the valve 104a, and it is possible to allow water to flow in from the outside so that the storage amount is within the normal range. Is.

The configuration of the terminal 2 and the device 10 will be described. Normally, the administrator on the center side operates the remote control unit 11 based on the image 3a based on the information from a sensor (not shown) provided near the storage tank 100a, but the storage tank 100a If the operation can only be performed at the site where it is provided, or if the operation can be performed more reliably at the site, taking into account the surrounding environment, etc., a worker is dispatched to the site to perform the operation at the site. The operation for the storage tank 100a may be performed. Therefore, the image 3a relating to the storage tank 100a taken by the photographing unit 3 (see FIG. 1) when the worker grips the terminal 2 or fixes it on a tripod or the like at the site is the first display unit 5 of the terminal 2 and the device. In the second superimposed display unit 16 of the device 10 on the center side, the images 3a on the second display unit 15 are displayed together on the second display unit 15 of the 10 as the correspondence information 6a for the storage tank 100a. , Information is sent to the terminal 2 by describing the operation method regarding the operation unit 104, and the corresponding information 6a can be displayed on the first superimposed display unit 6 of the terminal 2. Based on the correspondence information 6a, the user can appropriately operate the operation unit 104.

Next, the structure of the regulation correspondence information database 12 will be described with reference to FIG. In the regulation correspondence information database 12, the equipment name 12a, the alarm type 12b, the regulation correspondence information 12c in which the correspondence information 6a of how to respond is specified, the cause 12d of the alarm, and the cumulative number of alarms of the same type are accumulated. It is configured to include the cumulative number of occurrences 12e and the memo 12f at the time of past correspondence.

Next, the operation flow of the monitoring system will be described with reference to FIGS. 1 to 3 as appropriate, with reference to FIG. 4. First, usually, the terminal 2 is taken out and the equipment 100 (storage tank 100a) is photographed by receiving the alarm of the alarm lamp 103a or by the instruction from the center where the device 10 is located (step ST1). Then, the captured video 3a is transmitted from the terminal 2 to the device 10 via the first communication unit 4 (step ST2).

After that, the device 10 receives the video 3a via the second communication unit 14 (step ST3), and based on the received video 3a, the image determination unit 17 having functions such as pattern matching and character recognition makes the equipment 100 Specify the type and state (step ST4). If there is information that matches the equipment name 12a and the alarm type 12b as the specific result, it is confirmed whether or not the regulation correspondence information 12c exists (step ST5), and the data is temporarily stored in the regulation correspondence information database 12. In this case, the data is called and the message of the regulation correspondence information 12c is automatically pasted as in the second superimposed display unit 16 of FIG. 2, or the administrator who operates the device 10 manually pastes the message in the same manner. In this way, the regulation correspondence information 12c superimposed on the video 3a is transmitted to the terminal 2 (step ST6).

On the other hand, in step ST5, when the regulation correspondence information 12c corresponding to the specific result of the equipment or state in step ST4 does not exist in the regulation correspondence information database 12, the equipment displayed on the second display unit 15 of the apparatus 10 Correspondence information 6a of how to correspond to the image 3a of 100 is input by the input unit 13, and is superimposed and displayed by using the second superimposition display unit 16 (step ST7). Then, the correspondence information 6a superimposed on the video 3a is transmitted to the terminal 2 (step ST8).

The terminal 2 receives the regulation correspondence information 12c or the correspondence information 6a transmitted in step ST6 or step ST8 (step ST9). Then, the received information is superimposed on the first display unit 5 as the first superimposed display unit 6 (step ST10). The result is as shown in FIG. 2, but in order to explain it more easily, FIG. 5 shows an example of the screen configuration of the monitoring system 1.

FIG. 5 is an enlarged display of the terminal 2 and the device 10 in FIG. Here, the storage tank 100a visible in the first display unit 5 and the second display unit 15 is displayed in parentheses as (100a) for reference. In the device 10, in addition to the image display area 15a for displaying the image 3a as the first display unit 5, additional information such as the current water level and what the storage tank 100a should be as information that the terminal 2 does not have. It includes a detailed information display area 15b for displaying information. Although detailed information may be displayed on the terminal 2, since the screen size of the terminal 2 is small and it is prioritized to display the operation procedure for the storage tank 100a at the site in an easy-to-understand manner, the detailed information is usually displayed. Is set to be displayed only on the device 10. However, if it is desired to display the detailed information on the terminal 2 side, the display ON / OFF mode of the detailed information may be provided and switched.

When the image 3a of the storage tank 100a is displayed on the second display unit 15 of the device 10 and the corresponding information 6a is described on the second superimposed display unit 16, the terminal 2 at the site is fixed to a tripod, a wall, or the like. If so, the image 3a of the storage tank 100a is not blurred, so that the operation unit 104 in the storage tank 100a displayed in the second display unit 15 and the corresponding information 6a of the second superimposed display unit 16 are appropriately linked. Be done. On the other hand, when the user grips the terminal 2, the image 3a of the storage tank 100a is blurred. Therefore, the terminal 2 is provided with an image stabilization function (not shown), or the image determination unit 17 of the device 10 is used to display the image 3a of the storage tank 100a. A still image of the storage tank 100a is cut out, the correspondence information 6a is attached to the image, the image is matched again with the image 3a of the storage tank 100a, and the image is processed as the image 3a with the correspondence information 6a. Is preferable.

In this way, by photographing the equipment 100 at the site and sending the photographed image 3a to the device 10 in the center away from the site, the equipment name 12a and the alarm type 12b corresponding to the regulation correspondence information database 12 are tentatively sent. Even when the regulation correspondence information 12c corresponding to the above is not stored, the administrator on the center side can write the correspondence information 6a on the video 3a and send it, so that the on-site worker can take an appropriate response to the equipment 100. It becomes possible to take. The images displayed on the terminal 2 and the device 10 are basically the same, and for the sake of brevity, one of them may be taken as a representative in the figure, but the same one exists on the other. Needless to say. The same applies to other embodiments.

Modification 1a.
FIG. 6 shows the configuration of this modified example. In the first embodiment, the terminal 2 has photographed the equipment 100 (storage tank 100a), but the terminal 2 and the terminal 2 and the terminal 2 and the terminal 2 are photographed by using a camera 107 fixed to a tripod or the like via a relay device 108 that can be connected to the camera 107. The device 10 may share the image of the equipment 100. In this case, the stable image 3a of the equipment 100 can be obtained, and the first superimposed display unit 6 and the first superimposed display unit 6 and the image 3a are in a state where the relationship between the correspondence information 6a or the regulation correspondence information 12c instructed by the device 10 and the image 3a can be easily seen. It can be shared by the second superimposed display unit 16.

Embodiment 2.
The monitoring system 1 according to the second embodiment of the present invention will be described with reference to FIG. The second embodiment is characterized in that the internal state of the equipment 100 at the site is superimposed and displayed on the image 3a of the equipment 100 based on the measurement result by the measuring unit 101.

In FIG. 7, the first superimposed display unit 6 and the second superimposed display unit 16 store the state of the water 106a to be measured with respect to the image 3a of the first display unit 5 and the second display unit 15. It represents a state in which the perspective information 6b is superimposed and displayed so as to see through the inside of the 100a. That is, to what level the water 106a in the storage tank 100a is filled is shown in black in the figure. For example, if the water level of water 106a rises from the state of FIG. 6, this black-painted area also becomes a black-painted state to the upper side, and conversely, if the water level of water 106a falls from the state of FIG. 6, this black-painted area becomes lower. Is painted black.

In this way, since the first superimposed display unit 6 and the second superimposed display unit 16 display the internal state of the equipment 100 as fluoroscopic information 6b based on the measurement result of the measurement unit 101 with respect to the object to be measured, the first superimposed display unit By looking at 6, when the on-site worker operates the operation unit 104, the work can be performed with peace of mind while checking the change in the internal state of the equipment 100, and the work water level can be monitored. Further, by looking at the second superimposed display unit 16, the problem occurring in the equipment 100 becomes clearer, and the center manager can instruct more appropriate response information 6a or attach the response information 6a more quickly. It has the effect of making it possible to do so.

It should be noted that it is not a system that communicates with each other between the terminal 2 and the device 10, but it is a monitoring system only for the terminal 2, or there is a communication failure and it is necessary to deal with the equipment 100 only with the terminal 2. Even if there is, by being able to visually grasp the internal state of the equipment 100, it is possible to operate the operation unit 104 as a more appropriate response as compared with the case where the internal state is displayed only by a numerical value.

Further, only one of the first superimposed display unit 6 or the second superimposed display unit 16 may superimpose the fluoroscopic information 6b on the image 3a of the first display unit 5 or the second display unit 15. Even in this case, one of the above-mentioned effects can be obtained.

When the object to be measured 106 is a temperature, the color of the fluoroscopic information is changed according to the temperature distribution. For example, the high temperature is displayed in red and the low temperature is displayed in blue, or when the object to be measured 106 is a gas, the concentration is changed. It may be dark in dark areas and light in light areas. In this way, by providing appropriate fluoroscopic information 6b according to the nature of the object to be measured 106, it is possible to clearly grasp the situation of the object to be measured 106.

Embodiment 3.
The monitoring system 1 according to the third embodiment of the present invention will be described with reference to FIGS. 8 to 10. The third embodiment is characterized in that the user sets an adjustment value as a preferable value for the fluoroscopic information 6b shown in the second embodiment and displays an operation procedure for making the set value.

FIG. 8 is a block diagram showing the configuration of the third embodiment. The new configuration in the third embodiment is an input unit 7 (second input unit) and a calculation unit 18 shown in a thick frame. The input unit 7 assumes an input by a user holding the terminal 2, and is changed as a desired state 6c (see FIG. 10) in which the water level of the water 106a is desired to be displaced by, for example, sliding with the finger of the fluoroscopic information 6b. It is possible to move to the water level. Further, the calculation unit 18 receives the input of the input unit 7 and calculates the difference from the current state to the desired state 6c, which is the measurement result of the measurement unit 101.

FIG. 9 shows the regulation correspondence information database 112 in this embodiment. The difference from the regulation correspondence information database of the first embodiment is that the item of the purpose 12g exists, and this describes how much the object 106 to be measured is changed as the purpose 12g, and what kind of correspondence is taken. Whether it is necessary or not is described as the regulation correspondence information 12c. The calculation unit 18 asks whether the purpose of the process suitable for eliminating the above-mentioned difference is described, and if the matching purpose exists in the regulation correspondence information database 112, the regulation correspondence information 12c for the purpose is provided. Similar to the calling and the first and second embodiments, the specified correspondence information is configured to be displayed on the first superimposed display unit 6 and the second superimposed display unit 16. If there is no matching purpose, the administrator on the center side looks at the difference obtained by the calculation unit 18, and gives an appropriate instruction via the second superimposed display unit 16.

FIG. 10 shows a situation in which the user operates the fluoroscopic information 6b with a finger on the first superimposed display unit 6 to mutate the water level of the water 106a to the desired state 6c. First, the first superimposed display unit 6 and the second superimposed display unit 16 indicate as detailed information 6d that the appropriate water level is 4 meters or more (hereinafter, referred to as 4M or the like in the drawings). Then, as the displacement information 6e, the current water level in the current state and the changed water level in the desired state 6c are displayed on the first superimposed display unit 6 and the second superimposed display unit 16.

In this way, what kind of operation should be performed on the operation unit 104 simply by designating the desired state 6c on the terminal 2 while checking the fluoroscopic information 6b and the detailed information 6d of the object to be measured 106. Therefore, for example, it is possible to visually determine how much water should be filled in the storage tank 100a, and more comprehensively, such as considering the balance between the maintenance of the function performed by the storage tank 100a and the related cost. It has the effect of making it easier to make good decisions.

Although the input unit 7 is provided in the terminal and the desired state 6c is set on the terminal side, the same work may be performed on the device 10 side via the input unit 13. Further, although the calculation unit 18 is provided on the device 10 side, the terminal 2 side may have a function corresponding to the calculation unit 18. Even in this way, the same thing as described above can be performed. Further, when the correspondence information 6a for the storage tank 100a for filling the difference obtained by the calculation unit 18 or the regulation correspondence information 12c is displayed even if only one of them is displayed, neither is performed. Compared to this, it is possible to improve work efficiency because it can be operated intuitively.

Embodiment 4.
The monitoring system 1 according to the fourth embodiment of the present invention will be described with reference to FIG. The fourth embodiment is characterized in that a plurality of measuring units 101 are provided so that the fluoroscopic information 6b described in the second embodiment can be selectively displayed.

FIG. 11 shows that the measuring unit 101 is provided with a plurality of measuring devices, and is provided with a water temperature gauge 101b in addition to the ultrasonic sensor 101a. In this case, on the terminal 2 or the device 10, which measuring device result is to be displayed can be selected as the measuring device selection unit 6f in the first superimposed display unit 6 and the second superimposed display unit 16.

The measuring device selection unit 6f is selected so that the water level and the water temperature are displayed. As a result, both of them are displayed on the first superimposed display unit 6 and the second superimposed display unit 16, specifically, the water level is displayed as the fluoroscopic information 6b, and the color of the fluoroscopic information 6b is displayed darker. It is possible to display the high temperature water area 6b1 and the low temperature water area 6b2 whose color is displayed lightly.

By displaying the measurement results of a plurality of measuring devices in a selectable manner in this way, it is possible to send an instruction to the terminal 2 at the site with more appropriate correspondence information 6a, and the terminal 2 can also be used at the site. By looking at the perspective information 6b of the above, the result of the operation on the operation unit 104 can be confirmed, the transition of the state can be monitored, and if there is an abnormality as a result of the operation, it can be detected early and quickly. It is also possible to take measures again. Even when such a measuring device selection unit 6f exists only in one of the terminal 2 or the device 10, one of the above-mentioned effects can be obtained, and the display is compared with the case where the measuring device selection unit 6f is not provided. You can have a lot of information to do.

Embodiment 5.
The monitoring system 1 according to the fifth embodiment of the present invention will be described with reference to FIG. The fifth embodiment is characterized in that the status of the equipment 100 can be input from the terminal 2.

FIG. 12 shows a configuration in which the user can input what he / she has noticed, such as the state of the storage tank 100a, by the input unit 7 shown in FIG. 8 at the site where the storage tank 100a is located. With this configuration, detailed information about the storage tank 100a can be shared with the device 10, for example, when an abnormality is noticed as a result of performing another inspection, for example, a tapping sound inspection, which cannot be understood by the ultrasonic sensor 101a.

In this way, the on-site awareness is input by the input unit 7 and shared with the device 10, so that the administrator or the like using the device 10 transmits more appropriate correspondence information 6a to the on-site terminal 2. Has the effect that makes it possible.

Embodiment 6.
The monitoring system 1 according to the sixth embodiment of the present invention will be described with reference to FIGS. 13 and 14. The sixth embodiment is characterized in that the terminal 2 has a function of executing a special operation performed by the device 10.

FIG. 13 is a block diagram showing the configuration of the sixth embodiment. The new configuration in the sixth embodiment is the function calling unit 8 shown in a thick frame. The function calling unit 8 simulates and executes a function similar to that of the remote control unit 11 on the terminal 2 so that the operation of the remote control unit 11 in the device 10 is performed by the terminal 2, or the remote control unit 11 is executed. It is operated remotely.

In FIG. 14, the function calling unit 8 calls the virtual remote control unit 111, which simulates the remote control unit 11, on the first display unit 5. Specifically, the virtual remote control unit 111 can be called by acquiring the management authority in the management authority selection unit 6h. After that, it is possible to perform operations that cannot be performed by the operation unit 104, and it is possible to improve the degree of freedom of work in the field. For example, it is particularly effective when the manager who has given an instruction from the device 10 goes to the site and the manager responds to the storage tank 100a at the site.

In the present invention, each embodiment can be freely combined within the scope of the invention, and each embodiment can be appropriately modified or omitted.

1 Surveillance system, 2 terminals, 3 shooting unit, 3a video, 4 communication unit (1st communication unit), 5 1st display unit, 6 1st superimposed display unit, 6a correspondence information, 6b perspective information, 6c desired state, 6d Detailed information, 6e displacement information, 6f measuring device selection section, 6g, 6h management authority selection section, 7 input section (second input section), 8 function call section, 10 devices, 11 remote control section, 12 regulation correspondence information database, 12c Regulation compliance information, 13 Input section (2nd input section), 15 2nd display section, 16 2nd superimposition display section, 100 equipment, 100a storage tank, 101 measurement section, 101a ultrasonic sensor, 101b water temperature gauge, 104 operations Unit, 104a valve, 106 Target to be measured, 106a water, 111 virtual remote control unit, 112 regulation compliance information database.

Claims (6)

The shooting department that shoots images including equipment,
A display unit that displays the image captured by the photographing unit, and a display unit that displays the image.
A regulation compliance information database that stores the regulation compliance information that is the default correspondence of the equipment photographed by the photographing unit, and
A monitoring terminal for monitoring equipment including a determination unit that identifies the state of the equipment based on the video and the specified correspondence information. The shooting department that shoots images including equipment,
A display unit that displays the image captured by the photographing unit, and a display unit that displays the image.
A regulation compliance information database that stores the regulation compliance information that is the default correspondence of the equipment photographed by the photographing unit, and
A monitoring terminal that monitors equipment equipped with a determination unit that confirms whether or not the regulation compliance information corresponding to the video exists in the regulation compliance information database and identifies the state of the equipment based on the video. The shooting department that shoots images including equipment,
A display unit that displays the image captured by the photographing unit, and a display unit that displays the image.
A regulation compliance information database that stores the regulation compliance information that is the default correspondence of the equipment photographed by the photographing unit, and
A monitoring terminal that monitors equipment with a determination unit that identifies the state of the equipment based on the video and confirms whether or not the specified compliance information exists in the specified compliance information database. The shooting department that shoots images including equipment,
A display unit that displays the image captured by the photographing unit, and a display unit that displays the image.
A regulation compliance information database that stores the regulation compliance information that is the default correspondence of the equipment photographed by the photographing unit, and
A monitoring terminal that monitors equipment with a determination unit that identifies the type of equipment based on the video and confirms whether or not the specified compliance information exists in the specified compliance information database. The determination unit confirms whether or not the regulation correspondence information corresponding to the video exists in the regulation correspondence information database, and confirms whether or not the regulation correspondence information corresponding to the video exists.
When the display unit has the regulation correspondence information corresponding to the video in the regulation correspondence information database, the display unit displays the regulation correspondence information corresponding to the video together with the video, and corresponds to the video in the regulation correspondence information database. The monitoring terminal according to claim 1, which displays correspondence information on how to respond together with the video when there is no regulation correspondence information. When the display unit has the regulation correspondence information corresponding to the video in the regulation correspondence information database, the display unit displays the regulation correspondence information corresponding to the video together with the video, and corresponds to the video in the regulation correspondence information database. The monitoring terminal according to any one of claims 2 to 4, which displays the correspondence information on how to respond together with the video when there is no regulation correspondence information.

Images