JP2018169649A - Monitoring system and terminal for monitoring - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to properly deal with an abnormal event regardless of what kind of abnormal state a facility is in.SOLUTION: A monitoring system 1 according to the present invention includes a terminal 2 having a photographing unit 3 and a first display unit 5, an apparatus 10 having a second display unit 15 connected to the terminal 2. The terminal 2 includes a communication unit 4 for sending a video 3a including a facility 100 photographed by the photographing unit 3 to the apparatus 10 for displaying the video 3a on the second display unit 15 and receiving corresponding information 6a regarding the video 3a that is inputted to the video 3a on the second display unit 15, and a first superposing display unit 6 for displaying the corresponding information 6a on the first display unit 5. The apparatus 10 includes a second superposing display unit 16 for superposing the corresponding information 6a to the video 3a on the second display unit 15.SELECTED DRAWING: Figure 1

Description

  In the monitoring system for facilities such as rivers, dams, and plants in a wide area, the present invention provides a video image of a response procedure corresponding to an abnormal condition when equipment equipped with a measurement unit or an alarm unit related to water level, electric energy, etc. shows an abnormality. The present invention relates to a monitoring system having an AR function superimposed on and a monitoring terminal.

  In a conventional monitoring system, when equipment equipped with a measurement unit or alarm unit for water volume and power shows an abnormality, the person in charge of the field takes an abnormal state with the camera of the terminal and stores the captured equipment image in a database. There has been a system that displays the operation procedure superimposed (Patent Document 1).

JP-A-2016-99757 (see abstract, etc.)

  However, in the configuration of Patent Document 1, if there is an operation procedure stored in the database, the person in charge of the site may operate 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 it is not done, it is not possible to immediately respond to an abnormality, and even if the abnormal state is the same, if the cause is different, it may not be sufficient. As a result, there existed problems such as an abnormal state becoming worse or an abnormal state lasting for a long time.

  Therefore, the present invention has been made to solve the above-described problems, and it is an object of the present invention to appropriately cope with an abnormal situation regardless of any abnormal state of equipment.

  A monitoring system according to the present invention includes a terminal having a photographing unit and a first display unit, and a device having a second display unit connected to the terminal, and the terminal includes an image including equipment photographed by the photographing unit. For transmitting the video to the apparatus for displaying the video on the second display unit, and receiving correspondence information regarding the video input to the video on the second display unit, and the correspondence information on the first display unit The apparatus includes a second superimposed display unit that superimposes and displays correspondence information with respect to the video on the second display unit.

  The monitoring system of the present invention shares video including equipment between the first display unit of the terminal and the second display unit of the device connected to the terminal, and the correspondence information input on the second display unit is transmitted to the terminal. Since it is superimposed and displayed on the first display part of the terminal together with the video, an administrator who is familiar with the equipment can issue an instruction from the second display part with the corresponding information, for example, in the case of equipment abnormality in the database Compared to storing procedures and calling and responding to them, even when equipment abnormalities that cannot be stored in the database occur, take action on the equipment based on the most appropriate instructions Is possible.

It is a block diagram which shows the monitoring system and installation which concern on Embodiment 1. FIG. It is a block diagram which shows the monitoring system and installation which concern on Embodiment 1. FIG. FIG. 3 is a configuration diagram showing the contents of a regulation correspondence information database according to the first embodiment. FIG. 6 is a diagram showing an operation flow of the terminal and the device according to the first embodiment. 3 is a diagram illustrating a screen configuration example of a terminal according to Embodiment 1 and an apparatus that shares video with the terminal. FIG. It is a block diagram which shows the monitoring system and installation which concern on the modification 1a of Embodiment 1. FIG. It is a figure which shows the example of a screen structure of the monitoring system which visualizes and displays the condition inside the installation which concerns on Embodiment 2. FIG. It is a block diagram of the monitoring system which displays the correspondence information for changing the value of the measuring object of an installation into a desired value on the terminal which concerns on Embodiment 3. FIG. It is a block diagram which shows the content of the prescription | regulation corresponding | compatible information database which concerns on Embodiment 3. It is a figure which shows the example of a screen structure which displays the correspondence information for changing the value of the measuring object of an installation into a desired value on the terminal which concerns on Embodiment 3. FIG. FIG. 10 is a diagram illustrating a screen configuration example of a system that selectively displays a plurality of types of measurement results according to a fourth embodiment. FIG. 10 is a diagram illustrating a configuration example of a system according to a fifth embodiment. It is a block diagram which shows the structure for calling the remote control part which the apparatus which concerns on Embodiment 6 performs with respect to an installation on a terminal. It is a figure which shows the example of a screen structure at the time of calling the remote control part which concerns on Embodiment 6 on a terminal.

  Below, the monitoring system concerning an embodiment of the invention is explained in detail based on a drawing. Note that the present invention is not limited to the embodiments. In addition, the same configurations and members in the embodiments are denoted by the same reference numerals, and the description thereof is omitted.

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

  FIG. 1 is a block diagram illustrating 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 a monitoring terminal 2 that displays a corresponding procedure for the equipment 100 and a device 10 that can communicate with the terminal 2. Including. The terminal 2 includes 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 apparatus 10, and a first display having a display for displaying an image photographed by the photographing unit 3. And a first superimposed display unit 6 that superimposes and displays correspondence information 6a (a correspondence message for the facility 100, see FIG. 2) sent from the apparatus 10 on the first display unit 5.

  The apparatus 10 is installed in a center or the like away from the facility 100, and includes a remote operation unit 11 that performs remote operation on the facility 100, and a prescribed correspondence information database 12 that stores a prescribed correspondence procedure for the facility 100. And an input unit 13 (first input unit) such as a keyboard and a mouse for editing information in the regulation correspondence information database 12 and creating information to be sent to the terminal 2 by the user, and the first of the terminal 2 A second communication unit 14 that communicates with the communication unit 4, a second display unit 15 that displays a video 3 a (see FIG. 2) from the photographing unit 3 sent from the terminal 2, and a video displayed on the second display unit 15 A second superimposed display unit 16 that superimposes and displays information input by the input unit 13 with respect to 3a, and an image determination unit that determines the type of the facility 100 and the state of the facility 100 from the image captured by the imaging unit It is provided with a 7, a. Note that the regulation correspondence information database 12 and the image determination unit 17 are stored not in the device 10 but in the facility 100 itself or in the terminal 2 and processed in the same manner as the above-described processing in the device 10. Good.

  Furthermore, the facility 100 determines whether the facility is a normal value based on the measurement unit 101 that performs measurements related to the amount of water, power, gas concentration, temperature, etc., and the measurement result (measurement value) of the measurement unit 101. However, if the measured value is abnormal, the alarm unit 103 issues an alarm on the assumption that the state of the facility is abnormal, and a button, valve, or operation panel for receiving the alarm from the alarm unit 103 and processing the facility And a third communication unit for communicating with either 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 14 105.

  The configuration of the monitoring system 1 and the facility 100 is clarified with reference to FIG. In a storage tank 100a as the facility 100, water 106a as a measurement object 106 of the measurement unit 101 is stored. And how much water is stored is measured by the ultrasonic sensor 101a as the measuring unit 101 provided in the storage tank 100a. As a result of measurement by the ultrasonic sensor 101a, when it is determined 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, when a field worker or the like operates the operation unit 104 including operation buttons, the valve 104a is opened and closed, and water can be supplied from the outside so that the storage amount is within a normal range. It is.

  The configurations of the terminal 2 and the device 10 will be described. Usually, an administrator at the center side performs an operation by the remote control unit 11 based on the video 3a based on information from a sensor (not shown) provided in the vicinity of the storage tank 100a. In the case of operations that can only be performed at the site where they are installed, or when the environment can be handled more reliably by taking the surrounding environment into consideration, dispatch workers to the site and May be operated on the storage tank 100a. Therefore, an image 3a relating to the storage tank 100a taken by the photographing unit 3 (see FIG. 1) while an operator grips the terminal 2 or fixed to a tripod or the like at the site is displayed on the first display unit 5 and the device of the terminal 2 As the corresponding information 6a for the storage tank 100a with respect to the video 3a on the second display unit 15 in the second superimposed display unit 16 of the center-side device 10. The operation method related to the operation unit 104 is described, information is sent to the terminal 2, and the correspondence 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 facility name 12a, the alarm type 12b, the regulation correspondence information 12c that defines the correspondence information 6a on how to deal with, the cause 12d of the alarm, and the amount of the same type of alarm accumulated. It is configured to include the cumulative number of occurrences 12e and a memo 12f for the past correspondence.

  Next, the operation flow of the monitoring system will be described with reference to FIG. 1 to FIG. First, normally, the terminal 100 is taken out in response to an alarm from the alarm lamp 103a or in response to an instruction from a center where the apparatus 10 is located, and the facility 100 (storage tank 100a) is photographed (step ST1). And the image | video 3a image | photographed is transmitted from the terminal 2 to the apparatus 10 via the 1st communication part 4 (step ST2).

  After that, the apparatus 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, for example, The type and state are specified (step ST4). If there is information matching the equipment name 12a and the alarm type 12b as a result of the identification, 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 in FIG. 2, or the message is manually pasted in the same manner by the administrator who operates the apparatus 10. Thus, 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 there is no provision correspondence information 12c corresponding to the specific result of the equipment or state in step ST4 in the provision correspondence information database 12, the equipment displayed on the second display unit 15 of the apparatus 10 Correspondence information 6a indicating how to correspond to 100 images 3a is input by the input unit 13 and is superimposed and displayed using the second superimposed 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 clearly, an example of the screen configuration of the monitoring system 1 is displayed in FIG.

  FIG. 5 is an enlarged view 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 (100a) for reference. In the apparatus 10, as the first display unit 15, in addition to the video display area 15 a that displays the video 3 a, as information that does not exist in the terminal 2, additional information such as the current water level and the storage tank 100 a should be used. A detailed information display area 15b for displaying information is included. Although detailed information may be displayed on the terminal 2, since the terminal 2 may have a small screen size, priority is given to displaying the operation procedure for the storage tank 100a in the field in an easy-to-understand manner. Is set to be displayed only on the device 10. However, if detailed information is to be displayed on the terminal 2 side, a detailed information display ON / OFF mode may be provided and switched.

  In addition, when displaying the correspondence information 6a on the second superimposed display unit 16 while displaying the video 3a of the storage tank 100a on the second display unit 15 of the apparatus 10, the terminal 2 on the site is fixed to a tripod, a wall, or the like. Since the image 3a of the storage tank 100a is not blurred when the storage tank 100a is present, the operation unit 104 in the storage tank 100a displayed in the second display unit 15 and the correspondence information 6a in the second superimposed display unit 16 are appropriately linked. It is done. On the other hand, when the user holds the terminal 2, the image 3 a of the storage tank 100 a is blurred, so that the terminal 2 is provided with a camera shake correction function (not shown) or the image determination unit 17 of the device 10 starts from the image 3 a of the storage tank 100 a. For example, a still image of the storage tank 100a is cut out, the correspondence information 6a is attached to the image, and the image is matched with the video 3a of the storage tank 100a again to be processed as the video 3a with the correspondence information 6a. Is preferred.

  In this way, the equipment name 12a and the alarm type 12b are temporarily stored in the regulation correspondence information database 12 by photographing the equipment 100 on the spot and sending the photographed video 3a to the apparatus 10 in the center remote from the spot. Even if the standard correspondence information 12c corresponding to the information is not stored, the manager on the center side can write the correspondence information 6a on the video 3a and transmit it, so that the field worker can appropriately deal with the equipment 100. It becomes possible to take. Note that the images displayed on the terminal 2 and the device 10 are basically the same, and for simplicity of explanation, either one of them may be taken up as a representative in the figure, but the same exists on the other. Needless to say. The same applies to other embodiments.

Modification 1a.
FIG. 6 shows the configuration of this modification. In the first embodiment, the terminal 2 has photographed the facility 100 (storage tank 100a). However, the terminal 2 and the terminal 2 are connected via the relay device 108 that can be connected to the camera 107 using the camera 107 fixed to a tripod or the like. The apparatus 10 may share the video of the facility 100. In this case, it is possible to obtain an image 3a with no blurring of the equipment 100, and the first superimposed display unit 6 and the correspondence information 6a or the specified correspondence information 12c instructed by the device 10 and the relationship between the image 3a are easy to see. The second superimposed display unit 16 can share the information.

Embodiment 2. FIG.
A monitoring system 1 according to Embodiment 2 of the present invention will be described with reference to FIG. The second embodiment is characterized in that, based on the measurement result by the measurement unit 101, the internal state of the facility 100 on site is superimposed on the video 3a of the facility 100.

  FIG. 7 shows that the first superimposed display unit 6 and the second superimposed display unit 16 indicate 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 as a storage tank. A state of being superimposed and displayed as perspective information 6b so as to see through the inside of 100a is shown. That is, in the drawing, the level of water 106a in the storage tank 100a is filled with black. For example, if the water level of the water 106a rises from the state shown in FIG. 6, this blackened region also becomes blackened to the upper side. Conversely, if the water level of the water 106a falls from the state shown in FIG. Up to black.

  Thus, since the 1st superimposition display part 6 and the 2nd superimposition display part 16 display the internal condition of the installation 100 as the perspective information 6b based on the measurement result of the measurement part 101 with respect to a to-be-measured object, the 1st superimposition display part 6, when an on-site worker operates the operation unit 104, it is possible to perform the operation with confidence while checking the change in the internal state of the facility 100, and to watch the work water level. Further, by looking at the second superimposed display section 16, the problem occurring in the facility 100 becomes clearer, and the center manager instructs the more appropriate correspondence information 6a or attaches the correspondence information 6a more quickly. It has an effect that can be performed.

  It should be noted that the terminal 2 and the device 10 are not systems that communicate with each other, but the terminal 2 only monitoring system, or there is a communication failure and only the terminal 2 has to deal with the equipment 100. Even if it exists, it becomes possible to operate the operation part 104 as a more appropriate response | compatibility compared with the case where an internal condition is displayed only by a numerical value by being able to grasp | ascertain the internal condition of the installation 100 visually.

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

  When the object 106 to be measured is a temperature, the color of the fluoroscopic information is changed depending on the temperature distribution. For example, the high temperature is displayed in red and the low temperature is displayed in blue. The dark area may be thick and the thin area may be thin. In this way, by setting the appropriate fluoroscopic information 6b according to the property of the measurement target 106, it is possible to clearly grasp the situation of the measurement target 106.

Embodiment 3 FIG.
A monitoring system 1 according to Embodiment 3 of the present invention will be described with reference to FIGS. The third embodiment is characterized in that an adjustment value as a preferable value is set by the user for the fluoroscopic information 6b shown in the second embodiment, and an operation procedure for setting the setting value is displayed.

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

  FIG. 9 shows the regulation correspondence information database 112 in the present embodiment. The difference from the regulation correspondence information database of the first embodiment is that there is an item of purpose 12g, which describes how much the measurement object 106 is changed as the purpose 12g, and what kind of correspondence is provided. Whether it is necessary is described as the regulation correspondence information 12c. The computing unit 18 obtains whether or not the purpose of processing suitable for eliminating the above-described difference is described, and when the matched purpose exists in the prescribed correspondence information database 112, the prescribed correspondence information 12c for the purpose is obtained. As in the first and second embodiments, the 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, an appropriate instruction is given via the second superimposed display unit 16 in consideration of the difference obtained by the calculation unit 18 by the manager on the center side.

  FIG. 10 shows a situation in which the user operates the first superimposition display unit 6 with the finger on the fluoroscopic information 6b to change the water level of the water 106a to the desired state 6c. First, the 1st superimposition display part 6 and the 2nd superimposition display part 16 are displaying that the appropriate water level is 4 meters (henceforth 4M etc. in drawing) or more as detailed information 6d. As the displacement information 6e, the current water level that is the current state and the changed water level that is 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 confirming the perspective information 6b and the detailed information 6d of the measurement target 106. Since it is understood, it is possible to visually determine how much water should be filled in the storage tank 100a, for example, considering the balance between the maintenance of the function performed by the storage tank 100a and the cost related thereto, etc. The effect of making easy judgments.

  Although the input unit 7 is provided in the terminal and the desired state 6c is set on the terminal side, the same operation may be performed on the device 10 side via the input unit 13. Moreover, although the calculating part 18 was given to the apparatus 10 side, you may give the function equivalent to this calculating part 18 to the terminal 2 side. Even in this way, the same thing as described above can be executed. Further, the display of the correspondence information 6a for the storage tank 100a for filling the difference obtained by the calculation unit 18 or the display of the prescribed correspondence information 12c may be performed either in the case where neither is performed. Compared with, business efficiency can be improved because it can be operated intuitively.

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

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

  In the measurement device selection unit 6f, the water level and the water temperature are selected to be displayed. As a result, both are displayed on the first superimposed display unit 6 and the second superimposed display unit 16, and specifically, the water level is displayed as the perspective information 6b, and the color of the perspective information 6b is displayed darker. It is possible to display the high temperature water area 6b1 and the low temperature water area 6b2 displayed with a light color.

  In this way, by displaying the measurement results of a plurality of measuring devices in a selectable manner, it is possible to send instructions to the terminal 2 at the site with more appropriate correspondence information 6a. By viewing various fluoroscopic information 6b, the result of the operation on the operation unit 104 is confirmed, the transition of the state is observed, and if there is an abnormality as a result of the operation, it is discovered early and quickly It is also possible to take another response. In addition, even if such a measuring device selection unit 6f exists only in one of the terminal 2 or the apparatus 10, one of the above-described effects can be obtained, and the display is compared with a case where the measuring device selection unit 6f is not provided. You can do a lot of information.

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

  FIG. 12 shows that the user can input what he / she has noticed, such as the state of the storage tank 100a, using the input unit 7 shown in FIG. With this configuration, for example, detailed information regarding the storage tank 100a can be shared with the apparatus 10 such as noticed anomalies as a result of other tests that are not understood by the ultrasonic sensor 101a, such as a hammering test.

  In this way, the on-site awareness is input by the input unit 7 and shared with the device 10 so that an administrator who uses the device 10 transmits more appropriate correspondence information 6a to the terminal 2 on the site. Has the effect of enabling.

Embodiment 6 FIG.
A monitoring system 1 according to Embodiment 6 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. A new configuration in the sixth embodiment is a function calling unit 8 indicated by a thick frame. The function calling unit 8 simulates and executes a function similar to the remote operation unit 11 on the terminal 2 so that the operation of the remote operation unit 11 in the device 10 is performed on the terminal 2, or the remote operation unit 11 is Remote control.

  In FIG. 14, the virtual remote operation unit 111 simulating the remote operation unit 11 is called on the first display unit 5 by the function calling unit 8. Specifically, the virtual remote operation unit 111 can be called by acquiring the management authority in the management authority selection unit 6h. Thereafter, operations that cannot be performed by the operation unit 104 can be performed, and the degree of freedom of work on site can be improved. For example, this is particularly effective when an administrator who has issued an instruction from the apparatus 10 visits the site and the administrator performs a response to the storage tank 100a at the site.

  Note that the present invention can be freely combined with each other within the scope of the invention, and each embodiment can be appropriately modified or omitted.

DESCRIPTION OF SYMBOLS 1 Surveillance system, 2 terminal, 3 imaging | photography part, 3a image | video, 4 communication part (1st communication part), 5 1st display part, 6 1st superimposition display part, 6a correspondence information, 6b fluoroscopy information, 6c desired state, 6d Detailed information, 6e Displacement information, 6f Measuring device selection unit, 6g, 6h Management authority selection unit, 7 Input unit (second input unit), 8 Function call unit, 10 Device, 11 Remote operation unit, 12 Regulation correspondence information database, 12c regulation correspondence information, 13 input unit (second input unit), 15 second display unit, 16 second superimposed display unit, 100 facility, 100a storage tank, 101 measuring unit, 101a ultrasonic sensor, 101b thermometer, 104 operation Part, 104a valve, 106 object to be measured, 106a water, 111 virtual remote control part, 112 regulation correspondence information database.

Claims (15)

A monitoring system including a terminal having a photographing unit and a first display unit, and a device having a second display unit connected to the terminal,
The terminal
The video transmitted to the apparatus for displaying the video including the equipment photographed by the photographing unit on the second display unit, and the video input to the video on the second display unit A communication unit that receives correspondence information about,
A first superimposed display unit that displays the correspondence information on the first display unit,
The device is
A monitoring system comprising: a second superimposed display unit that superimposes and displays the correspondence information on the video on the second display unit. The facility correspondence information is stored in at least one of the facility, the terminal, and the device, and the second superimposed display unit displays the regulation correspondence information in a superimposed manner on the second display unit. The monitoring system according to claim 1, wherein: At least one of the first superimposed display unit and the second superimposed display unit is provided on at least one of the first display unit and the second display unit corresponding to the measurement result obtained by measuring the measurement target of the facility by the measurement unit. The monitoring system according to claim 2, wherein the monitoring system is displayed. At least one of the first superimposed display section and the second superimposed display section corresponds to the first display section and the second display section corresponding to fluoroscopic information for seeing through the inside of the facility in the video based on the measurement result. The monitoring system according to claim 3, wherein the monitoring system is superimposed on at least one of the two. At least one of the first superimposed display unit and the second superimposed display unit receives at least input of the fluoroscopic information from a user and adjusts the state of the measurement target or at least the prescribed correspondence information One side is displayed, The monitoring system of Claim 4 characterized by the above-mentioned. The measurement results include a plurality of types of measurement results,
6. The monitoring system according to claim 5, wherein at least one of the first superimposed display section and the second superimposed display section displays the fluoroscopic information corresponding to the plurality of types of measurement results in a selectable manner. . Provided in the terminal, comprising an input unit capable of inputting information on the facility,
The monitoring system according to any one of claims 1 to 6, wherein a result of input by the input unit is displayed on the first display unit and the second display unit. The said terminal was provided with the function call part which calls the management control function in which the said apparatus performs management operation with respect to the said installation on the said 1st display part. The monitoring system described. A terminal that transmits video including equipment photographed by the photographing unit to the apparatus and displays correspondence information about the equipment added on the apparatus,
The terminal
A communication unit that transmits the video imaged by the imaging unit to the device and receives correspondence information related to the video image input from the device;
A monitoring terminal, comprising: a superimposing display unit that superimposes and displays the correspondence information received by the communication unit on a display unit that displays the video. The superimposing display unit superimposes and displays on the display unit fluoroscopic information for seeing through the state inside the facility in the video based on a measurement result obtained by measuring the state of the facility. Terminal for monitoring. The monitoring display according to claim 10, wherein the superimposed display unit displays the correspondence information for adjusting the state of the measurement target in the facility in response to an input to the fluoroscopic information from a user. Terminal. The equipment is measured by a plurality of types of measuring units,
The monitoring terminal according to claim 11, wherein the superimposition display unit displays the fluoroscopic information corresponding to the measurement results of the plurality of types of the measurement units in a selectable manner. A monitoring terminal for monitoring equipment,
A shooting section;
A display unit for displaying an image captured by the imaging unit;
1 superimposition display part which superimposes and displays the result of having measured the to-be-measured object inside the equipment on the display part;
A monitoring terminal characterized by comprising: The superimposition display unit has correspondence information for adjusting the state of the object to be measured in response to an input from a user, and a prescribed correspondence procedure for the equipment stored in either the equipment or the monitoring terminal. The monitoring terminal according to claim 13, wherein at least one of the specified correspondence information is displayed. The equipment is measured by a plurality of types of measuring units,
The monitoring display according to claim 14, wherein the superimposing display unit displays selectable fluoroscopic information for seeing through the inside of the facility corresponding to a result of the measurement by the plurality of types of the measurement units. Terminal.

Images