JP2002005699A - Method and system for supporting remote inspection - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and system for supporting remote inspection by which inspection efficiency can be improved. SOLUTION: A server 20, installed to an analytical center 2, is constituted to receive inspection information generated at a remote inspection site 1 on real-time basis via a communication channel 3, analyze the received inspection information, and transmit inspection support information for supporting inspections carried out at the inspection site 1 on a real-time basis via the channel 3 according to the analyzed results.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote inspection support method and a remote inspection support system, and more particularly to a technique for supporting an inspection performed by an inspector in a remote place.

[0002]

2. Description of the Related Art Conventionally, for example, in a nuclear power plant, a nondestructive inspection is performed in a periodic inspection for maintaining the plant normally. This inspection is performed while cooperating between the inspection site located in a remote place and the analysis center.

That is, in this periodic inspection, as shown in FIG. 7, a number of inspectors go to an inspection site located in a remote place with an inspection device, stop the nuclear power plant, and perform various inspections. The inspection items include ultrasonic inspection, eddy current inspection, penetration inspection, radiation inspection, magnetic particle inspection, and visual inspection.
Various devices for performing these inspection items are used as the inspection device.

At the inspection site, management of data and inspection conditions,
The many inspections described above are performed while operating the data recording device, referring to the drawing of the inspection target site, and the like. Therefore,
The amount of inspection data obtained by the inspection is enormous, and a large number of inspectors are required at the inspection site. The inspection data obtained by this inspection is sent to the analysis center by mail or the like.

The analysis center analyzes the received inspection data and makes various judgments. Then, for a part determined to require a detailed inspection, a retest is instructed to the inspection site using a telephone or a facsimile. At the inspection site, the inspection conditions and the inspection apparatus are newly set according to the instruction reinspection instruction, and the reinspection is performed.

[0006]

In the inspection performed in the conventional periodic inspection described above, it takes time for the inspection data obtained by the inspection to reach the analysis center. as a result,
There is a time lag between the execution of the inspection and the analysis of the inspection data, and there is a problem that the inspection period is lengthened and the inspection cost is increased. In addition, if a detailed inspection is required, if the data used for the inspection is incomplete, or if there is a failure in the inspection equipment, a re-inspection will be required. Additional steps are required, such as re-preparing the inspection equipment, conducting inspections, and removing inspection equipment.
Time and cost consuming.

Further, in a nuclear power plant or the like, the inspection is performed while the plant is stopped, so that the inspection period is limited, and there is a problem that it is difficult to incorporate a re-inspection process. Furthermore, in order to eliminate inadequacy of the data used for the inspection, it is conceivable to have the inspector judge the validity of the data, but in this case, the inspection time becomes longer, and the inspector becomes longer in an environment such as radiation. Since the user stays for a long time, there is a problem from the viewpoint of reducing the inspection time and improving the inspection environment.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a remote inspection support method and a mode inspection support system capable of improving the inspection efficiency.

[0009]

According to a first aspect of the present invention, there is provided a remote inspection support method for transmitting inspection information generated at an inspection site located in a remote place to a communication line in order to achieve the first object. Received in real time through the, the received inspection information is analyzed, and the inspection support information for supporting the inspection at the inspection site according to the result of the analysis is transmitted to the inspection site via the communication line. It is configured to transmit in real time.

According to this remote inspection support method, since the inspection information generated at the inspection site is sent to the analysis center in real time via the communication line, the analysis center can immediately analyze the inspection information obtained by the inspection. it can. As a result, the inspection period can be shortened, and the inspection efficiency can be improved. In addition, even if it is determined that re-inspection is necessary as a result of the analysis, inspection support information instructing the re-inspection can be sent to the inspection site in real time via a communication line. Can be re-examined. Therefore, an additional step as in the related art is unnecessary, and the inspection efficiency can be improved.

In the remote inspection support method, the inspection information may include inspection data generated by the inspection and a monitoring image obtained by photographing the state of the inspection. According to this configuration, the analysis center can grasp not only the inspection data but also the state of execution of the inspection, so that the inspector can be notified of appropriate advice regarding the inspection method.

In the remote inspection support method, when it is determined that re-inspection is required as a result of the analysis, information for instructing re-inspection, a re-inspection method, drawings required for re-inspection, re-inspection, The inspection support information including the information on the inspection device and the re-inspection process necessary for the inspection is sent to the inspection site. According to this configuration, it is not necessary to prepare drawings necessary for the re-inspection at the inspection site, select equipment required for the re-inspection, and set up a re-inspection process at the inspection site. Efficiency can be improved.

Further, in this remote inspection support method, inspection results obtained by a plurality of inspection methods and past inspection results are accumulated, and when the re-inspection is instructed, the accumulated inspection results are called up. , Is compared with a current test result, and the test support information is generated based on the comparison result. According to this configuration, since the inspection support information is generated in consideration of not only the inspection performed by the method currently performed at the inspection site but also the inspection performed by another method and the past inspection result, the accurate inspection support information is generated. Can be sent to the inspection site.

A remote inspection support system according to a second aspect of the present invention is a remote inspection support system in which an inspection site located at a remote place and an analysis center are connected by a communication line for the same purpose as described above. The inspection site includes an inspection device for performing an inspection, and transmission of inspection data from the inspection device to the analysis center via the communication line, and the inspection site via the communication line from the analysis center. A communication device for receiving the test support information for supporting the test at the server, a server is provided at the analysis center, and the server performs analysis based on the test data received from the communication line. An inspection unit for transmitting the inspection support information created based on an analysis result by the analysis unit to the inspection site in real time via the communication line. Means, and a capital.

According to this remote inspection support system,
Since the inspection information generated at the inspection site is sent to the analysis center in real time via the communication line, the analysis center can immediately analyze the inspection information obtained by the inspection. As a result, the inspection period can be shortened, and the inspection efficiency can be improved. In addition, even if it is determined that re-inspection is necessary as a result of the analysis, inspection support information instructing the re-inspection can be sent to the inspection site in real time via a communication line. Can be re-examined. Therefore, an additional step as in the related art is unnecessary, and the inspection efficiency can be improved.

In this remote inspection support system, the inspection site is further provided with a camera for photographing the state of execution of the inspection, and the communication device transmits a monitoring image photographed by the camera to the communication line. The analysis center transmits the inspection data and the monitoring image to the analysis center. According to this configuration, the analysis center can grasp not only the inspection data but also the state of execution of the inspection, so that the inspector can be notified of appropriate advice regarding the inspection method.

In this remote inspection support system, the inspection support means, when the analysis means determines that re-inspection is necessary, information for instructing re-inspection to the inspection site and re-inspection. Inspection support information including an inspection method, a drawing required for re-inspection, an inspection device required for re-inspection, and information on a re-inspection process can be sent to the inspection site. According to this configuration, at the time of re-inspection, there is no need to prepare drawings necessary for re-inspection at the inspection site, select equipment required for re-inspection, and set up a re-inspection process, Inspection efficiency can be improved.

In this remote inspection support system, the server can be configured to control an inspection device installed at the inspection site via the communication line. According to this configuration, since the inspection device can be directly controlled from the server of the analysis center, the number of inspectors who go to the inspection site can be reduced, and the inspection is performed without stopping the inspection target, for example, the plant. be able to.

Further, this remote inspection support system has
The apparatus further includes a terminal device capable of accessing the server, wherein the server, when accessed from the terminal device, transmits an analysis result by the analysis unit and the inspection support information created based on the analysis result to the terminal device. Can be configured to be forwarded to According to this configuration, the analysis result and the test support information can be viewed from a plurality of terminal devices, so that a plurality of persons can examine the validity of the test support information with respect to the analysis result. As a result, more appropriate inspection support information can be sent to the inspection site. In this case, it is preferable to select a person who has been authenticated, such as a designer, as a diagnostician.

[0020]

Embodiments of the present invention will be described below in detail with reference to the drawings. Hereinafter, a case where the remote inspection support method and the remote inspection support system of the present invention are applied to a nuclear power plant will be described as an example.

(Embodiment 1) First, an outline of a remote inspection support system according to Embodiment 1 of the present invention will be described.

FIG. 1 is a diagram showing a schematic configuration of the remote inspection support system according to the first embodiment. The remote inspection support system includes an inspection device 10 provided at an inspection site 1, a server 20 provided at an analysis center 2, and a communication line 3 connecting the inspection site 1 and the analysis center 2. The communication line 3 is used for transmitting and receiving information between the inspection site 1 and the analysis center 2.

The inspection site 1 is a place where a nuclear power plant is installed, and usually exists in a remote place. In the inspection site 1, an inspection device 10 carried by an inspector is installed. In the inspection site 1, inspections such as ultrasonic inspection, eddy current inspection, penetration inspection, radiation inspection, magnetic particle inspection, and visual inspection are performed in the same manner as described in the section of the related art.
Therefore, the inspection apparatus 10 includes an apparatus for performing these inspections. The test data obtained from the test device 10 is transmitted to the server 20 of the analysis center 2 via the communication line 3.

The analysis center 2 is provided with a server 20 and an analysis / diagnosis staff. The server 20 stores various data and programs. The analysis / diagnosis person analyzes the inspection data sent from the inspection site 1 to the server 20, and determines whether there is any abnormality in the nuclear power plant to be inspected based on the analysis result.
This determination result is transmitted to the inspection site 1 via the communication line 3 as inspection support information.

Next, the remote inspection support system according to the first embodiment configured as described above will be described in further detail. FIG. 2 is a diagram showing a detailed configuration of the remote inspection support system. The inspection site 1 includes the inspection device 1 described above.
In addition to 0, an inspection status camera 11 and a communication device 12 are provided. The inspection device 10 and the inspection status camera 11
It is connected to the communication device 12. The communication device 12
Are connected to the communication line 3. As the communication line 3, a telephone line, the Internet, or the like can be used.

The inspection device 10 supplies inspection data obtained by performing the inspection to the communication device 12. The inspection data includes waveform data, image data, and inspection condition data for defining inspection conditions. In addition, the inspection device 10 receives inspection condition data from the communication device 12,
Other commands are provided.

The inspection status camera 11 is used to monitor the status of the inspection at the inspection site 1. The inspection status camera 11 captures, for example, the state of the inspection device 10. The monitoring image data obtained by this photographing is sent to the analysis center 2. As a result, in the analysis center 2,
In addition to the inspection data sent from the inspection device 10,
Since the setting state and the like of the inspection device 10 can be known, it is possible to quickly pursue a cause when an abnormality is found in the inspection data.

The inspection status camera 11 is also used for communication between the inspector at the inspection site 1 and the analysis center 2. That is, the inspection status camera 11 also functions as an imaging device in a so-called videophone. With this configuration,
Since the status of the nuclear power plant and the information obtained at the inspection site 1 can be sent to the analysis center 2 as an image, communication between the inspector at the inspection site 1 and the analysis / diagnosis person at the analysis center 2 is ensured. Can be. In addition, the analysis center 2 can give an accurate instruction to the inspection site 1 by sending a specific instruction to the inspection site 1 by a video.

The communication device 12 compresses the inspection data from the inspection device 10 and the monitoring image data from the inspection status camera 11, encodes the data into a code, and sends the encrypted data to the communication line 3. Also,
The communication device 12 decodes and decompresses the test support information and the image data compressed and encoded into the code from the communication line 3, and supplies them to the inspection device 10 and / or the inspection status camera 11.

The server 20 provided in the analysis center 2
It comprises a data analysis unit 21, a process management program 23, an inspection result database 24, an inspection equipment database 25, and an equipment design database 26.

The data analyzer 21 analyzes a signal input from the communication line 3, that is, executes signal processing, image processing, and the like. The result processed by the data analysis unit 21 is stored in the inspection result database 24.

The process management program 23 is a program for planning a process when a re-inspection is performed. The inspection result database 24 stores the results of processing the inspection data sent from the inspection site 1 by the data analysis unit.
The inspection device database 25 stores inspection conditions, inspection methods, inspection devices, and the like used for various inspection items. The equipment design database 26 stores various data used for designing a nuclear power plant.

The analysis / diagnosis person at the analysis center 2 performs analysis using a diagnosis program (not shown) that operates based on the test result database 24, the inspection equipment database 25, and the equipment design database 26. Diagnosis is performed by comprehensively determining the presence or absence of an abnormality based on the analysis result.

The operation of the remote inspection support system according to the first embodiment having the above configuration will be described with reference to the flowchart shown in FIG. In this flowchart, steps enclosed by a solid line are executed by a person, and steps enclosed by a broken line are executed by a program.

At the inspection site 1, an inspector sets the inspection device 10 and performs an inspection. The inspection data obtained by this inspection is sent to the communication device 12. The communication device 12 that has received the test data executes a process for transmitting the test data and the test status (Step S10). That is, the communication device 12 converts the inspection data including the waveform data, image data, inspection condition data, and the like obtained from the inspection device 10 into data in a format that can be transmitted. Further, the monitoring image data obtained from the inspection status camera 11 is converted into data in a format that can be transmitted. In this case, although illustration and description in FIG. 2 are omitted, audio data input from a microphone (not shown) connected to the communication device 12 is also converted into data in a format that can be transmitted.

Next, in the communication device 12, the inspection data from the inspection device 10, the monitoring image data from the inspection status camera 11, and the audio data from the microphone are compressed, encoded into a code, and transmitted to the communication line 3. As a result, the data is transmitted to the analysis center 2 in real time.

On the other hand, the server 20 decodes and decompresses the data sent from the inspection site 1 via the communication line 3 (step S20). This allows the original test data,
The monitoring image data and the audio data are reproduced and sent to the data analysis unit 21.

Next, data analysis processing is performed in the data analysis section 21 (step S21). In this analysis processing, signal processing for input inspection data, monitoring image data, and audio data and image processing for monitoring image data are performed. For example, in signal processing, processing for reducing noise and the like are performed. In this analysis process,
A primary determination is also made as to whether the inspection location is normal.

Next, information on the inspection location determined to be abnormal in the primary determination is notified to the analysis / diagnosis person (step S22). This information includes inspection data, inspection condition data, design data, and the like of the inspection location.

The analyzing / diagnosing member who has received the information on the inspection location makes a comprehensive diagnosis based on this information (step S23). Then, if necessary, re-inspection and / or close inspection are instructed to the server 20 (step S2).
4). Thereby, the server 20 sends the inspection support information necessary for the reinspection to the inspection site (step S25). The inspection support information includes, in addition to information for instructing re-inspection, a re-inspection method, a drawing required for re-inspection, information on an inspection apparatus required for re-inspection, and information on a re-inspection process.

At the inspection site 1, a reinspection is performed based on the inspection support information (step S26). The result of this retest is sent to the analysis center 2 in the same manner as described above, and the presence or absence of an abnormality is determined again.

As described above, according to the remote inspection support system according to the first embodiment, the inspection data obtained at the inspection site 1 located in the remote place and the monitoring image obtained by capturing the inspection status are transmitted through the communication line 3. The test data is sent to the analysis center 2 in real time via the real time, so that the analysis center 2 can immediately analyze the inspection data. As a result, the inspection period can be shortened, and the inspection efficiency can be improved.

If it is determined by the analysis center 2 that re-examination or detailed inspection is necessary, information indicating the re-examination and the method of re-examination, drawings required for re-examination, Inspection support information including information on an inspection device required for the inspection and a re-inspection process can be sent to the inspection site 1 in real time via the communication line 3, so that re-inspection can be performed before the inspection equipment is withdrawn. it can. Therefore, an additional step as in the related art is unnecessary, and the inspection efficiency can be improved.

Further, at the time of re-inspection, there is no need to prepare drawings necessary for re-inspection at the inspection site, select equipment required for re-inspection, and set up a re-inspection process. Efficiency can be improved.

(Embodiment 2) The remote inspection support system according to Embodiment 2 of the present invention stores inspection results obtained by a plurality of inspection methods and past inspection results in a server, The diagnostic accuracy is improved by referring to when making the determination.

The configuration of the remote inspection support system according to the second embodiment is different from that of the first embodiment shown in FIG. 1 in that the past inspection results are sequentially accumulated in the inspection result database 24. The configuration is the same as that of the support system.

The operation of the remote inspection support system according to the second embodiment is shown in the flowchart of FIG. The operation shown in this flowchart is the same as the operation of the remote inspection support system according to the first embodiment shown in FIG. 3 except for the following differences.

The first difference is that, in the remote inspection support system according to the second embodiment, when the primary judgment is made as to whether or not it is normal in the analysis processing in step S21, the information is accumulated in the inspection result database. The point is that the data indicating the past inspection result is referred to.

The second difference is that the information on the inspection location determined to be abnormal in step S22 includes:
The point is that the data including the data indicating the past test results stored in the test result database is sent to the analyzing / diagnosing member.

The third difference is that step S27 is added. In this step S27, the server 2
The point is that the inspection support information sent from 0 to the inspection site 1 is stored in the inspection result database as data indicating a past inspection result. As a result, the past inspection results are sequentially accumulated regardless of the inspection method.

As described above, according to the remote inspection support system according to the second embodiment, not only the inspection performed by the method currently performed at the inspection site 1 but also the inspection performed by another method or the past inspection Since the result can be compared with the current inspection result, the change with time can be easily grasped.
As a result, inspection support information with improved diagnostic accuracy can be generated, so that accurate inspection support information can be sent to the inspection site.

(Third Embodiment) A remote inspection support system according to a third embodiment of the present invention controls an inspection apparatus installed at an inspection site from an analysis center.

As shown in FIG. 5, in the remote inspection support system according to the third embodiment, the server 20 of the remote inspection support system according to the first embodiment shown in FIG.
An inspection device control program 22 is additionally provided.

In the remote inspection support system according to the third embodiment, the inspection device control program 22 provided in the server 20 generates inspection control information and sends it to the inspection site 1 via the communication line 3. At the inspection site 1, the inspection control information received from the communication line 3 is sent to the inspection device 10 via the communication device 12. As a result, the inspection device 10 in the inspection site 1 operates under the control of the server 20 in the analysis center 2.

According to the remote inspection support system according to the third embodiment, the server 20 of the analysis center 2 can directly control the inspection device 10 installed at the inspection site 1 via the communication line 3, so that the inspection site The number of inspectors who go to the inspection can be reduced, and the inspection target, for example, the inspection can be performed without stopping the plant.

(Embodiment 4) A remote inspection support system according to Embodiment 4 of the present invention allows an authenticated person to access a server from a terminal device.

In the remote inspection support system according to the fourth embodiment, as shown in FIG. 6, the server 20 of the remote inspection support system according to the first embodiment shown in FIG.
The terminal device 4 can be added. Although only one terminal device 4 is shown in FIG. 6, a plurality of terminal devices can be connected. Then, the inspection result database 24 and the device design database 26 in the server 20 from each terminal device
Is accessible.

In the remote inspection support system according to the fourth embodiment, the terminal device 4 is connected to the inspection result database 24 of the server 20 by inputting a predetermined ID by a person who has been authenticated, such as a designer. The device design database 26 can be accessed.

According to the remote inspection support system of the fourth embodiment, the analysis results and the inspection support information stored in the inspection result database 24 and the device design database 26 of the server 20 can be viewed from a plurality of terminal devices. . Therefore, a person who has been given a plurality of authentications can examine the validity of the test support information with respect to the analysis result, and can send more appropriate test support information to the test site 1.

In the fourth embodiment, the terminal device 4
Is connected directly to the server 20, but it may be connected via a communication line or a local area network (LAN). According to this configuration, the person who has been authenticated does not necessarily need to be at the analysis center 2, so that there is an advantage that the operation of the remote inspection support system becomes easy.

Note that a remote inspection support system can be configured by applying at least one of the configurations of the above-described second to fourth embodiments to the first embodiment.

[0062]

As described in detail above, according to the present invention,
An inspection efficiency can be improved, and a remote inspection support method and a mode inspection support system can be provided.

More specifically, according to the remote inspection support method according to the first aspect of the present invention, since the inspection information generated at the inspection site is sent to the analysis center in real time via the communication line, the analysis center performs the inspection. Can be immediately analyzed. As a result, the inspection period can be shortened, and the inspection efficiency can be improved. In addition, even if it is determined that re-inspection is necessary as a result of the analysis, inspection support information instructing the re-inspection can be sent to the inspection site in real time via a communication line. Since the re-inspection can be performed immediately, the inspection efficiency can be improved.

Further, according to the remote inspection support method according to the first aspect, the analysis center receives not only the inspection data but also the monitoring image obtained by capturing the inspection execution status, so that the inspection execution status can be grasped. It is possible to inform the inspector of appropriate advice regarding the inspection method.

Further, according to the remote inspection support method according to the first aspect, when the analysis center determines that re-inspection is necessary, information for instructing re-inspection, a re-inspection method, Inspection support information including drawings required for inspection, inspection equipment required for re-inspection, and information on the re-inspection process is sent to the inspection site, so for the re-inspection, prepare the drawings required for re-inspection at the inspection site. In addition, since there is no need to select equipment required for re-inspection or to set up a re-inspection process, inspection efficiency can be improved.

Further, according to the remote inspection support method according to the first aspect, the inspection results obtained by the plurality of inspection methods and the past inspection results are accumulated, and the accumulated inspection results when the re-inspection is instructed. The result is called, compared with the current inspection result, and the inspection support information is generated based on the comparison result, so that not only the inspection performed by the method currently performed at the inspection site but also the inspection performed by another method can be performed. Inspection support information is generated in consideration of past inspection results. As a result, accurate inspection support information can be sent to the inspection site.

Further, the remote inspection support system according to the second aspect of the present invention has the same effect as the above-described remote inspection assistance method according to the first aspect. In addition, according to the remote inspection support system according to the second aspect, since the inspection apparatus can be directly controlled from the server of the analysis center, the number of inspectors who go to the inspection site can be reduced, and the inspection target For example, the inspection can be performed without stopping the plant.

Further, according to the remote inspection support system according to the second aspect, the remote inspection support system further includes a terminal device capable of accessing the server. Since the test support information created based on the analysis result is transferred to the terminal device, the analysis result and the test support information can be viewed from a plurality of terminal devices. Therefore, since a plurality of persons can examine the validity of the test support information with respect to the analysis result, more appropriate test support information can be sent to the test site.

[Brief description of the drawings]

FIG. 1 is a diagram showing a schematic configuration of a remote inspection support system according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a detailed configuration of the remote inspection support system according to the first embodiment of the present invention.

FIG. 3 is a flowchart for explaining an operation of the remote inspection support system according to the first embodiment of the present invention.

FIG. 4 is a flowchart for explaining an operation of the remote inspection support system according to the second embodiment of the present invention.

FIG. 5 is a diagram showing a schematic configuration of a remote inspection support system according to a third embodiment of the present invention.

FIG. 6 is a diagram showing a schematic configuration of a remote inspection support system according to a fourth embodiment of the present invention.

FIG. 7 is a diagram for explaining a conventional remote inspection support system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Inspection site 2 Analysis center 3 Communication line 4 Terminal device 10 Inspection device 11 Inspection status camera 12 Communication device 20 Server 21 Data analysis unit 22 Inspection device control program 23 Process management program 24 Inspection result database 25 Inspection device database 26 Device design database

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Masaaki Kurokawa 2-1-1, Shinhama, Arai-cho, Takasago-shi, Hyogo F-term in Takasago Research Laboratory, Mitsubishi Heavy Industries, Ltd. 2F076 BA14 BD12 BE09 BE17 2G075 AA01 BA17 CA02 EA09 FB01 FC06 GA15 GA34 5H223 AA03 BB01 DD03 DD07 EE06 EE11 FF03

Claims (9)

[Claims] 1. Inspection information generated at an inspection site located in a remote place is received in real time via a communication line, and the received inspection information is analyzed. A remote inspection support method, wherein inspection support information for supporting an inspection is transmitted in real time to the inspection site via the communication line. 2. The remote inspection support method according to claim 1, wherein the inspection information includes inspection data generated by the inspection and a monitoring image obtained by photographing the state of execution of the inspection. 3. As a result of the analysis, when it is determined that re-inspection is necessary, information for instructing re-inspection, a re-inspection method, a drawing required for re-inspection, an inspection apparatus and re-inspection required for re-inspection. The remote inspection support method according to claim 1 or 2, wherein inspection support information including information on the step (b) is sent to the inspection site. 4. Accumulating inspection results obtained by a plurality of inspection methods and past inspection results, and when the re-inspection is instructed, the accumulated inspection results are called and compared with current inspection results. 4. The remote inspection support method according to claim 3, wherein the inspection support information is generated based on the comparison result. 5. A remote inspection support system in which a remote inspection site and an analysis center are connected by a communication line, wherein the inspection site includes: an inspection device for performing an inspection; A communication device for transmitting test data to the analysis center via the communication line, and receiving test support information for supporting the test at the test site from the analysis center via the communication line. A server is installed in the analysis center, the server performs analysis based on the test data received from the communication line, and the test created based on an analysis result by the analysis unit. An inspection support means for transmitting support information to the inspection site in real time via the communication line. 6. The inspection site further includes a camera that captures an inspection status, wherein the communication device transmits a monitoring image captured by the camera to the analysis center via the communication line. The remote inspection support system according to claim 5, wherein the analysis unit of the analysis center performs an analysis based on the inspection data and the monitoring image. 7. The inspection support means, when a result of the analysis by the analysis means determines that re-inspection is necessary, information for instructing the inspection site to perform re-inspection and a re-inspection method;
The remote inspection support system according to claim 5, wherein inspection support information including a drawing required for re-inspection, an inspection device required for re-inspection, and information on a re-inspection process is sent to the inspection site. 8. The server, via the communication line,
The remote inspection support system according to claim 5, wherein the remote inspection support system controls an inspection device installed at the inspection site. 9. The apparatus further comprising a terminal device capable of accessing the server, wherein the server, when accessed from the terminal device,
The remote inspection support system according to any one of claims 5 to 8, wherein the analysis result by the analysis unit and the inspection support information created based on the analysis result are transferred to the terminal device.