JP6842819B2 - Road structure inspection information management system - Google Patents

Description

The present invention relates to an inspection information management system for road structures, and more particularly to a system for managing inspection information of bridges, tunnels, slopes, and the like.

In order to maintain and manage road structures such as bridges, tunnels, and slopes, daily inspection results are recorded, stored and stored in a database, and if necessary, the information is read out for deterioration prediction, etc. It needs to be useful.

FIG. 1 conceptually shows how the inspection results of road structures are recorded. As shown in FIG. 4, the two-dimensional expansion base diagram 50 of the road structure is a diagram in which the surface structure of the road structure is expanded into a two-dimensional plane, and can be composed of CAD data. ..

One day, when the road structure is inspected and damage is found at the inspection point P1, the corresponding inspection point P1 in the two-dimensional expansion base diagram 50 of the data sheet T21 is marked and corresponds to the inspection point P1. Then, the information of the inspection result (for example, the type of damage is "crack" and the presence or absence of repair is "unrepaired") is recorded. In addition, a photograph G11 showing the damage status of the inspection point P1 is taken. These data are stored and stored in the database 21.

In addition, one day, when the road structure is inspected and damage is found at the inspection point P2, the corresponding inspection point P2 in the two-dimensional expansion base diagram 50 of the data sheet T22 is marked, and the inspection point is marked. Corresponding to P2, the information of the inspection result (for example, the type of damage is "crack" and the presence or absence of repair is "unrepaired") is recorded. In addition, a photograph G21 showing the damage status of the inspection point P2 is taken. These data are stored and stored in the database 21.

In addition, one day, when the road structure is inspected and damage is found at the inspection point P3, the corresponding inspection point P3 in the two-dimensional expansion base diagram 50 of the data sheet T23 is marked, and the inspection point is marked. Corresponding to P3, the information of the inspection result (for example, the type of damage is "floating" and the presence or absence of repair is "unrepaired") is recorded. In addition, a photograph G31 showing the damage status of the inspection point P3 is taken. These data are stored and stored in the database 21.

In addition, when repair is performed at the inspection point P3 of the road structure on one day, the corresponding inspection point P3 in the two-dimensional expansion base diagram 50 of the data sheet T24 is marked, and the inspection point P3 corresponds to the inspection point P3. Then, the information of the inspection result (for example, the type of damage is "floating" and the presence or absence of repair is "repaired") is recorded. In addition, a photograph G32 showing the damage status of the inspection point P3 is taken. These data are stored and stored in the database 21.

In Patent Document 1 below, when a road inspector discovers damage to a road, a photograph showing the location of the road damage and the damaged part of the road is transmitted from the mobile terminal to the server, and the server is based on the transmitted information. Along with the map, an invention is described in which a photograph showing a road damage position, a photograph showing a road damage portion, and a report screen in which a road damage situation is arranged are generated so that the road repairer or the like can view the road damage.

Japanese Unexamined Patent Publication No. 2007-65554

However, the current method described above has the following problems.
1) In order to narrow down arbitrary inspection items and check the inspection / repair history of all inspection points, it is necessary to compare two or more data sheets including past data sheets. That is, in order to confirm the inspection / repair history of the inspection points P1, P2, and P3 related to the inspection item "presence / absence of repair", refer to all the data sheets T21, T22, T23, and T24 and compare them. , It must be determined which inspection points have been repaired.
2) In order to check the inspection and repair history of damage in the same place, it is necessary to compare two or more data sheets including the past data sheet and the corresponding photographic data. That is, in order to confirm the inspection / repair history of the inspection point P3, it is necessary to compare the data sheets T23 and T24 and the photographic data G31 and G32.

It is troublesome and skillful for the operator to read two or more data sheets or photographic data individually from the database and compare them with each other to check the inspection / repair history.

Note that Patent Document 1 is merely an invention in which a road damage position or the like found by a road inspector can be viewed by a road repairer or the like on a display screen, and the past inspection and repair history of a road structure is searched for in the first place. It is not an invention that makes this possible.

The present invention has been made in view of such circumstances, and an object of the present invention is to make it easy to search for an inspection / repair history without requiring skill.

The first invention is
It is an inspection information management system for road structures.
Specify two reference points on the two-dimensional development base map of the road structure, and enter known position information on the road corresponding to at least the two reference points.
Based on the specified at least two reference points and the input known position information on the road, the two-dimensional coordinate axes on the display screen of the two-dimensional development base map are set.
When the road structure is inspected, the inspection location on the two-dimensional development base map corresponding to the location where the road structure is inspected is specified on the display screen, and the information indicating the inspection content is inspected. Enter each item and
Information indicating the inspection time and information indicating the inspection content for each inspection item are stored in the database in association with the two-dimensional coordinate position on the display screen corresponding to the specified inspection location.
When the inspection item and / or the inspection time is specified on the display screen, the inspection location corresponding to the specified inspection item and / or the inspection time is read from the database, and the two-dimensional It is characterized by being displayed as an inspection point on the development base diagram.

The second invention is the first invention.
Further, when the inspection location of the two-dimensional expansion base diagram is specified on the display screen, the information indicating the inspection content corresponding to the designated inspection location and / or the information indicating the inspection time is read from the database. It is characterized in that it is displayed on the display screen.

The third invention is the first invention or the second invention.
The inspection item is characterized by including at least photographic data indicating the type of damage, the presence or absence of repair, the magnitude of damage, and the damage status.

According to the first invention, when the inspection item and / or the inspection time is specified on the display screen, the inspection points corresponding to the specified inspection item and / or the inspection time are read from the database. It is taken out and displayed as an inspection point on the two-dimensional development base map.
For example, as shown in FIG. 8A, when the inspection item "presence or absence of repair is" unrepaired "" is specified, all inspections of "unrepaired" are performed on the two-dimensional expansion base diagram 50 of the display screen 31. Locations P1 and P2 are displayed. Further, for example, as shown in FIG. 10B, when the inspection item "presence or absence of repair is" repaired "" is specified, all of "repaired" is displayed on the two-dimensional expansion base diagram 50 of the display screen 31. Inspection point P3 is displayed.

Further, according to the second invention, when the inspection location of the two-dimensional development base diagram is specified on the display screen, the information indicating the inspection content corresponding to the designated inspection location and / or the information indicating the inspection time is displayed. It is read from the database and displayed on the display screen.

For example, as shown in FIG. 11, when the inspection point P3 of the two-dimensional expansion base diagram 50 is designated on the display screen 31, the information indicating the inspection content corresponding to the designated inspection point P3, that is, the inspection point P3 is related. History from "unrepaired" to "repaired", information that the type of repair is "floating", information that the damage size is "0.4" (damage rank is "medium"), damage status The photographic data G31 and G32 indicating the above and the data indicating the information that their inspection time is "g year h month i day" and "d year j month k day" are read from the database and displayed on the display screen 31. Will be done.

Therefore, the operator can easily search for inspection and repair information without requiring skill.

FIG. 1 is a diagram for explaining the prior art, and is a diagram conceptually showing how the inspection results of the road structure are recorded. As shown in FIG. 2, it is a figure which shows the inspection information management system of the road structure of embodiment of this invention. FIG. 3 is a flowchart showing a processing procedure of the embodiment. FIG. 4 is a diagram showing the contents of the two-dimensional development base map of the road structure and the data related to the two-dimensional development base map. FIG. 5A is a diagram showing a display screen 31 of the communication terminal device, and is a diagram showing a screen for setting virtual coordinate axes on the display screen of the two-dimensional expansion base diagram. FIG. It is a figure explaining that the 2D coordinate axis on the display screen of the 2D development base map is set based on the 2 reference points and the input known position information on a road. FIG. 6 is a diagram showing a display screen of the communication terminal device, and is a diagram showing a screen for designating an inspection location in a two-dimensional development base diagram on the display screen. FIG. 7 is a diagram conceptually showing the data structure of the two-dimensional expansion base diagram. 8 (a) and 8 (b) are views showing the display screen of the communication terminal device, and display the inspection points on the two-dimensional expansion base diagram on the display screen according to the designated inspection item and / or the inspection time. It is a figure which showed the screen which performs. 9 (a) and 9 (b) are views showing a display screen of the communication terminal device, and are views showing a screen showing information indicating the inspection contents corresponding to the designated inspection points. 10 (a), (b), and (c) are screens that display the corresponding inspection contents when the inspection item and / or the inspection time is not specified on the display screen of the communication terminal device. It is a figure which showed. In FIG. 11, when the inspection location of the two-dimensional expansion base diagram is specified on the display screen of the communication terminal device, information indicating the past inspection and repair contents corresponding to the designated inspection location is displayed as the inspection and repair history. It is a figure which showed the screen which performs.

Hereinafter, embodiments of the road structure inspection information management system according to the present invention will be described with reference to the drawings.

As shown in FIG. 2, the inspection information management system 1 for a road structure according to an embodiment of the present invention includes a management device 20 and a communication terminal device 30. The management device 20 and the communication terminal device 30 are connected to each other so as to be able to transmit and receive by a communication network 2 such as the Internet and a LAN. The communication terminal device 30 is a smartphone, a mobile phone, a notebook computer, a tablet terminal, or the like.

As shown in FIG. 2, the management device 20 includes a server 22. The server 22 has a storage unit 23. As will be described later, the storage unit 23 displays the two-dimensional expansion base diagram 50 of the road structure on the display screen 31 of the communication terminal device 30, and inputs and outputs data related to the two-dimensional expansion base diagram 50. The application program required to do this is stored.

The server 22 has a database 21. The database 21 stores data on the position information of the inspection points on the two-dimensional expansion base diagram 50 and the two-dimensional expansion base diagram 50 of the road structure, the information indicating the inspection time, and the information indicating the inspection contents for each inspection item. ing. The inspection items include at least the type of damage, the presence or absence of repair, the magnitude of damage (damage rank), and photographic data showing the damage status.

The server 22 is connected to the communication network 2 via a communication line such as a telephone line, an ISDN line, and a dedicated line, and transmits and receives to and from the communication terminal device 30.

The communication terminal device 30 (for example, a tablet terminal) has a display screen 31. The communication terminal device 30 connects to the communication line network 2 via a communication line such as a telephone line, an ISDN line, or a dedicated line, or a base station, and transmits / receives to / from the server 22.

The processing contents performed by the inspection information management system 1 of the road structure configured as described above will be described below with reference to the flowchart.

FIG. 4 illustrates a two-dimensional development base diagram 50 of a road structure. Road structures include, for example, bridges, tunnels, slopes, and the like. The two-dimensional development base diagram 50 is a diagram in which the surface structure of the road structure is developed on a two-dimensional plane, and can be composed of CAD data. Raster (image) data may be superimposed to make it easier to see. The two-dimensional development base map 50 is a partial development view of the road structure in which the road structure is divided into predetermined sections on the road, and each reference point A on the map on one two-dimensional development base map 50, The position of B is known from the position information of the known KP (kilo post) on the road.

The inspection items of the road structure are the type of damage (cracking, floating, etc.), the presence or absence of repair (whether unrepaired or repaired), the magnitude of damage (rank of damage), the status of damage, text data, and text data. It is shown by photographic data showing the damage situation.

When damage is found at a certain part of the road structure or repair is performed, the inspection part is associated with the information indicating the inspection contents according to the above-mentioned inspection items and the information indicating the inspection time.

First, in step 101 shown in FIG. 3, a browser is started up on the communication terminal device 30 side, and the program stored in the storage unit 23 of the server 22 and the data stored in the database 21 are accessed via the communication network 2. Make it possible. As a result, the two-dimensional expansion base diagram 50 of the road structure can be displayed on the display screen 31 of the communication terminal device 30, data related to the two-dimensional expansion base diagram 50 can be input, and the data related to the two-dimensional expansion base diagram 50 can be input. You will be able to output the data to be used.

The process can be advanced by performing a command input operation of the input device (numeric keypad, touch operation, etc.) according to the instruction displayed on the display screen 31 of the communication terminal device 30.

If the two-dimensional development view 50 of the section to be inspected is already stored in the database 21, the two-dimensional development view 50 is read out and displayed on the display screen 31 of the communication terminal device 30.
If the two-dimensional development view 50 of the section to be inspected is not stored in the database 21, the CAD data of the two-dimensional development view 50 is input and displayed on the display screen 31 of the communication terminal device 30. .. (Step 101).

FIG. 5A is a diagram showing a display screen 31 of the communication terminal device 30, and shows a screen for setting virtual coordinate axes on the display screen 31 of the two-dimensional expansion base diagram 50.

The worker performs a process of designating the two reference points A and B on the two-dimensional development base diagram 50 of the road structure as indicated by arrows, and also on the road corresponding to these two reference points A and B. A process of inputting known position information, that is, for example, the position information of the known KP (kilo post) described above is performed.

As a result, as shown in FIG. 5B, the display screen 31 of the two-dimensional development base diagram 50 is based on the two designated reference points A and B and the input known position information on the road. The two-dimensional coordinate axes X and Y above are set. The reference points A and B are converted into the respective coordinate positions on the virtual coordinate axis Y on the display screen 31. The virtual coordinate axis X is set to an axis perpendicular to the virtual coordinate axis Y. In this way, it is possible to display an arbitrary position P on the two-dimensional expansion base diagram 50 as a two-dimensional coordinate position (X, Y) on the two-dimensional coordinate axes X and Y on the display screen 31. The data of the two-dimensional coordinate axes X and Y of the two-dimensional expansion base diagram 50 set in this way are stored in the database 21 of the server 22 via the communication network 2. As a result, it is possible to display or specify and specify an arbitrary portion P on the two-dimensional development view 50 of the section to be inspected on the display screen 31 of the communication terminal device 30 (step 102).

FIG. 6 is a diagram showing a display screen 31 of the communication terminal device 30, and shows a screen for designating an inspection location in the two-dimensional expansion base diagram 50 on the display screen 31.

Assuming that an inspection worker inspects a certain inspection point on a road structure, a process of designating an inspection point P1 on a two-dimensional development base diagram 50 corresponding to the inspection point on the display screen 31 of the communication terminal device 30. I do. In addition, the process of inputting information indicating the inspection contents related to the inspection location for each inspection item is performed.

Here, the inspection point P1 is designated, and the two-dimensional coordinate positions (X1, Y1) of the inspection point P1 on the two-dimensional expansion base diagram 50 are calculated. In addition, regarding the inspection point P1, data for each item such as the type of damage (“crack”), the presence or absence of repair (“unrepaired”), and the magnitude of damage (“0.2” or the damage rank “small”). Is entered. Further, the data G11 of the photograph showing the damage status of the inspection point P1 is input (step 103).

Next, in correspondence with the two-dimensional coordinate positions (X1, Y1) on the display screen 31 of the designated inspection point P1, the data indicating the inspection time (b month c day of a year) and the inspection contents for each inspection item are displayed. The data shown (type of damage (“crack”), presence / absence of repair (“unrepaired”), magnitude of damage (“0.2” or rank of damage “small”), and photo data G11 are the communication network. The data indicating the inspection time (b month c day a) can be acquired based on the photo data G11, that is, the data of the date when the photo was taken, which is stored in the database 21 of the server 22 via 2. Yes (step 104).

Further, on another day, an inspection worker inspects another inspection point of the road structure, and as shown in FIG. 6, the inspection is carried out in the same manner on the display screen 31 of the communication terminal device 30. The inspection location P2 on the two-dimensional development base diagram 50 corresponding to the location is specified, and regarding the inspection location P2, the type of damage (“crack”), the presence / absence of repair (“unrepaired”), and the magnitude of damage (“unrepaired”). When the data for each inspection item such as "0.2" or the damage rank "small") is input and the data G21 of the photograph showing the damage status is input, the inspection points P2-2 on the two-dimensional development base diagram 50 are input. The dimensional coordinate position (X2, Y2) is calculated, and the inspection time (d year e month f day) is indicated in association with the two-dimensional coordinate position (X2, Y2) on the display screen 31 of the designated inspection point P2. Data and data showing the inspection contents for each inspection item (type of damage (“crack”), presence / absence of repair (“unrepaired”), magnitude of damage (“0.2” or rank of damage “small”), The data G21 of the photograph is stored in the database 21 of the server 22 via the communication network 2 (step 104).

FIG. 7 conceptually shows the data structure of the two-dimensional expansion base diagram 50. Each time an inspection is performed, that is, each time an inspection point is specified, the data of the two-dimensional coordinate positions (X1, Y1) and (X2, Y2) on the display screen 31 of the designated inspection points P1 and P2, respectively. On the other hand, the data for each inspection item (photo data G11, G21, etc.) is associated with the data and stored in the database 21.

FIG. 8 is a diagram showing a display screen 31 of the communication terminal device 30, and displays a screen for displaying inspection points on the two-dimensional expansion base diagram 50 on the display screen 31 according to a designated inspection item and / or inspection time. Shown.

When the inspection item and / or the inspection time is specified on the display screen 31 of the communication terminal device 30, the inspection points corresponding to the specified inspection item and / or the inspection time are read from the database 21. It is taken out and displayed as an inspection point on the two-dimensional development base diagram 50. For example, as shown in FIG. 8A, when the inspection item "unrepaired" is specified as indicated by an arrow, the presence or absence of repair is referred to as "unrepaired". The inspection points P1 and P2 that have been inspected corresponding to the inspection items) are read from the database 21, and all the inspection points P1 and P2 that are "unrepaired" are displayed. Further, for example, as shown in FIG. 8B, when the inspection time “inspection year d” is specified, the inspection corresponding to the specified inspection time (inspection time “d year”) is performed. The inspection points P2 performed are read from the database 21, and only the inspection points P2 inspected in the "inspection year d" are displayed. If the inspection item and / or the inspection time is not specified, all the inspection points on the two-dimensional development base diagram 50 that have been inspected and repaired in the past are displayed (step 105).

FIG. 9 is a diagram showing a display screen 31 of the communication terminal device 30, showing a screen for displaying information indicating the inspection content and / or information indicating the inspection time corresponding to the designated inspection location.

For example, as shown in FIG. 9A, when the inspection location P1 of the two-dimensional expansion base diagram 50 is designated as indicated by an arrow on the display screen 31 of the communication terminal device 30, the designated inspection location P1 Information indicating the past inspection contents corresponding to (“type of damage” (“crack”), presence / absence of repair (“unrepaired”), size of damage (“0.2” or damage rank “small”), photo The data G11 and the inspection time (month c, year a)) are read from the database 21 of the server 22 via the communication network 2 and displayed on the display screen 31. Similarly, as shown in FIG. 9B, when the inspection point P2 of the two-dimensional expansion base diagram 50 is designated on the display screen 31 of the communication terminal device 30, it corresponds to the designated inspection point P2. Information indicating the inspection contents to be performed (type of damage (“crack”), presence / absence of repair (“unrepaired”), magnitude of damage (“0.2” or damage rank “small”), photo data G21, inspection The time (year e month f day)) is read from the database 21 of the server 22 via the communication network 2 and displayed on the display screen 31 (step 106).

Further, another display example is shown below.

In this display example, it is assumed that the inspection points P3 have been inspected and repaired in addition to the inspection points P1 and P2.

That is, if a road structure is inspected on a certain day (h month i day of g year) and damage is found at the inspection point P3, the display screen 31 corresponding to the inspection point P3 of the two-dimensional development base diagram 50 is displayed. Information indicating the inspection contents (type of damage (“floating”), presence / absence of repair (unrepaired), size of damage (“0.4” or damage) corresponding to the two-dimensional coordinate position (X3, Y3) of The rank “medium”), the photo data G31, and the inspection time (g year h month i day)) are stored in the database 21 of the server 22 (step 104).

Further, assuming that the road structure is inspected on one day (j / k / d) and the repair is performed at the inspection point P3, the display screen 31 corresponding to the inspection point P3 in the two-dimensional development base diagram 50 is displayed. Information indicating the inspection contents (type of damage ("floating"), presence / absence of repair (repaired), size of damage ("0.4" or damage) corresponding to the two-dimensional coordinate position (X3, Y3) of The rank “medium”), the photo data G32, and the inspection time (j / k day of d)) are stored in the database 21 of the server 22 (step 104).

Therefore, as shown in FIG. 10A, all the inspection points that have been inspected and repaired in the past are displayed on the display screen 31 of the communication terminal device 30 without specifying the inspection items and / or the inspection time. When the process of pressing the inspection / repair history button is performed as shown by the arrow, all the inspection points P1, P2, and P3 that have been inspected and repaired in the past are displayed on the two-dimensional expansion base diagram 50 of the display screen 31. Is displayed. Then, the photographic data G11, G21, G31, and G32 showing the history of the past damage status corresponding to each of the inspection points P1, P2, and P3 are also displayed on the display screen 31 (step 105).

Here, the unrepaired inspection points P1 and P2 and the repaired inspection points P3 may be displayed in different colors on the display screen 31 of the communication terminal device 30. For example, unrepaired inspection points P1 and P2 are displayed in red, and repaired inspection points P3 are displayed in yellow.

Further, it may be displayed in different colors for each type of damage. For example, the inspection points P1 and P2 whose damage type is "crack" and the inspection points P3 whose damage type is "floating" can be displayed in different colors.

Further, the inspection item and / or the inspection time may be specified, and only the inspection points corresponding to the specified inspection item and / or the inspection time may be displayed. For example, as shown in FIG. 10B, when the inspection item “repaired” is specified, only the inspection point P3 that is “repaired” is displayed. Further, for example, as shown in FIG. 10 (c), when the inspection time of "inspection year d" is specified, only the inspection points P2 and P3 inspected in "inspection year d" are displayed. In the same way, other inspection items (damage size (damage rank)) can be specified, two or more inspection items can be specified in combination, or inspection items and inspection time can be specified in combination. Only the inspection points corresponding to the inspection contents and inspection timing can be displayed (step 105).

Further, when the inspection location is specified on the display screen 31, information indicating the inspection content and / or the inspection time corresponding to the designated inspection location is displayed. For example, when the inspection point P3 of the two-dimensional expansion base diagram 50 is designated on the display screen 31 of the communication terminal device 30, the past history showing the inspection contents corresponding to the designated inspection point P3 is displayed on the display screen 31. Is displayed in.

That is, as shown in FIG. 11, when the inspection point P3 of the two-dimensional expansion base diagram 50 is designated on the display screen 31 of the communication terminal device 30, the past inspection and repair corresponding to the designated inspection point P3 The information indicating the content and inspection time is the inspection repair history, that is, at the inspection time "g year h month i day", the presence or absence of repair was "unrepaired", and the photograph showing the damage status was G31, but inspection At the time of "d year j month k day", the information that the presence or absence of repair is "repaired" and the photograph showing the damage status is G32 is displayed. Information that the type of damage is "floating", the magnitude of damage is "0.4", or the damage rank is "medium" is also displayed (step 106).

As described above, according to the present embodiment, when the inspection item and / or the inspection time is specified on the display screen, the inspection location corresponding to the specified inspection item and / or the inspection time is performed. Can be read from the database and displayed as an inspection location on the two-dimensional development base map.

Further, according to the present embodiment, when the inspection location of the two-dimensional development base diagram is specified on the display screen, the information indicating the inspection content corresponding to the designated inspection location and / or the information indicating the inspection time is displayed. It is read from the database and displayed on the display screen.
Therefore, the operator can easily search for inspection and repair information without requiring skill.

Claims (2)

An inspection information management system for road structures including bridges, tunnels, and slopes.
The inspection information management system includes a management device including a server, a communication terminal device, and a communication network that connects the management device and the communication terminal device so as to be able to transmit and receive each other.
The server has a database
The communication terminal device has a display screen and has a display screen.
Along with the process of designating two reference points on the two-dimensional development base map as a partial development map of the road structure in which the road structure is divided into predetermined sections on the road, it corresponds to at least the two reference points. The process of inputting known position information on the road is performed by the communication terminal device, and the process is performed.
Based on the designated at least two reference points and the input known position information on the road, the designated at least two reference points are set to one virtual coordinate axis (Y) on the display screen. Converted to each of the above coordinate positions, the other virtual coordinate axis (X) is set to an axis perpendicular to the one virtual coordinate axis (Y), and the two-dimensional expansion base diagram is two-dimensional on the display screen. A process of setting the coordinate axes (X, Y) is performed, and an arbitrary position (P) on the two-dimensional development base diagram is set as a two-dimensional coordinate position (X, Y) on the two-dimensional coordinate axes X and Y on the display screen. Processing that makes it possible to display is performed,
When the road structure is inspected, on the display screen, along with the process of designating the inspection location on the two-dimensional development base map corresponding to the location where the road structure is inspected, information indicating the inspection content is provided. The process of inputting each inspection item is performed by the communication terminal device.
A process is performed in which information indicating the inspection time and information indicating the inspection content for each inspection item are stored in the database in association with the two-dimensional coordinate position on the display screen corresponding to the designated inspection location. ,
When the process of designating the inspection item and / or the inspection time is performed by the communication terminal device on the display screen, the inspection location corresponding to the designated inspection item and / or the inspection time is displayed. The process of reading from the database and displaying it as an inspection point on the two-dimensional expansion base diagram is performed.
Further, when the process of designating the inspection location of the two-dimensional expansion base diagram is performed by the communication terminal device on the display screen, the past inspection contents corresponding to the same inspection location as the designated inspection location are displayed. A process is performed in which information indicating the history and / or information indicating the history of the past inspection period is read from the database and displayed on the display screen.
Inspection information management system road structure you characterized by. The inspection items should include at least photographic data showing the type of damage, the presence or absence of repair, the magnitude of damage, and the damage status.
The inspection information management system for a road structure according to claim 1.