JP2020135003A - Information processing device, information processing method and program - Google Patents

Abstract

To propose a technique capable of providing deterioration information that can be used for future prediction about an underground installed object including a digestion tank.SOLUTION: An information processing device includes: a reception part 10 for receiving an input of input information on the number of years after installation and the installation address of an underground installed object 200; a calculation part 20 for calculating deterioration information about the underground installed object 200, the calculation part 20 reading information on an earthquake at the installation address on the basis of the installation address to calculate the deterioration information by applying the information on the earthquake and the number of years after installation to a diagnostic model; and an output part 30 for outputting a result calculated by the calculation part 20.SELECTED DRAWING: Figure 1

Description

The present invention relates to an information processing device, an information processing method and a program for diagnosing underground buried objects including septic tanks.

Conventionally, septic tanks for purifying dirty water used in homes have been used, and maintenance of the septic tanks has been attempted. In Patent Document 1, the storage means connected to the computer stores the equipment standard, the equipment actual condition data, the water quality standard and the water quality inspection result data, and the equipment inspection standard and the auditing standard, and the computer is the equipment evaluation means and the water quality evaluation. Aspects including means and primary evaluation means are disclosed.

JP-A-2018-116743

In Patent Document 1, evaluation is performed using equipment evaluation and water quality evaluation, and the evaluation at the present time is used as a reference. For this reason, it is not sufficient to prepare for future forecasts such as planning based on future forecasts and securing funds.

The present invention proposes a technique capable of providing deterioration information that can be used for future prediction for underground buried objects including septic tanks.

The information processing device according to the present invention
The reception department that accepts input information on the installation years and installation address of underground buried objects,
It is a calculation unit that calculates deterioration information about the underground buried object, and it deteriorates by reading out the information about the earthquake at the installation address based on the installation address and applying the information about the earthquake and the installation years to the diagnostic model. A calculation unit that calculates information and
An output unit that outputs the result calculated by the calculation unit, and
May be provided.

In the information processing device according to the present invention
The reception section accepts parking lot information regarding whether or not underground buried objects are installed in the parking lot as input information.
The calculation unit may calculate deterioration information using the parking lot information.

In the information processing device according to the present invention
The reception unit accepts the parking lot information as input information when the installation years have passed a predetermined period, or the calculation unit uses the parking lot information when the installation years have passed a predetermined period to deteriorate information. May be calculated.

In the information processing device according to the present invention
The reception section accepts input of soil information regarding the soil in which the underground buried object is installed.
The calculation unit may calculate deterioration information using the soil information.

In the information processing device according to the present invention
The reception department accepts pass / fail information regarding whether or not the latest inspection has passed as input information.
The calculation unit may calculate deterioration information using the pass / fail information.

In the information processing device according to the present invention
The reception section accepts groundwater level information regarding the groundwater level as input information.
The calculation unit may calculate deterioration information using the groundwater level information.

In the information processing device according to the present invention
The underground buried object is a septic tank,
The calculation unit may calculate the deterioration information assuming that the septic tank is made of fiber reinforced plastic or dicyclopentadiene.

In the information processing device according to the present invention
The underground buried object is a septic tank,
The reception unit receives the number of personnel to be processed in the septic tank as input information, and receives it.
The calculation unit may calculate deterioration information using the number of personnel to be processed.

In the information processing device according to the present invention
The reception section accepts the manufacturer name and model of the underground buried object as input information.
The calculation unit may calculate deterioration information using the manufacturer name and the model.

In the information processing device according to the present invention
The output unit may output the deterioration information to the input person and the administrative agency or the related company of the underground burial.

In the information processing device according to the present invention
The inspection result of the underground buried object is accepted as the inspection result information, and
The information processing device may include a model generation unit that generates the diagnostic model using the information on the earthquake, the installation years, and the inspection result information.

The information processing method according to the present invention
The process of accepting input information regarding the installation years and installation address of underground buried objects by the reception department,
In the process of calculating the deterioration information of the underground buried object by the calculation unit, the information about the earthquake at the installation address is read out based on the installation address, and the information about the earthquake and the installation years are applied to the diagnostic model. The process of calculating deterioration information by
The process of outputting the calculated result by the output unit and
May be provided.

The program according to the present invention
A program to be installed in an information processing device
The information processing device on which the program is installed
The reception department that accepts input information on the installation years and installation address of underground buried objects,
It is a calculation unit that calculates deterioration information about the underground buried object, and it deteriorates by reading out the information about the earthquake at the installation address based on the installation address and applying the information about the earthquake and the installation years to the diagnostic model. A calculation unit that calculates information and
An output unit that outputs the result calculated by the calculation unit, and
May be provided.

In the present invention, an embodiment in which input of the installation years and the installation address of the underground buried object is accepted, and deterioration information about the underground buried object is calculated by applying at least the information on the installation years and the earthquake read from the installation address to the diagnostic model. When adopted, deterioration information for underground buried objects such as septic tanks can be calculated by taking into account not only aging deterioration but also deterioration due to earthquakes depending on the number of years of installation.

FIG. 1 is a block diagram showing a configuration of an information processing apparatus that can be used in the embodiment of the present invention. FIG. 2 is a diagram for explaining the flow of data in the embodiment of the present invention. FIG. 3 is a diagram showing an example of a processing mode of the information processing apparatus that can be used in the embodiment of the present invention.

Embodiment << configuration >>
The information processing device of the present embodiment may be composed of one device or a plurality of devices. Further, when the information processing device is composed of a plurality of devices, each device does not have to be provided in the same space such as the same room, and may be provided in a different room, a different building, a different area, or the like. In this embodiment, "and / or" may be used for explanation, but the word "or" also includes the meaning of "and". That is, the wording A or B is a concept including A alone, B alone, and A and B.

The information processing apparatus of the present embodiment is buried underground by applying one or more of the input information to the reception unit 10 that accepts the input of the input information regarding the installation years and the installation address of the underground buried object 200. It may have a calculation unit 20 for calculating deterioration information about the object 200, and an output unit 30 for outputting the result calculated by the calculation unit 20. The calculation unit 20 reads information about the earthquake at the installation address from the storage unit 60 (including the external storage unit installed in the external device) or the like based on the installation address, and calculates deterioration information using the information about the earthquake. You may. The underground buried object 200 is, for example, a septic tank. In this case, the calculation unit 20 may calculate the deterioration information assuming that the septic tank is made of fiber reinforced plastic (FRP). In the following, the underground buried object 200 will be described using an embodiment consisting of a septic tank, but the underground buried object 200 is not limited to this, and the underground buried object 200 is a pipe such as a gas pipe or a water pipe installed underground or a gas station. It may be a gasoline tank or the like. The input information may be input via an operation unit 40 such as a keyboard of a personal computer, a smartphone, or a tablet. The information output by the output unit 30 may be displayed on the display screen 45, or may be output by voice. Further, the present invention is not limited to the above aspect, and the deterioration information may be calculated assuming that the septic tank is made of dicyclopentadiene.

A septic tank is a facility installed in the basement adjacent to a house or the like to purify dirty water generated in daily life to make it clean. It is necessary to periodically remove the microorganisms and components that cannot be decomposed inside the septic tank. The water cleaned in the septic tank will be drained into rivers and waterways. An S-shaped flow path is provided in the septic tank, and a filter medium, microorganisms, or the like may be provided. Fiber reinforced plastics are generally hard to deteriorate, but if the material is fatigued and deteriorated due to acids, alkalis, earthquakes, and repeated loads, and the usage period is 40 to 50 years, problems may occur in terms of durability. .. If the septic tank is damaged, the risk of deterioration of the living environment, such as the outflow of coliform bacteria into soil and groundwater, increases. The septic tank includes a single septic tank and a combined septic tank.

The reception unit 10 may accept parking lot information as input information regarding whether or not the underground buried object 200 is installed in the premises of the parking lot (below the parking lot). In this case, the calculation unit 20 may calculate the deterioration information using the parking lot information. As the parking lot information, it may be possible to input the position where the underground buried object 200 is installed in the parking lot. The operation unit 40 may be able to selectively input whether or not the parking lot is installed. When the underground buried object 200 is installed in a parking lot made of concrete or the like, the concrete is generally peeled off and replaced at the time of replacing the underground buried object 200. Therefore, the underground buried object 200 and the parking lot The calculation unit 20 may calculate the number of years of installation as if they match. Whether or not the parking lot is covered with concrete or the like can also be input as parking lot information, and the calculation unit 20 may calculate the deterioration information using the information.

The reception unit 10 accepts the parking lot information as input information when the installation period has passed the predetermined period, and the reception unit 10 does not accept the parking lot information as the input information when the predetermined period has not passed. Good. Further, the calculation unit 20 calculates the deterioration information using the parking lot information when the installation period has passed the predetermined period, and when the installation period has not passed, the calculation unit 20 calculates the deterioration information. The parking lot information may not be used.

The reception unit 10 may accept input of soil information regarding the soil in which the underground buried object 200 is installed. The calculation unit 20 may calculate the deterioration information using the soil information. The soil information may include information on whether the soil is acidic or alkaline, information on the pH of the soil, and soil texture. When such soil information is input, the soil information associated with the address stored in the storage unit 60 (including the external storage unit installed in the external device) or the like is read out, and the soil information is read out. It may be used by the calculation unit 20.

The installation address may be linked to the geographic information system data (GIS data). In this case, the data of the geographic information system (GIS) may be read out based on the input installation address and used for the calculation of the deterioration information in the calculation unit 20.

The reception unit 10 may accept pass / fail information regarding whether or not the latest inspection has been passed as input information. In this case, the calculation unit 20 may calculate the deterioration information using the pass / fail information. In addition, information as to whether or not the inspection is continuously performed may be input, and deterioration information may be calculated using the inspection history information. The most recent inspection means the most recent inspection.

The reception unit 10 may receive groundwater level information regarding the groundwater level as input information. In this case, the calculation unit 20 may calculate the deterioration information using the groundwater level information. When the installation address is input to such groundwater level information, the groundwater level information associated with the address stored in the storage unit 60 (including the external storage unit installed in the external device) or the like is read out. Therefore, it may be used by the calculation unit 20.

The reception unit 10 may accept the number of persons to be processed in the septic tank as input information. In this case, the calculation unit 20 may calculate the deterioration information by using the number of personnel to be processed.

The reception unit 10 may accept the manufacturer name and model of the underground buried object 200 as input information. In this case, the calculation unit 20 may calculate the deterioration information using the manufacturer name and the model.

As shown in FIG. 2, the output unit 30 may output the deterioration information to any one or more of the input person, the administrative agency, and the related company of the underground buried object 200. Based on the deterioration information, the output unit 30 may output replacement recommendation information to any one or more of the input person, the administrative agency, and the related company of the underground buried object 200. As an example, the recommended replacement time may be output based on the deterioration information, or the recommended replacement time may be output in consideration of the market price of the underground buried object 200 and the congestion of construction companies in addition to the deterioration information. Good. In this way, if the recommended replacement time is known in advance, a sufficient period until the construction can be provided, and the construction cost can be suppressed. Deterioration information may be shown graphically using the time axis as, for example, the horizontal axis. In this case, the recommended replacement time may be shown in the graph. Related companies include manufacturers of underground buried objects 200, companies that perform installation or repair work, companies that perform maintenance and inspection, companies that perform cleaning, and organizations that perform legal inspections.

As shown in FIG. 2, various data related to the underground buried object may be input to the information processing device from the owner of the underground buried object, and the data may be sequentially prepared. Further, the output unit 30 of the information processing apparatus may output a simple deterioration diagnosis report or a detailed deterioration diagnosis report to the input person.

Inspection data and the like related to underground buried objects may be periodically input from the manufacturer to the information processing device, and regular data maintenance may be performed. Further, the output unit 30 of the information processing apparatus may output a simple list or a detailed list to the manufacturer. The simplified list and the detailed list may consist of a diagnostic report for a plurality of underground buried objects, or may include a recommended replacement period for a plurality of underground buried objects.

Initial data on underground buried objects may be input from government agencies such as national and local governments. Further, for example, the calculation unit 20 of the information processing device may create a simple maintenance management plan, and the output unit 30 may output the simple maintenance management plan to the administrative organ.

Manufacturers include businesses that can manufacture the underground buried object 200. Manufacturers can obtain information on the appropriate replacement recommended time based on the information entered by the residents, etc., and can distribute leaflets to the residents, sell them by direct mail, etc.

When the recommended replacement period is within the second period and is approaching, the output unit 30 may output the manufacturer's advertisement on the display screen 45 viewed by the user. According to such an aspect, it can be expected that an order will be placed from the manufacturer by using the advertisement as a foothold.

The replacement time and estimated cost may be indicated. That is, the first predicted cost when exchanging at the first exchange time, the second predicted cost when exchanging at the second exchange time, ..., The nth predicted cost when exchanging at the nth exchange time ("n" "Is an integer of 2 or more) may be output by the output unit 30. The calculation unit 20 may calculate the recommended replacement time from the usage period and the estimated cost, and the output unit 30 may output the replacement.

The reception unit 10 may receive the inspection result of the underground buried object 200 as the inspection result information. A model generation unit 50 that generates a diagnostic model using the test result information may be provided. In this case, any one of the installation years, installation address, parking lot information, soil information, pass / fail information, inspection history information, groundwater level information, number of personnel to be processed, manufacturer name, model and road information (described later). A diagnostic model may be generated using one or more and test result information. The inspection result information may be input from the contractor who performed the inspection, repair, or cleaning, or the organization which performed the legal inspection, or may be input by the owner of the underground buried object.

As a diagnostic model, a probabilistic model such as a Markov chain model may be used. The diagnostic model may be updated on a regular basis, such as monthly or semi-annually.

The storage unit 60 may store individual measurement data such as treated water quality, strength information, image information, water leakage information, and improper information in the underground buried object 200 such as a septic tank (see FIG. 3). The storage unit 60 may store ledger data such as the year of installation, model, maintenance and inspection history, cleaning history, legal inspection history, equipment update, owner change, and administrative notification history of the underground buried object 200 such as a septic tank.

The model generation unit 50 may generate a diagnostic model using individual measurement data or ledger data. When the underground buried object consists of a septic tank, the model generation unit 50 may generate a diagnostic model using data of 10,000 or more septic tanks that have been installed for 40 years or more. That is, when generating a model, only the data of underground buried objects such as septic tanks that have passed a predetermined period may be used. Such data selection may be automatically performed by the model generation unit 50.

Data may be collected from local governments nationwide. At this time, as the septic tank operation data, the performance, damage / deterioration status of the septic tank may be stored in the storage unit 60 based on the details of the legal inspection record.

By applying the data of underground buried objects such as septic tanks input to the diagnostic model, the prediction results of septic tanks with an improper occurrence probability of 50% or more and the occurrence prediction results of septic tanks with a damage occurrence probability of 50% or more Is calculated by the calculation unit 20, and may be output by the output unit 30. Such data analysis may be carried out based on the opinion gathering of experts.

Using the data analysis results, the local government may prepare a septic tank maintenance plan, formulate a medium- to long-term financial plan, or promote early conversion. In this case, the plan may be formulated based on the opinions gathered by the local government.

Further, the result of applying the diagnostic model, the actual diagnostic result, the situation at the time of exchange, etc. are stored in the storage unit 60, and may be used for refining the diagnostic model. The diagnostic model may be modified (coefficient review, model-specific) using the accumulated big data (especially data related to septic tanks that have passed 40 years or more). The model generation unit 60 may generate an aged deterioration model of the treated water quality and equipment strength for each model and region. In addition, the model generation unit 50 may generate a diagnostic model for each model and / or region.

The diagnostic model may be generated using artificial intelligence. In this case, the calculation unit 20 may generate a diagnostic model using a plurality of adopted variables and coefficients for each adopted variable. The calculation unit 20 can adopt various models as the machine learning technique, for example, a neural network, a logistics regression model, a random forest model, a tree model, and the like. When the diagnostic model is generated using artificial intelligence, the number of years of installation, installation address, parking lot information, soil information, pass / fail information, inspection history information, groundwater level information, number of people to be processed, manufacturer name, model and The diagnostic model may be learned based on any one or more of the road information (described later) and the test result information. Further, when a problem such as a crack or damage occurs in the underground buried object 200, the diagnostic model may be learned based on the information.

In the present embodiment, a program for providing the information processing device of the present embodiment, that is, a program for which the information processing device of the present embodiment is manufactured (generated) by installing the program, and the program are installed. Storage media are also provided. Also provided is a processing method implemented by the information processing apparatus.

Each member of the reception unit 10, the calculation unit 20, the output unit 30, the storage unit 60, etc. of the present embodiment may be realized by one or a plurality of IC chips or electronic modules, or is realized by a circuit configuration. You may. Further, one electronic member may serve as a control unit and may function as a reception unit 10, a calculation unit 20, an output unit 30, a storage unit 60, and the like.

"effect"
Next, the effects of the present embodiment having the above-described configuration, which have not been described yet, will be mainly described.

We adopted a mode in which input of the installation years and installation address of the underground buried object 200 is accepted, and deterioration information about the underground buried object 200 is calculated by applying at least the information on the installation years and the earthquake read from the installation address to the diagnostic model. In this case, deterioration information for the underground buried object 200 such as a septic tank can be calculated by taking into account not only deterioration over time but also deterioration due to an earthquake depending on the number of years of installation. In the case of the underground buried object 200, the deterioration information cannot be easily visually recognized and it is difficult to obtain the deterioration information, but the deterioration information can be calculated accurately by using this aspect.

The useful life of septic tanks is generally not fixed. On the other hand, if the septic tank is damaged, the risk of deterioration of the living environment such as the outflow of coliform bacteria into soil and groundwater increases. For this reason, it is possible to replace the septic tank with a new one as soon as possible, judging from the number of years of installation, but in that case, the problem is that the septic tank that is still available will be replaced at an early stage. Become. On the other hand, according to the above aspect, since the deterioration information is calculated and the septic tank is replaced using the calculation result, the septic tank can be replaced at an appropriate time. In addition, when a large earthquake occurs or the number of earthquakes is large, it may be necessary to replace it with a new septic tank in a shorter period than initially expected. In this respect, in the above aspect, since the deterioration information is calculated in consideration of the earthquake information, the deterioration state can be accurately derived and the risk of deterioration of the living environment can be suppressed to a low level.

When the calculation unit 20 adopts the mode of calculating the deterioration information using the parking lot information, the deterioration information for the underground buried object 200 such as the septic tank is calculated by adding the information such as the pressure and vibration due to the weight of the vehicle. it can.

When the underground buried object 200 is composed of a septic tank, the septic tank is usually installed surrounded by a frame having a plurality of (for example, four) pillars. Therefore, even if a septic tank is provided below the parking lot, it is theoretically not affected by the vibration of the car or the weight of the car when the frame is not deteriorated. Therefore, it is possible to adopt a mode in which the information about the parking lot is not used until a certain period (first period) has elapsed. For example, when the installation period has not passed the first period, the input burden on the user can be reduced by not accepting the parking lot information as input information. In addition, by adopting a mode in which the input of parking lot information is accepted but not used when the installation period has not passed the predetermined period, it is acquired as information and has a useful meaning as deterioration information. The information can be used when the information is reached.

As the parking lot information, input for the vehicle type information of the parked vehicle may be accepted, and the deterioration information may be calculated using the vehicle type information. It is conceivable that the deterioration status of the frame will change depending on the difference in the weight of the car, and it can be expected that more accurate deterioration information can be obtained by inserting the car model information of the car.

Since the underground buried object 200 is installed in the soil, it is considered that it is affected by the soil. When the underground buried object 200 is composed of a septic tank, the degree of deterioration of the frame surrounding the septic tank is affected by the nature of the soil. Therefore, when the calculation unit 20 adopts a mode in which deterioration information is calculated using soil information such as soil pH and soil quality, it can be expected that more accurate deterioration information can be obtained.

The reception unit 10 may receive the road information as input information, and the calculation unit 20 may calculate the deterioration information of the underground buried object 200 using the road information. The road information may be information as to whether or not the underground buried object 200 is installed adjacent to the main street. However, such information may be read out from the storage unit 60 (including the external storage unit installed in the external device) or the like based on the installation address and used for the calculation in the calculation unit 20. Good.

The location of the underground buried object 200 may be entered in the map. For example, a map based on the installation address may be displayed when the input person inputs information, and the installation location of the underground buried object 200 may be input in the map. In this case, the deterioration information is calculated using the installation location of the underground buried object 200, and whether the underground buried object 200 is installed near the adjacent road or is installed at a position away from the adjacent road. Deterioration information can be calculated using detailed information such as whether or not there is.

When the calculation unit 20 calculates the deterioration information using the pass / fail information regarding whether or not the latest inspection has passed, the deterioration information can be calculated in consideration of the pass / fail information. If it passes, deterioration information can be calculated on the premise that certain criteria are met, based on information that there is no problem with water quality at the time of inspection and that there are no cracks, breakage, peeling, etc. If it fails, it may be possible to enter information as to whether or not the product has been repaired or replaced. If repair / replacement is performed, deterioration information may be calculated on the premise that deterioration information is calculated, and if repair / replacement is not performed, deterioration information may be calculated on the premise that the condition is unacceptable. When the deterioration information is calculated using the inspection history information, the deterioration information can be calculated in consideration of the past inspection history. This inspection history may include inspection results regarding pass / fail, or may include special circumstances if there are special circumstances.

The underground buried object 200 is installed in the soil and may be affected by the groundwater level such as groundwater. Therefore, when the calculation unit 20 adopts the mode of calculating the deterioration information using the groundwater level information, the deterioration information can be calculated in consideration of the groundwater level as well.

The septic tanks with a large number of people and the septic tanks with a small number of people are different in size, and their strength and deterioration resistance are also different. Therefore, when the mode of accepting the number of persons to be processed as input information and calculating the deterioration information using the number of persons to be processed is adopted, the deterioration information can be calculated in consideration of the difference in the making of the septic tank. The number of personnel to be processed may be acquired from the storage unit 60 based on the input model information. In general, septic tanks with a large number of people to be treated and a large size tend to be less likely to deteriorate due to thicker wall thickness and the like.

When the manufacturer name and model of the underground buried object 200 are accepted as input information and the deterioration information is calculated using these manufacturer names and models, the deterioration information is provided in consideration of the individual specifications of the septic tank. It can be calculated. Residents of detached houses may not know the manufacturer name and model of underground buried objects 200 such as septic tanks, but management associations for condominiums and other condominiums may not know the names and models of underground buried objects 200 such as septic tanks. It can be expected that the manufacturer name and model are known, and in that case, highly accurate deterioration information can be obtained by prompting the input of such information.

When the mode in which the output unit 30 outputs the calculated deterioration information to the input person is adopted, the input person who is a resident of the residence can typically obtain the deterioration information of the underground buried object 200. When the output unit 30 adopts a mode of outputting the calculated deterioration information to the administrative agency, the administrative agency can accumulate the deterioration information of the underground buried object 200. As an example, even if the resident of the house is an input person, the government agency can obtain the deterioration information of the underground buried object 200 installed in the house based on the information input by the input person, and it is within the jurisdiction of the government agency. It is possible to aggregate and manage the deterioration information of the underground buried object 200 in the above. When the mode in which the output unit 30 outputs the calculated deterioration information to the manufacturer of the underground buried object 200 is adopted, the manufacturer of the underground buried object 200 can accumulate the deterioration information of the underground buried object 200. As an example, even if the resident of the house is an input person, the underground buried object 200 is installed or repaired based on the information input by the input person based on the deterioration information of the underground buried object 200 installed in the house. It is available to traders and gives them the opportunity to make new sales, for example the need to replace the underground burial 200.

An administrative agency may install an underground buried object 200 such as a septic tank and maintain it. Therefore, in the case of such a mode, when the mode in which the output unit 30 outputs the calculated deterioration information to the administrative agency as described above is adopted, the underground buried object 200 managed by the administrative agency is appropriate. It is possible to grasp the replacement time. In addition, companies may install underground buried objects 200 for maintenance due to privatization or the like. Therefore, in such a mode, when the output unit 30 outputs the calculated deterioration information to the corresponding company (the company registered in the storage unit 60), the company manages itself. It is possible to grasp the appropriate replacement time of the underground buried object 200.

When the underground buried object 200 is a septic tank and the aspect of calculating the deterioration information is adopted assuming that the septic tank is formed of fiber reinforced plastic (FRP), the material can be determined and the deterioration information can be obtained. It is possible to facilitate the acquisition of the information. The material may be automatically selected based on the number of years of installation. In other words, when the number of years of septic tank installation is entered, if there is a high possibility that the material of the septic tank is fiber reinforced plastic from the number of years of installation, deterioration information is calculated on the assumption that the septic tank is made of fiber reinforced plastic. If there is a high possibility that the septic tank material is a material other than fiber reinforced plastic (first material) from the number of years of installation, deterioration information is calculated on the assumption that the septic tank is made of the material (first material). You may. Since the pipe is often made of vinyl chloride, the deterioration information may be calculated on the assumption that the underground buried object 200 is made of vinyl chloride in the case of the pipe. It may be possible to input what the underground buried object 200 is via the operation unit 40. When the underground buried object 200 is specified, the material of the underground buried object 200 may be automatically selected and the deterioration information may be calculated by the calculation unit 20.

The description of the embodiment and the disclosure of the drawings described above are merely examples for explaining the invention described in the claims, and are described in the claims by the description of the above-described embodiments or disclosure of the drawings. The inventions made are not limited. In addition, it should be noted that the description of the scope of claims at the time of filing is only the scope of claims at the time of filing and can be changed as appropriate.

10 Reception unit 20 Calculation unit 30 Output unit 50 Model generation unit 60 Storage unit 200 Underground structure

Claims (13)

The reception department that accepts input information on the installation years and installation address of underground buried objects,
It is a calculation unit that calculates deterioration information about the underground buried object, and it deteriorates by reading out the information about the earthquake at the installation address based on the installation address and applying the information about the earthquake and the installation years to the diagnostic model. A calculation unit that calculates information and
An output unit that outputs the result calculated by the calculation unit, and
Information processing device equipped with. The reception section accepts parking lot information regarding whether or not underground buried objects are installed in the parking lot as input information.
The calculation unit calculates deterioration information using the parking lot information. The information processing device according to claim 1. The reception unit receives the parking lot information as input information when the installation years have passed a predetermined period, or the calculation unit uses the parking lot information when the installation years have passed a predetermined period to deteriorate information. 2. The information processing apparatus according to claim 2. The reception section accepts input of soil information regarding the soil in which the underground buried object is installed.
The information processing device according to any one of claims 1 to 3, wherein the calculation unit calculates deterioration information using the soil information. The reception department accepts pass / fail information regarding whether or not the latest inspection has passed as input information.
The information processing device according to any one of claims 1 to 4, wherein the calculation unit calculates deterioration information using the pass / fail information. The reception section accepts groundwater level information regarding the groundwater level as input information.
The information processing device according to any one of claims 1 to 5, wherein the calculation unit calculates deterioration information using the groundwater level information. The underground buried object is a septic tank,
The information processing device according to any one of claims 1 to 6, wherein the calculation unit calculates the deterioration information assuming that the septic tank is formed of fiber reinforced plastic or dicyclopentadiene. The underground buried object is a septic tank,
The reception unit accepts the number of personnel to be processed in the septic tank as input information,
The information processing device according to any one of claims 1 to 7, wherein the calculation unit calculates deterioration information using the number of personnel to be processed. The reception section accepts the manufacturer name and model of the underground buried object as input information.
The information processing device according to any one of claims 1 to 8, wherein the calculation unit calculates deterioration information using the manufacturer name and the model. The information processing device according to any one of claims 1 to 9, wherein the output unit outputs the deterioration information to an input person and an administrative agency or a company related to the underground buried object. The inspection result of the underground buried object is accepted as the inspection result information, and
The information processing apparatus according to any one of claims 1 to 10, further comprising a model generation unit that generates the diagnostic model using the information on the earthquake, the installation years, and the inspection result information. The process of accepting input information regarding the installation years and installation address of underground buried objects by the reception department,
In the process of calculating the deterioration information of the underground buried object by the calculation unit, the information about the earthquake at the installation address is read out based on the installation address, and the information about the earthquake and the installation years are applied to the diagnostic model. The process of calculating deterioration information by
The process of outputting the calculated result by the output unit and
Information processing method including. A program to be installed in an information processing device
The information processing device on which the program is installed
The reception department that accepts input information on the installation years and installation address of underground buried objects,
It is a calculation unit that calculates deterioration information about the underground buried object, and it deteriorates by reading out the information about the earthquake at the installation address based on the installation address and applying the information about the earthquake and the installation years to the diagnostic model. A calculation unit that calculates information and
An output unit that outputs the result calculated by the calculation unit, and
Program with.