JP7197232B1 - Building Energy Saving Performance Calculation Support Device, Building Energy Saving Performance Calculation Support Method and Program - Google Patents

Abstract

An object of the present invention is to reduce the labor required for designing a building. A process for determining whether or not there is missing data, which is data without a value, in a required data set, which is a set of data necessary for calculating energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings. a control unit that executes a certain presence/absence determination process, wherein the control unit determines which data is missing data when it is determined that there is missing data in the presence/absence determination process. Data determination processing is executed, and based on the result of the missing data determination processing, a compensation value that satisfies a compensation condition, which is a condition corresponding to each missing data and is a predetermined condition regarding compensation, is input to each missing data. Building energy saving performance calculation support device. [Selection drawing] Fig. 1

Description

The present invention relates to a building energy-saving performance calculation support device, a building energy-saving performance calculation support method, and a program.

In the design of buildings, based on the Act on the Rational Use of Energy (hereinafter referred to as the "Energy Conservation Act"; I have to design things. Specific examples include the "Energy Consumption Performance Calculation Program (Housing Version)" (Non-Patent Document 2) provided by the Building Research Institute, a national research and development agency, and the "Computer Performance Calculation Program for Houses and Dwelling Units" (Non-Patent Document 3) (These programs provided by the Building Research Institute are hereinafter referred to as "construction research programs".) It is necessary to design so that the energy consumption performance stipulated in the Energy Conservation Law satisfies the energy conservation standards.

Law Concerning Rational Use of Energy National Research and Development Agency Building Research Institute [searched on June 3, 2020], Internet <URL: https://house.app.lowenergy.jp/#/select> National Research and Development Agency Building Research Institute [searched on June 3, 2020], Internet <URL: https://envelope.app.lowenergy.jp/>

However, there are many types of prescribed data required for calculating energy consumption performance (hereinafter referred to as "energy saving calculation") as defined in the Energy Conservation Law. Furthermore, the appropriate value for each data as a building is often dependent on the values of other data. For these reasons, the input of data required for energy saving calculation is performed manually, and even the task of preparing a set of data required for one energy saving calculation requires a great deal of labor. Moreover, even with such a set of data prepared with great effort, if the results of the construction research program do not meet the energy conservation standards, it is necessary to re-enter the data.

Therefore, in many cases, the task of preparing a set of data necessary for energy-saving calculations is often performed multiple times, and in some cases, a great deal of labor is required to design a building. In this way, the design of the building was burdensome. This situation is not limited to the Energy Conservation Law, but is a common problem in the calculation of energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings.

SUMMARY OF THE INVENTION In view of the above circumstances, an object of the present invention is to provide a technique for reducing labor required for designing a building.

One aspect of the present invention is to determine whether or not there is missing data, which is data without a value, in a required data set, which is a set of data necessary for calculating the energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings. a control unit that executes a presence/absence determination process, wherein the control unit determines which data is missing data when it is determined that there is missing data in the presence/absence determination process and further, based on the result of the missing data determination process, for each missing data, compensation that satisfies a compensation condition that is a condition corresponding to each missing data and a predetermined condition related to compensation It is a building energy saving performance calculation support device that inputs values.

One aspect of the present invention is a computer-executed building energy-saving performance calculation support method in which a required data set, which is a set of data necessary for calculating energy consumption performance as stipulated by the Act on Energy Consumption Performance of Buildings, is provided. a control step of executing a presence/absence determination process that is a process of determining whether or not there is missing data that is data without missing data, and the control step includes a control step that determines that there is missing data missing data determination processing for determining which data is missing data, and based on the results of the missing data determination processing, This is a building energy saving performance calculation support method for inputting a compensation value that satisfies a compensation condition, which is a condition and a predetermined condition regarding compensation.

One aspect of the present invention is a program for causing a computer to function as the building energy-saving performance calculation support device.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to reduce labor required for designing a building.

Explanatory drawing explaining the outline|summary of the building energy-saving performance calculation support apparatus of embodiment. The figure which shows an example of the hardware constitutions of the building energy-saving performance calculation assistance apparatus of embodiment. The flowchart which shows an example of the flow of the process which the building energy-saving performance calculation assistance apparatus of embodiment performs.

(embodiment)
FIG. 1 is an explanatory diagram illustrating an overview of a building energy saving performance calculation support device 1 according to an embodiment.
To simplify the explanation, the calculation of the energy consumption performance stipulated in the Law Concerning the Rational Use of Energy (hereinafter referred to as the "Energy Conservation Law") will be described as an example. However, the energy consumption performance does not necessarily have to be stipulated by the Energy Conservation Law, and any energy consumption performance stipulated by the law on energy consumption performance of buildings may be used.

The building energy-saving performance calculation support device 1 performs missing data compensation for a set of data (hereinafter referred to as "required data set") necessary for calculating energy consumption performance (hereinafter referred to as "energy-saving calculation") as defined in the Energy Conservation Act. Execute the process. Missing data compensation processing is executed when missing data, which is data without a value, exists in the required data set. In the missing data compensation process, when there is missing data in the required data set, a value (hereinafter referred to as a "compensation value") that satisfies a predetermined condition regarding compensation (hereinafter referred to as a "compensation condition") is added to the input target missing data. This is the process of inputting data. Compensation conditions are conditions corresponding to missing data.

The data necessary for energy saving calculation may be, for example, information indicating the type of glass, which will be described later. is indicated by a predetermined numerical value for each type. The type of glass may be indicated, for example, by a string indicating the type of glass, but since the string is an ordered sequence of numbers for the computer, the type of glass is still indicated by a value in such a case. be

Missing data is, for example, a value that the user forgot to input even though it is necessary for energy saving calculation among the data necessary for energy saving calculation. Missing data may be, for example, data whose value has disappeared due to a computer error, among the data necessary for energy saving calculation.

In the example of FIG. 1, information D101 is an example of a required data set, and information D111 is an example of missing data. The information D112 is an example of data that is necessary for energy saving calculation and is not missing data. That is, the information D112 is an example of data that is necessary for energy saving calculation and has a value.

<Example of data required for energy saving calculation>
The required data set is, for example, a set of data requested by the BRI program as necessary for energy saving calculation. Therefore, the required data set is, for example, tabular data uploaded to the BRI program. The construction research program is provided by the National Research and Development Agency Building Research Institute "Energy consumption performance calculation program (housing version)" (Non-Patent Document 2) and "Outer skin performance calculation program of housing / dwelling unit" (Non-Patent Document 3) is.

A required data set in a building research program includes, for example, information about exterior walls. The information about the outer wall includes, for example, information indicating the name of the outer wall, information indicating the type of wall, information indicating the heat transmission coefficient, information indicating the building material number, information indicating the name of the building material, information indicating the thickness, are included as data necessary for energy saving calculation. Among these, the information indicating the thickness is used for calculating the pulsar (PAL ^* ).

Also, the required data set in the building research program includes, for example, information about windows. Information about windows, for example, information indicating the name of the opening, information indicating the heat transmission coefficient of the window, information indicating the solar heat gain coefficient of the window, and information indicating the performance of the window are required for energy saving calculation. data. The information indicating window performance includes information indicating the type of fittings and information indicating glass performance. Furthermore, the information indicating the performance of the glass includes information indicating the type of glass, information indicating the heat transmission coefficient, and information indicating the solar heat gain coefficient. Among these, the information on the type of glass is used for calculating the pulsar.

The compensation condition is, for example, a condition that the value is a predetermined value corresponding to the missing data. The compensation condition is, for example, that if the missing data is information indicating the heat transmission coefficient of the window, "1" is input.

The building energy-saving performance calculation support device 1 executes processing for determining whether or not there is missing data in the required data set (hereinafter referred to as “presence/absence determination processing”). Further, when it is determined that there is missing data as a result of the presence/absence determination processing, the building energy saving performance calculation support device 1 performs processing for determining which data is missing data (hereinafter referred to as “missing data determination processing”). ). When the missing data determination process is executed (that is, when it is determined that there is missing data by the presence/absence determination process), the building energy saving performance calculation support device 1 further compensates for the missing data based on the result of the missing data determination process. Execute the process. By executing the missing data compensation process, a compensation value that satisfies a compensation condition corresponding to each missing data is input to each missing data.

By executing the presence/absence determination process in this way, the user does not have to perform the work of visually confirming whether or not there is missing data. Therefore, the building energy-saving performance calculation support device 1 can reduce the labor required for building design.

Further, by executing the missing data compensation process in this way, the user does not have to re-input the values of the missing data. Therefore, the building energy-saving performance calculation support device 1 can reduce the labor required for building design.

<Other examples of compensation conditions>
If missing data exists in the pulse star set, the pulse star set itself may be processed by the control unit 11 as missing data. The compensation condition for a pulsar set in which missing data exists may be, for example, a condition that the pulsar optimization process is executed. That is, when missing data exists in a pulse star set, the compensation value for the pulse star set may be a compensation value that satisfies the compensation condition that the pulse star optimization process is executed, for example.

A pulsar set is a set of information indicating the thickness of the heat insulating material of the outer wall and information indicating the type and thickness of the glass. The pulser optimization process is a process for optimizing the pulser. The pulsar optimization process is executed by the building energy saving performance calculation support device 1, for example.

The pulsar optimization process will be described more specifically. The pulsar optimization process is a process of estimating the pulsar set that gives the minimum value of the difference between the pulsar value and a predetermined reference value. The predetermined reference value is 1, for example. Therefore, when the predetermined reference value is 1, the pulsar optimization process is a process of estimating a pulsar set that brings the value of the pulsar closest to 1.

In the pulsar optimization process, a pulsar calculation process is executed. The pulsar calculation process is a process of calculating a pulsar value based on the pulsar set. Therefore, in the pulsar optimization process, one pulsar value is calculated for each pulsar set.

The contents of the pulsar calculation process correspond to the type of glass indicated by the pulsar set that is the target of the pulsar calculation process. More specifically, the pulsar calculation process is a calculation formula according to the type of glass indicated by the pulsar group, and is determined by the construction research program, and the thickness of the outer wall insulation indicated by the pulsar group and the thickness of the glass. This is the processing to be executed for the pair with the thickness.

The pulsar optimization process is a set that gives the minimum value of the difference between the pulsar value and a predetermined reference value, and if it is possible to estimate the combination of the thickness of the insulation material of the outer wall and the type and thickness of the glass. Such processing may be used. For example, the pulsar optimization process may be a first-class optimization process. In the first-class optimization process, a pulsar calculation process is executed for each of a plurality of pulsar sets prepared in advance, and the pulsar set that gives the smallest pulsar out of the calculated pulsar sets is selected as the pulsar optimization process. This is a process to output as a result of execution.

A plurality of pulsar sets prepared in advance in the first-class optimization process are stored in advance in a predetermined storage unit such as the storage unit 14 to be described later, for example.

The pulsar optimization process may be, for example, a process of repeating a cycle process until a predetermined end condition is satisfied (hereinafter referred to as "second type optimization process"). In the cycle processing, a pulsar set stored in a predetermined storage unit is subjected to pulsar calculation processing, and based on the calculated pulsar set, the pulsar set stored in the predetermined storage unit is updated according to a predetermined rule. This is a series of processes in which the pulsar calculation process is executed for the subsequent pulsar set. The predetermined storage unit is, for example, the storage unit 14 to be described later.

The predetermined end condition is, for example, a condition that the pulsator change due to cycle processing is less than a predetermined change. A predetermined termination condition may be, for example, the condition that the difference between the pulser and a predetermined reference value is less than a predetermined difference. In the case of the second type optimization process, the result of executing the pulsar optimization process is the pulsar set at the time when the predetermined termination condition is satisfied.

FIG. 2 is a diagram showing an example of the hardware configuration of the building energy-saving performance calculation support device 1 of the embodiment. The building energy-saving performance calculation support device 1 includes a control unit 11 including a processor 91 such as a CPU (Central Processing Unit) or a GPU (Graphics Processing Unit) connected via a bus and a memory 92, and executes a program. The building energy-saving performance calculation support device 1 functions as a device including a control unit 11, an input unit 12, a communication unit 13, a storage unit 14, and an output unit 15 by executing a program.

More specifically, processor 91 reads a program stored in storage unit 14 and causes memory 92 to store the read program. By executing the program stored in the memory 92 by the processor 91, the building energy saving performance calculation support device 1 is configured as a device including the control unit 11, the input unit 12, the communication unit 13, the storage unit 14, and the output unit 15. Function.

The control unit 11 controls operations of various functional units included in the building energy-saving performance calculation support device 1 . The control unit 11 executes, for example, presence/absence determination processing, missing data determination processing, and missing data compensation processing.

When it is determined by the missing data determination process that there is missing data in the data included in the pulse star group, the control unit 11 may execute the pulse star optimization process in the missing data compensation process with the missing data as the input target. good. In such a case, as a result of performing the pulsar optimization process, the pulsar set having missing data is replaced with the pulsar set estimated by performing the pulsar optimization process.

The input unit 12 includes input devices such as a mouse, keyboard, and touch panel. The input unit 12 may be configured as an interface that connects these input devices to the building energy saving performance calculation support device 1 . The input unit 12 receives input of various types of information to the building energy saving performance calculation support device 1 . For example, a required data set is input to the input unit 12 .

The communication unit 13 includes a communication interface for connecting the building energy saving performance calculation support device 1 to an external device. The communication unit 13 communicates with an external device via wire or wireless. The external device is, for example, the device that sent the required data set. The communication unit 13 acquires the required data set by communicating with the device that is the transmission source of the required data set.

The storage unit 14 is configured using a computer-readable storage medium device (a non-transitory computer readable medium) such as a magnetic hard disk device or a semiconductor storage device. The storage unit 14 stores various information related to the building energy saving performance calculation support device 1 . The storage unit 14 stores information input via the input unit 12 or the communication unit 13, for example. The storage unit 14 stores a required data set input to the input unit 12 or the communication unit 13, for example. The storage unit 14 stores, for example, the calculated pulsar.

The output unit 15 outputs various information. The output unit 15 includes a display device such as a CRT (Cathode Ray Tube) display, a liquid crystal display, or an organic EL (Electro-Luminescence) display. The output unit 15 may be configured as an interface that connects these display devices to the building energy saving performance calculation support device 1 . The output unit 15 outputs information input to the input unit 12 or the communication unit 13, for example. The output unit 15 may be a device that outputs sound, such as a speaker.

FIG. 3 is a flow chart showing an example of the flow of processing executed by the building energy saving performance calculation support device 1 of the embodiment. A required data set is input to the input unit 12 or the communication unit 13 (step S101). Next, the control unit 11 executes presence/absence determination processing for the required data set (step S102). That is, in step S102, the control unit 11 determines whether or not there is missing data in the required data set.

When it is determined that there is no missing data by executing the presence/absence determination process (step S102: NO), the control unit 11 controls the operation of the output unit 15 to output information indicating that there is no missing data (step S103). ). An example of the operation of the control unit 11 in step S103 is processing for displaying information indicating that there is no missing data on the output unit 15 if the output unit 15 is a display device, for example. An example of the operation of the control unit 11 in step S103 is, for example, if the output unit 15 is an audio output device, the output unit 15 outputs a sound indicating that there is no missing data.

On the other hand, if it is determined that there is missing data by executing the presence/absence determination processing (step S102: YES), the control unit 11 executes the missing data determination processing (step S104). Next, the control unit 11 executes missing data compensation processing based on the result of the missing data determination processing (step S105).

In step S104, when it is determined by the missing data determination process that there is missing data in the data included in the pulsar group, the control unit 11 executes the pulsar optimization process. Then, the control unit 11 replaces the pulsar set in which missing data exists with the pulsar set resulting from the execution of the pulsar optimization process. In such a case, for missing data that does not belong to the pulse star group, the control unit 11 performs a process of inputting a predetermined value, which is predetermined according to the missing data, to the missing data to be input. If it is determined in step S102 that there is missing data, the control section 11 may control the operation of the output section 15 to output information indicating that there is missing data. In step S104, when it is determined that there is missing data in the data included in the pulsar set by the missing data determination processing, the control unit 11 controls the operation of the output unit 15 to change the data included in the pulsar set. Information indicating the presence of missing data may be output.

The building energy-saving performance calculation support device 1 of the embodiment configured in this manner executes presence/absence determination processing. Therefore, the user does not need to confirm whether or not there is missing data by visually checking the data. Therefore, the building energy-saving performance calculation support device 1 can reduce the labor required for building design.

Further, the building energy-saving performance calculation support device 1 of the embodiment configured as described above executes missing data compensation processing. Therefore, the user does not have to re-enter the value of the missing data. Therefore, the building energy-saving performance calculation support device 1 can reduce the labor required for building design.

(Modification)
Note that the control unit 11 may execute unit difference determination processing on the required data set. As described above, the required data set is a set of data necessary for energy saving calculation. The required data set is therefore the values for the building. When designing a building, it is necessary to determine the units to be used so that even people other than the designer can understand the blueprint. For example, use meters for length. However, among the data included in the required data set, there are cases where values measured in feet are mixed in, although most of the data values related to length, for example, are values measured in meters.

If energy-saving calculations are performed on such erroneous data in units of meters, appropriate results cannot be obtained. Therefore, the control unit 11 may determine whether or not there is a possibility that the value is inappropriate data, and if there is a possibility that the value is inappropriate, the output unit 15 may issue a warning.

The processing for determining whether or not there is a possibility that the value is inappropriate is the unit difference determination processing. Specifically, in the unit difference determination process, the difference between the value obtained by subtracting the value of the integer part from the result of division by a predetermined value (hereinafter referred to as "unit reference value") and zero is within a predetermined difference. This is a process of determining whether or not there is a plurality of data having the same dimension among the data included in the required data set.

The unit reference value is, for example, 0.0254. 0.0254 is one inch of length in meters. The unit reference value is, for example, 0.3048. 0.3048 is one foot length in meters. The unit reference value is, for example, 0.9144. 0.9144 is the length of one yard in meters. The unit reference value is, for example, 20.1168. 20.1168 is the length of one chain in meters. The unit reference value is, for example, 201.168. 201.168 is the length in meters of one furlong. The unit reference value is, for example, 1609.344. 1609.344 is the length of one mile in meters.

As a result of determining a plurality of data by the unit difference determination process, the control unit 11 may not be appropriate for the data whose difference is within the predetermined difference if there are many data whose difference is greater than the predetermined difference after division by the unit reference value. determined to be viable. On the other hand, if there are many data whose difference is larger than the predetermined difference as a result of the determination of the plurality of data by the unit difference determination process, the control unit 11 determines that the data whose division result by the unit reference value is within the predetermined difference is appropriate. It is determined that there is a possibility that it is not.

Appropriate means that the difference between the value obtained by subtracting the value of the integer part from the result of division by the unit reference value, which is a predetermined value, and zero is within a predetermined difference.

If the difference between all the data is within a predetermined difference as a result of the determination of the plurality of data by the unit difference determination process, the control unit 11 determines that all the data to be determined by the unit difference determination process are appropriate. . As a result of the determination of the plurality of data by the unit difference determination process, if the difference of all the data to be determined by the unit difference determination process is larger than a predetermined difference, the control unit 11 determines whether all the data to be determined by the unit difference determination process Decide that the data are not adequate.

If there is data determined to be inappropriate as a result of such determination, the control unit 11 outputs to the output unit 15, for example, the fact that there is data determined to be inappropriate and the data determined to be inappropriate. output to 15.

As described above, for example, there are multiple candidates for the length unit reference value, such as meters, feet, yards, and furlongs. Therefore, the unit reference value used in the unit difference determination process does not necessarily have to be one type. Two or more N types of unit reference values (N is a natural number of 1 or more) may be used in the unit difference determination process. In such a case, the control unit 11 first selects one of the N types of unit reference values, and performs unit difference determination processing using the selected unit reference value for a plurality of data having the same dimension among the data included in the required data set. Run on data.

Next, the unit difference determination process selects one of the unit reference values that has not yet been used, and executes the unit difference determination process using the selected unit reference value. run against The control unit 11 performs this process for all of the N types of unit reference values.

Based on the result of the unit difference determination process using the N types of unit reference values, the control unit 11 determines which unit reference value has the largest number of data determined to be appropriate. Hereinafter, the unit reference value judged to be the unit reference value with the largest number of data judged to be appropriate by the control unit 11 is referred to as the dominant reference value.

That is, the control unit 11 determines the unit reference value with the most appropriate data to be the dominant reference value based on the results of the unit difference determination process using the N types of unit reference values.

If there is data determined to be inappropriate as a result of the determination by the unit difference determination process using the control reference value, the control unit 11 outputs the data determined to be inappropriate to a predetermined output destination such as the output unit 15. output.

In addition, in the determination result of the unit difference determination process using the control reference value, the data determined as inappropriate is the difference between the value obtained by subtracting the integer part from the result of division by the control reference value and zero. is data judged to be not within a predetermined difference (hereinafter referred to as “inappropriate data”).

The building energy-saving performance calculation support device 1 that performs such processing notifies the user that the value of inappropriate data or the like is incorrect before executing the energy-saving calculation, even if a value with an incorrect unit is input. sensitive data, can be notified. Therefore, the building energy-saving performance calculation support device 1 can reduce the user's effort to find an error when the result of the energy-saving calculation gives an unnatural value.

The control unit 11 may execute unit conversion processing. The unit conversion process is a process for converting data values determined to be inappropriate data as a result of the unit difference determination process using the control standard value into unit values using the control standard value as a unit amount. be.

The building energy-saving performance calculation support device 1 that performs such processing can convert a value in an appropriate unit even if a value in the wrong unit is input. Therefore, the building energy-saving performance calculation support device 1 can reduce the user's effort to find an error when the result of the energy-saving calculation gives an unnatural value.

Note that the building energy-saving performance calculation support device 1 does not necessarily need to be composed of one housing. The building energy-saving performance calculation support device 1 may be implemented using a plurality of information processing devices that are communicably connected via a network. In this case, each functional unit included in the building energy-saving performance calculation support device 1 may be distributed and implemented in a plurality of information processing devices.

All or part of each function of the building energy saving performance calculation support device 1 is realized using hardware such as ASIC (Application Specific Integrated Circuit), PLD (Programmable Logic Device), and FPGA (Field Programmable Gate Array). may be The program may be recorded on a computer-readable recording medium. Computer-readable recording media include portable media such as flexible disks, magneto-optical disks, ROMs and CD-ROMs, and storage devices such as hard disks incorporated in computer systems. The program may be transmitted over telecommunications lines.

(Appendix 1)
Presence/absence determination processing that determines whether or not there is missing data, which is data with no value, in the required data set, which is a set of data necessary for calculating the energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings. a control unit that executes
with
The control unit executes missing data determination processing for determining which data is missing data when it is determined that there is missing data in the presence/absence determination processing, and further performs missing data determination processing. Based on the result of the processing, inputting a compensation value that satisfies a compensation condition, which is a condition corresponding to each missing data and a predetermined condition regarding compensation, to each missing data based on the result of the processing;
Building energy saving performance calculation support device.

(Appendix 2)
The compensation condition is a condition that the value is a predetermined value that corresponds to the missing data,
The building energy-saving performance calculation support device according to appendix 1.

(Appendix 3)
When missing data exists in a pulsar set, which is a set of information indicating the thickness of the heat insulating material of the outer wall and information indicating the type and thickness of the glass, the compensation value for the pulsar set is the value of the pulsar and a predetermined standard. A compensation value that satisfies the compensation condition that it is the result of executing a pulsar optimization process that estimates the pulsar set that gives the minimum difference between the
The building energy saving performance calculation support device according to appendix 1 or 2.

(Appendix 4)
The control unit determines whether or not the difference between the value obtained by subtracting the value of the integer part from the result of division by the unit reference value, which is a predetermined value, and zero is within a predetermined difference. Execute a unit difference determination process for a plurality of data having the same dimension among the data contained in the set,
The building energy-saving performance calculation support device according to appendix 1.

(Appendix 5)
Based on the result of the unit difference determination process using N types of unit reference values, the control unit subtracts the value of the integer part from the result of division by the unit reference value, which is a predetermined value, and zero and data determined to be within a predetermined difference, the unit reference value is determined to be the dominant reference value, and as a result of the determination by the unit difference determination process using the dominant reference value, If there is inappropriate data, which is data determined that the difference between the value obtained by subtracting the value of the integer part from the result of division by the dominant reference value and zero is not within a predetermined difference, it is sent to a predetermined output destination. , causing the inappropriate data to be output;
The building energy saving performance calculation support device according to appendix 4.

(Appendix 6)
wherein the control unit converts the value of the inappropriate data into a unit value with the control reference value as a unit quantity;
The building energy-saving performance calculation support device according to appendix 5.

(Appendix 7)
A building energy saving performance calculation support method executed by a computer,
Presence/absence determination processing that determines whether or not there is missing data, which is data with no value, in the required data set, which is a set of data necessary for calculating the energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings. a control step that executes a
has
The control step includes executing a missing data determination process for determining which data is missing data when it is determined that there is missing data in the presence/absence determination process; Based on the result of the processing, inputting a compensation value that satisfies a compensation condition, which is a condition corresponding to each missing data and a predetermined condition regarding compensation, to each missing data based on the result of the processing;
Building Energy Saving Performance Calculation Support Method.

(Appendix 8)
A program for causing a computer to function as the building energy saving performance calculation support device according to any one of appendices 1 to 3.

Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design and the like are included within the scope of the gist of the present invention.

DESCRIPTION OF SYMBOLS 1... Building energy saving performance calculation support apparatus 11... Control part 12... Input part 13... Communication part 14... Storage part 15... Output part 91... Processor 92... Memory

Claims (8)

Presence/absence determination processing that determines whether or not there is missing data, which is data with no value, in the required data set, which is a set of data necessary for calculating the energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings. a control unit that executes
with
The control unit executes missing data determination processing for determining which data is missing data when it is determined that there is missing data in the presence/absence determination processing, and further performs missing data determination processing. Based on the result of the processing, inputting a compensation value that satisfies a compensation condition, which is a condition corresponding to each missing data and a predetermined condition regarding compensation, to each missing data based on the result of the processing;
Building energy saving performance calculation support device. The compensation condition is a condition that the value is a predetermined value that corresponds to the missing data,
The building energy saving performance calculation support device according to claim 1. When missing data exists in a pulsar set, which is a set of information indicating the thickness of the heat insulating material of the outer wall and information indicating the type and thickness of the glass, the compensation value for the pulsar set is the value of the pulsar and a predetermined standard. A compensation value that satisfies the compensation condition that it is the result of executing a pulsar optimization process that estimates the pulsar set that gives the minimum difference between the
The building energy saving performance calculation support device according to claim 1 or 2. The control unit determines whether or not the difference between the value obtained by subtracting the value of the integer part from the result of division by the unit reference value, which is a predetermined value, and zero is within a predetermined difference. Execute a unit difference determination process for a plurality of data having the same dimension among the data contained in the set,
The building energy saving performance calculation support device according to claim 1. Based on the result of the unit difference determination process using N types of unit reference values, the control unit subtracts the value of the integer part from the result of division by the unit reference value, which is a predetermined value, and zero and data determined to be within a predetermined difference, the unit reference value is determined to be the dominant reference value, and as a result of the determination by the unit difference determination process using the dominant reference value, If there is inappropriate data, which is data determined that the difference between the value obtained by subtracting the value of the integer part from the result of division by the dominant reference value and zero is not within a predetermined difference, it is sent to a predetermined output destination. , causing the inappropriate data to be output;
The building energy saving performance calculation support device according to claim 4. wherein the control unit converts the value of the inappropriate data into a unit value with the control reference value as a unit quantity;
The building energy saving performance calculation support device according to claim 5. A building energy saving performance calculation support method executed by a computer,
Presence/absence determination processing that determines whether or not there is missing data, which is data with no value, in the required data set, which is a set of data necessary for calculating the energy consumption performance stipulated by the Act on Energy Consumption Performance of Buildings. a control step that executes a
has
The control step includes executing a missing data determination process for determining which data is missing data when it is determined that there is missing data in the presence/absence determination process; Based on the result of the processing, inputting a compensation value that satisfies a compensation condition, which is a condition corresponding to each missing data and a predetermined condition regarding compensation, to each missing data based on the result of the processing;
Building Energy Saving Performance Calculation Support Method. A program for causing a computer to function as the building energy-saving performance calculation support device according to claim 1 .

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