CN110348739B - Construction project completion environment-friendly acceptance assessment method and system and storage medium - Google Patents

Abstract

The invention relates to the field of environmental assessment and discloses a construction project completion environment-friendly acceptance assessment method which comprises the steps of collecting all detection sampling parameters; classifying according to the category to which the measurement unit of each detection sampling parameter belongs; determining the standard value of the environmental requirement country required by the classification; determining the difference value between the classified detection sampling parameter and the standard value of the country required by the environment; acquiring an accuracy value of the current classification, multiplying the accuracy value by the difference value, and determining a success rate determination base number; acquiring a success rate reduced base number, and determining the single-class success rate of the current classification according to the success rate determining base number and the success rate reduced base number; and acquiring the weight ratio of each classification, and determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification. The invention has the advantage of facilitating the decision making of construction units.

Description

Construction project completion environment-friendly acceptance assessment method and system and storage medium

Technical Field

The invention relates to the technical field of environmental assessment, in particular to a construction project completion environment-friendly acceptance assessment method, a system and a storage medium.

Background

At present, after a construction project is finished, the environment around the construction project needs to be evaluated, and the construction project can be put into use after the surrounding environment meets the requirements.

The existing environment assessment is generally checked and accepted by a construction unit, and the construction unit determines the surrounding environment condition of a construction project through the acquired data parameters, so as to determine whether the environment meets the requirements.

The above prior art solutions have the following drawbacks: in the acceptance, because a certain error exists in acquiring the content required by the material parameters, the surface of the material does conform to the national standard, but the surface of the material may be lower or higher than the national standard, so that the construction unit is difficult to make the decision whether to accept the material.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an environment-friendly acceptance assessment method for completion of a construction project, which has the advantage of facilitating a construction unit to make a decision.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly acceptance assessment method for construction project completion comprises the following steps,

collecting all detection sampling parameters;

classifying according to the category to which the measurement unit of each detection sampling parameter belongs;

determining the standard value of the environmental requirement country required by the classification;

determining the difference value between the classified detection sampling parameter and the standard value of the country required by the environment;

acquiring an accuracy value of the current classification, multiplying the accuracy value by the difference value, and determining a success rate determination base number;

acquiring a success rate reduced base number, and determining the single-class success rate of the current classification according to the success rate determining base number and the success rate reduced base number;

and acquiring the weight ratio of each classification, and determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification.

By adopting the technical scheme, all detection sampling parameters are obtained firstly, because the measurement units of all the detection sampling parameters are different, the detection sampling parameters are classified according to the measurement units, so that workers only need to record the detection sampling parameters during collection, and do not need to classify the detection sampling parameters during recording, the efficiency of data collection and the accuracy of classification are improved, then the national standard value required by the environment corresponding to each classification is determined, the detection sampling parameters and the national standard value required by the environment are subjected to difference calculation, then the difference value is multiplied by the precision value of the current classification, the reference value of the success rate is determined, the success rate of a single category is determined according to the technology of the success rate reduction and the reference value of the success rate, then the total power of a final project is determined according to the weight ratio of the classification and the success rate of the single category, the success rate of the project is displayed in a percentage mode, and a construction unit can determine the pass rate of the project acceptance primarily, thereby determining whether the acceptance passes or fails.

The invention is further configured to: the specific method for classifying according to the category to which the measurement unit of each detection sampling parameter belongs comprises the following steps,

acquiring measurement unit information of a detection sampling parameter;

judging the category of the detection sampling parameter according to the information of the measurement unit;

and classifying the detection sampling parameters according to the categories.

By adopting the technical scheme, the category to which the detection sampling parameter belongs is judged according to the information of the metering unit, then the detection sampling parameter is classified according to the category, and when the detection sampling parameter is recorded, only the detection sampling parameter needs to be recorded without being classified in advance, so that the efficiency of data processing is improved.

The invention is further configured to: the specific method of determining the standard value of the environmental requirement country required for the classification includes,

acquiring classified keyword information of the classification;

sequentially searching names in a library of national standard values required by the environment according to the classified keyword information;

if the current classification keyword information is consistent with the name in the library of the environmental requirement national standard values, acquiring the environmental requirement national standard value corresponding to the name and stopping searching;

if the current classification keyword information does not accord with the name in the library of the national standard value required by the environment, continuing to search;

the classification keyword information is the name of the classification.

By adopting the technical scheme, the classified name is obtained, the environmental requirement national standard value corresponding to the name is searched in the environmental requirement national standard value library according to the name information, the query is continued when the name information is not queried, and the search is stopped after the name information is queried, so that the environmental requirement national standard value which meets the standard and corresponds to the classification is obtained, and meanwhile, the whole searching speed is improved.

The invention is further configured to: the specific method for obtaining the precision value of the current classification includes,

acquiring the classified keyword information of the current classification;

searching a precision value corresponding to the current classification keyword information from a corresponding relation between a preset precision value and the classification keyword information;

the precision value is a positive integer.

By adopting the technical scheme, the success rate determination base number can be modified according to the parameter for changing the precision value, so that the success rate determination base number is more practical.

The invention is further configured to: the specific method for determining the success rate of the single category of the current classification according to the success rate determination base number and the success rate reduced base number includes,

judging the property of the current success rate determination base number;

if the success rate determining base number is a negative number, performing addition operation on the success rate reduced base number and the success rate determining base number;

if the success rate determining base number is not a negative number, performing subtraction operation on the success rate subtracted base number and the success rate determining base number;

and obtaining the calculated value as the single-class success rate.

By adopting the technical scheme, if the success rate determining base number is a negative number, the success rate reduced base number and the success rate determining base number are subjected to addition operation, so that the single-class success rate meeting the percentage is obtained, if the success rate determining base number is not the negative number, the success rate reduced base number and the success rate determining base number are subjected to subtraction operation, so that the single-class success rate meeting the percentage can be obtained, and the result meets the requirement through judgment of the success rate determining base number.

The invention is further configured to: the specific method for determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification comprises the following steps,

acquiring weight ratio information and single-class success rate of each class;

multiplying the weight ratio information by the single-class success rate;

and adding all the numerical values obtained after multiplication, wherein the numerical value obtained after addition is the final project assembly power.

By adopting the technical scheme, the ratio of the success rates of the single categories is determined according to the weight ratio, so that the final project assembly power which is more in line with the reality is obtained, and the interference of inaccurate data is eliminated.

The invention is further configured to: the specific method for determining the weight ratio of each classification comprises,

obtaining the classified keyword information, and searching the stability information corresponding to the current classified keyword information according to the corresponding relation between the preset classified keyword information and the stability information;

searching a weight ratio corresponding to the current stability information according to a corresponding relation between the preset stability information and the weight ratio;

the classification keyword information is the name of the classification, the stability information is stable or unstable, and the weight ratio corresponding to the stability information is greater than the weight ratio corresponding to the stability information which is unstable.

By adopting the technical scheme, the weight ratio of the classification is set according to stability or instability, so that the influence of the unstable classification on the final project assembly power is small, and the final evaluation result is more practical.

The invention is further configured to: the success rate is reduced by a base number of 100.

By adopting the technical scheme, the success rate is reduced by the number of 100, so that the final project assembly power is displayed in a percentage mode, and a construction unit can clearly know the environmental condition.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly acceptance assessment system for construction project completion comprises,

the parameter acquisition unit is used for acquiring all detection sampling parameters;

the classification unit is used for classifying according to the category to which the measurement unit of each detection sampling parameter belongs;

a standard value determining unit for determining an environmental requirement country standard value required for the classification;

a difference value determining unit for determining the difference value between the classified detection sampling parameter and the standard value of the environment requirement country;

the success rate determination base number calculating unit is used for acquiring the precision value of the current classification, multiplying the precision value by the difference value and determining the success rate determination base number;

the single-class success rate determining unit is used for acquiring the success rate reduced base number, and determining the single-class success rate of the current classification according to the success rate determined base number and the success rate reduced base number;

and the final project assembly power calculating unit is used for acquiring the weight ratio of each classification and determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification.

By adopting the technical scheme, the parameter acquisition unit acquires detection sampling parameters and transmits the detection sampling parameters to the classification unit, the classification unit classifies the detection sampling parameters according to the measurement units of the detection sampling parameters, the standard value determination unit determines the standard value of the environment-required country according to the classified name, the difference value determination unit acquires the difference value between the detection sampling parameters and the standard value of the environment-required country, the success rate determination base calculation unit acquires the precision value and the difference value of the current classification, the precision value and the difference value are multiplied to calculate the success rate determination base, the single-class success rate determination unit acquires the reduced success rate, whether the reduced success rate is a negative number or not is judged, then a corresponding formula is selected for calculation to obtain the single-class success rate, finally the project assembly power calculation unit acquires the weight ratio of each classification, the final project assembly power is calculated through the weight ratio and the single-class success rate, and the percentage value output by the final project assembly power calculation unit is determined by acceptance or not by the construction unit.

In order to achieve the purpose, the invention provides the following technical scheme: a computer readable storage medium comprising a program which when loaded and executed by a processor implements a method of construction project as-built environmental acceptance assessment.

By adopting the technical scheme, all the detection sampling parameters are obtained firstly, because the measurement units of all the detection sampling parameters are different, the detection sampling parameters are classified according to the measurement units, so that workers only need to record the detection sampling parameters during collection and do not need to classify during recording, the efficiency of data collection and the accuracy of classification are improved, then the national standard value required by the environment corresponding to each classification is determined, the detection sampling parameters and the national standard value required by the environment are subtracted, then the difference value is multiplied by the precision value of the current classification to determine the reference value of the success rate, the success rate of a single category is determined according to the technology of the reduced success rate and the reference value of the success rate, then the total power of a final project is determined according to the weight ratio of the classification and the success rate of the single category, the success rate of the project is displayed in a percentage mode, and the construction units can determine the pass rate of the project acceptance check, thereby determining whether the project passes the primary acceptance.

In conclusion, the invention has the following beneficial effects:

the difference value between the detection sampling parameter and the environmental requirement national standard value is determined by carrying out the operation of difference calculation on the detection sampling parameter and the environmental requirement national standard value, then the difference value is amplified through the precision value to determine the success rate determination cardinal number, the cardinal number determination cardinal number and the success rate reduced cardinal number are determined through the success rate to determine the single-class success rate, then the single-class success rate is processed through weight comparison, and therefore the final project total power is obtained, the construction unit can pre-estimate the success rate of self acceptance, and whether the acceptance passes or not is determined.

Drawings

FIG. 1 is a diagram illustrating the steps of the present invention;

FIG. 2 is a flow chart of the present invention;

fig. 3 is a block diagram of the system of the present invention.

Reference numerals are as follows: 1. a parameter acquisition unit; 2. a classification unit; 3. a standard value determination unit; 4. a difference value determination unit; 5. a success rate determination cardinality calculation unit; 6. a single category success rate determination unit; 7. a final item total power calculation unit.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the invention discloses a construction project completion environment-friendly acceptance assessment method, which comprises the following steps:

s1: and collecting all detection sampling parameters. The detection instrument detects water, air, sound, soil and electromagnetic radiation around the construction project, acquires all detection sampling parameters and records the detection sampling parameters.

S2: and classifying according to the category to which the measurement unit of each detection sampling parameter belongs. Firstly, acquiring the measurement unit information of the detected sampling parameter, and then judging which category the measurement unit information belongs to according to the measurement unit information, wherein the judgment method comprises the following steps: the method comprises the steps that water types corresponding to milligram per liter are measured, air types corresponding to milligram per cube are measured, sound types corresponding to decibel are measured, soil types corresponding to milligram per kilogram are measured, electromagnetic radiation corresponding to microtesla is measured, the types corresponding to the measured unit information are judged, and then the detected sampling parameter information is classified into the types. For example, if the measurement unit information of a certain detection sampling parameter is milligram per cubic, it indicates that the measurement unit information belongs to the air category, and the detection sampling parameter is classified into the air category; and if the measurement unit of certain detection sampling parameter information is decibels, the measurement unit information is indicated to belong to the sound category, and the detection sampling parameter is classified into the sound category.

S3: the environmental requirement country standard value required for the classification is determined. Firstly, obtaining the classified keyword information; sequentially searching names in a database of the standard values of the environment-required countries according to the classified keyword information, and if the current classified keyword information is consistent with the names in the database of the standard values of the environment-required countries, acquiring the standard values of the environment-required countries corresponding to the names and stopping searching; if the current classification keyword information does not accord with the name in the library of the national standard value of the environmental requirement, the search is continued. For example, to determine the standard value of the country with environmental requirement for air classification, the standard value is searched in a database of the standard values of the country with environmental requirement, and when the name of air is found, the search is stopped, and the corresponding standard value of the country with environmental requirement is obtained, so that the standard value of the country with environmental requirement is obtained.

S4: and obtaining the difference value between the classified detection sampling parameter and the standard value of the country with environmental requirement. And carrying out difference operation on the classified detection sampling parameters and the environment requirement country standard values corresponding to the classification, thereby obtaining the difference values of the detection sampling parameters and the environment requirement country standard values.

S5: and acquiring the precision value of the current classification, multiplying the precision value by the difference value, and determining the success rate determination base number. The method comprises the steps of firstly obtaining names of current classifications, searching precision values corresponding to the names according to the corresponding relation between the names and the precision values, then multiplying the precision values by the difference value between the obtained detection sampling parameters and the standard value of the country with environmental requirements, and obtaining the numerical value which is the success rate determining base number. The correspondence between the names and the precision values is as follows:

name(s)	Precision value
		Water (W)	10
Air (a)	10
		Sound equipment	5
Soil(s)	10
		Electromagnetic radiation	5

S6: and acquiring a success rate reduced base number, and determining the single-class success rate of the current classification according to the success rate determining base number and the success rate reduced base number. The method comprises the steps of firstly obtaining a base number of the success rate to be reduced, wherein the base number of the success rate to be reduced is 100, then judging whether the base number of the success rate determination is a negative number, if the base number of the success rate determination is a negative number, adding the base number of the success rate to be reduced and the base number of the success rate determination, namely using a formula C = S + (a-b) x d, and if the base number of the success rate determination is a negative number, subtracting the base number of the success rate to be reduced and the base number of the success rate determination, namely using a formula C = S- (a-b) x d, so that the calculated value is the single-class success rate. In the two formulas, S is the success rate reduced base number, a is the detection sampling parameter, b is the national standard value required by the environment, d is the precision value, and C is the single-class success rate. For example, if the air category has a measurement sampling parameter of 29.8 mg per cubic meter and the environmental requirement national standard value is 30 mg per ml, C =100+ (29.8-30) × 10, then the success rate of single category is 98%.

S7: and determining the weight ratio of each classification, and determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification. Firstly, obtaining classified names, searching corresponding stability information through the names according to the names in the corresponding relation between the names and the stability information, searching corresponding weight ratio through the stability information in the corresponding relation between the stability information and the weight ratio after obtaining the stability information, multiplying the weight ratio by the success rate of the single category of the corresponding classification, namely using a formula Z = QxC, and adding the obtained result values to determine the final project assembly power.

The correspondence between the name and the stability information is as follows:

name (R)	Stability information
		Water (I)	Instability of the film
Air (a)	Instability of the film
		Sound, sound and image information	Stabilization of
Soil(s)	Instability of the film
		Electromagnetic radiation	Stabilization

The correspondence between the stability information and the weight ratio is as follows:

stability information	Weight ratio
		Stabilization	27.5%
Instability of the film	15%

If the single category success rates of water, air, sound, soil, and electromagnetic radiation are 80%, 90%, 95%, 70%, and 85%, respectively, then 80% × 15% +90% × 15% +95% × 27.5% +70% × 15% +85% × 27.5% =85.5%, the final project total power is 85.5%.

Referring to fig. 3, the environment-friendly acceptance evaluation system for construction project completion disclosed in the present invention includes a parameter obtaining unit 1, a classifying unit 2, a standard value determining unit 3, a difference value determining unit 4, a success rate determination basis calculating unit 5, a single-class success rate determining unit 6, and a final project assembly power calculating unit 7, the parameter obtaining unit 1 is electrically connected to the classifying unit 2, the standard value determining unit 3 is electrically connected to the classifying unit 2, the difference value determining unit 4 is electrically connected to the standard value determining unit 3 and the parameter obtaining unit 1, the success rate determination basis calculating unit 5 is electrically connected to the difference value determining unit 4, the single-class success rate determining unit 6 is electrically connected to the success rate determination basis calculating unit 5, the final project assembly power calculating unit 7 is electrically connected to the single-class success rate determining unit 6 and the classifying unit 2, the parameter obtaining unit 1 performs collection of detection sampling parameters and transmits the detection sampling parameters to the classifying unit 2, the classifying unit 2 performs classification according to the measurement units of the detection sampling parameters, the determining unit 3 performs determination of environment requirement standard value according to the name of the classification, the difference value and the difference value of the obtained by subtracting the single-class success rate from the country standard value, the obtained by the difference value and the obtained success rate of the obtained by the difference value, the classification unit, the obtained by the calculation, the calculation result is calculated as the difference value, the single-class success rate determination unit, the difference value obtained by subtracting the success rate of the classification unit 6, the classification success rate obtained by the classification unit 6, and calculating the final project assembly power, and assisting the construction unit to determine whether the final project assembly power passes the acceptance or not through the percentage value output by the final project assembly power calculation unit 7.

Embodiments of the present invention provide a computer-readable storage medium, which includes instructions that, when loaded and executed by a processor, implement the steps in the flowcharts of fig. 1-2.

The computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The implementation principle of the embodiment is as follows: the parameter acquisition unit 1 detects the environment to acquire detection sampling parameters, records the detection sampling parameters, and classifies the detection sampling parameters according to the measurement units; after classification is finished, according to the classified names, searching the environment requirement country standard values of each classification, performing difference operation on the detection sampling parameters in each classification and the corresponding environment requirement country standard values to obtain difference values between the detection sampling parameters and the environment requirement country standard values, then searching the precision values of each classification according to the classified names, multiplying the previously obtained difference values and the precision values to obtain success rate determination cardinality. And if the success rate determining base number is a negative number, adding the success rate reduced base number and the success rate determining base number, and if the success rate determining base number is not a negative number, subtracting the success rate reduced base number and the success rate determining base number to obtain the single-class success rate of each class. And finally, multiplying the single-class success rate of each class by the weight ratio corresponding to the class, and adding all numerical values obtained after multiplication to obtain the final project assembly power, wherein a construction unit can perform auxiliary determination according to the final project assembly power, so that whether the final project assembly power passes the acceptance check or not can be determined quickly.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (10)

1. An environment-friendly acceptance assessment method for construction project completion is characterized by comprising the following steps: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

collecting all detection sampling parameters;

classifying according to the category to which the measurement unit of each detection sampling parameter belongs;

determining the standard value of the environmental requirement country required by the classification;

determining the difference value between the classified detection sampling parameters and the standard values of the countries with environmental requirements;

acquiring an accuracy value of the current classification, multiplying the accuracy value by the difference value, and determining a success rate determination base number;

acquiring a success rate reduced base number, and determining the single-class success rate of the current classification according to the success rate determining base number and the success rate reduced base number; firstly, acquiring a base number of the success rate reduced base, wherein the base number of the success rate reduced base is 100, then judging whether the base number of the success rate determining base is a negative number, if the base number of the success rate determining base is a negative number, performing addition operation on the base number of the success rate reduced base and the base number of the success rate determining base, and if the base number of the success rate determining base is not a negative number, performing subtraction operation on the base number of the success rate reduced base and the base number of the success rate determining base;

and acquiring the weight ratio of each classification, and determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification.

2. The method for environment-friendly acceptance assessment of completion of construction projects as claimed in claim 1, wherein: the specific method for classifying according to the category to which the measurement unit of each detection sampling parameter belongs comprises the following steps,

acquiring measurement unit information of a detection sampling parameter;

judging the category of the detection sampling parameter according to the information of the measurement unit;

and classifying the detection sampling parameters according to the categories.

3. The as built construction project as claimed in claim 1, wherein the as built environmental acceptance assessment method comprises: the specific method of determining the standard value of the environmental requirement country required for the classification includes,

acquiring classified keyword information of the classification;

sequentially searching names in a database of standard values of countries with environmental requirements according to the classified keyword information;

if the current classification keyword information is consistent with the name in the library of the environmental requirement national standard values, acquiring the environmental requirement national standard value corresponding to the name and stopping searching;

if the current classification keyword information does not accord with the name in the database of the environmental requirement national standard value, continuing to search;

the classification keyword information is the name of the classification.

4. The method for environment-friendly acceptance assessment of completion of construction projects as claimed in claim 1, wherein: the specific method for obtaining the precision value of the current classification includes,

acquiring the classified keyword information of the current classification;

searching the precision value corresponding to the current classification keyword information from the corresponding relation between the preset precision value and the classification keyword information;

the precision value is a positive integer.

5. The method for environment-friendly acceptance assessment of completion of construction projects as claimed in claim 1, wherein: the specific method for determining the success rate of the single category of the current classification according to the success rate determination base number and the success rate reduced base number includes,

judging the property of the current success rate determination base number;

if the success rate determining base number is a negative number, performing addition operation on the success rate reduced base number and the success rate determining base number;

if the success rate determining base number is not a negative number, performing subtraction operation on the success rate subtracted base number and the success rate determining base number;

and obtaining the calculated value as the single-class success rate.

6. The method for environment-friendly acceptance assessment of completion of construction projects as claimed in claim 1, wherein: the specific method for determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification comprises the following steps,

acquiring weight ratio information and single-class success rate of each class;

multiplying the weight ratio information by the single category success rate;

and adding all the numerical values obtained after multiplication, wherein the numerical value obtained after addition is the final project assembly power.

7. The as built construction project as claimed in claim 1, wherein the as built environmental acceptance assessment method comprises: the specific method for determining the weight ratio of each category includes,

acquiring the classified keyword information, and searching the stability information corresponding to the current classified keyword information according to the corresponding relation between the preset classified keyword information and the stability information;

searching a weight ratio corresponding to the current stability information according to a corresponding relation between the preset stability information and the weight ratio;

the classification keyword information is the name of the classification, the stability information is stable or unstable, and the weight ratio corresponding to the stability information is greater than the weight ratio corresponding to the stability information being unstable.

8. The as built construction project as claimed in claim 1, wherein the as built environmental acceptance assessment method comprises: the success rate is reduced by a base number of 100.

9. A construction project completion environment-friendly acceptance assessment system is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the parameter acquisition unit (1) is used for acquiring all detection sampling parameters;

a classification unit (2) for classifying the measurement unit of each detection sampling parameter according to the category to which the measurement unit belongs;

a standard value determination unit (3) for determining an environmental requirement country standard value required for the classification;

a difference value determining unit (4) for determining the difference value between the classified detection sampling parameter and the standard value of the environment requirement country;

the success rate determination base number calculating unit (5) is used for acquiring the precision value of the current classification, multiplying the precision value by the difference value and determining the success rate determination base number;

the single-class success rate determining unit (6) is used for acquiring the success rate reduced base number, and determining the current classified single-class success rate according to the success rate determining base number and the success rate reduced base number, specifically; firstly, acquiring a base number of the success rate reduced base, wherein the base number of the success rate reduced base is 100, then judging whether the base number of the success rate determining base is a negative number, if the base number of the success rate determining base is a negative number, performing addition operation on the base number of the success rate reduced base and the base number of the success rate determining base, and if the base number of the success rate determining base is not a negative number, performing subtraction operation on the base number of the success rate reduced base and the base number of the success rate determining base;

and the final project assembly power calculating unit (7) is used for acquiring the weight ratio of each classification and determining the final project assembly power according to the weight ratio of each classification and the single-class success rate of each classification.

10. A computer-readable storage medium, comprising: a program comprising instructions which when loaded and executed by a processor implement the method of as built acceptance assessment for a construction project according to any one of claims 1 to 8.

Images