CN106408182B - Nuclear power design project workload statistical system and method - Google Patents

Abstract

The invention provides a system and a method for counting workload of nuclear power design projects, wherein the system comprises a recording card manufacturing module for manufacturing a personal working hour recording card and a design finished product working hour recording card; a data management system for analyzing and processing the man-hour metadata, correcting data differences and consolidating standard workloads; the statistical analysis module is used for performing cross combination query and data itemizing statistical analysis on the personal man-hour recording card and the designed finished product man-hour recording card; the invention realizes the high-efficiency management of the workload of the design process of the nuclear power design project through an intelligent management system, completely records the conversion processes of man-hour distribution, implementation and verification of the design process, and is beneficial to tracking and analyzing related operations; the system is stable and practical, and the economic cost is low; the vacancy of a production man-hour management system in the process of the nuclear power design field is filled.

Description

Nuclear power design project workload statistical system and method

Technical Field

The invention relates to the field of nuclear power stations, in particular to a system and a method for counting workload of nuclear power design projects.

Background

In the design process of a nuclear power engineering design enterprise, a large amount of design finished product files are generated, the process files even reach the million level, especially after nuclear power is independently designed, the design workload is increased day by day, the number of designers is large, the requirement for publishing design files by multiple persons together is large, and the problems of serious repeated submission phenomenon of the design files, incomplete metadata information, non-standard naming of the design files and the like are caused. At present, a company lacks statistical analysis on design workload in design, so that the workload in a design process cannot be estimated, cost quota compilation and statistical analysis on the workload cannot be carried out, and cost waste is caused.

The current method for counting the workload of nuclear power design projects is as follows: splitting the workload of the current project according to the project activity and the activity size, and acquiring the workload of various current project activities by combining historical project data samples; aiming at each stage of the project, acquiring the total of the project activity workload of each stage to obtain the total workload of each stage; acquiring the total workload of each stage to obtain the total workload reference value of the current project; calculating weighted summation of the project total workload similar to the history and the reference value of the current project total workload to obtain the current project total workload; and acquiring a current evaluation factor of the project activity according to the demand points of the current project.

In the process of implementing the invention, the inventor finds that the prior art has at least the following problems:

data and accuracy of work amount statistics of nuclear power design projects depend on historical data and division of project activities, and the method is not suitable for situations of massive design, multi-person collaborative design and cross-professional collaborative design in the nuclear power design process; the data analysis does not analyze the design workload in units of individuals and units.

Disclosure of Invention

The invention provides a system and a method for counting workload of a nuclear power design project, aiming at the problems of no system workload management and inaccurate data of the nuclear power design project.

The technical scheme provided by the invention for the technical problem is as follows:

the invention provides a system for counting workload of a nuclear power design project, which comprises:

the recording card manufacturing module is used for manufacturing the personal working hour recording card of each designer and the finished product design working hour recording card to generate working hour metadata;

the data management system is connected with the recording card manufacturing module and used for combining, constraining and verifying the working hour metadata, generating effective working hour data, correcting data difference, solidifying standard workload and recording an operation process;

the statistical analysis module is connected with the data management system and used for performing cross combination query and data itemized statistical analysis on the personal working hour recording card and the designed finished product working hour recording card according to the effective working hour data to generate content management system integrated information and simultaneously transmitting the curing standard workload to a database management center;

and the database management center is connected with the statistical analysis module and used for storing the integrated information and the standard curing workload.

According to the system, the statistical analysis module can also be connected with an external system through an open interface of a nuclear power design and production management platform, the management corresponding relation between a product and an authority module is set, the authority is distributed, and data is inquired.

According to the above system, the data management system comprises:

the metadata collection constraint management module is connected with the recording card manufacturing module and used for collecting the working hour metadata, performing minimum structure information combination according to the working hour metadata to generate metadata basic information, and then constraining the metadata basic information through a working hour constraint condition group to generate data center basic data;

the verification configuration center is connected with the metadata collection constraint management module and used for verifying the validity of the basic data and generating the verification rate and the effective working hour data of the designed finished product;

the third-party data management center is connected with the verification configuration center and used for importing third-party data, establishing a network relation between the third-party data and the effective working hour data, comparing and matching the third-party data and the effective working hour data, correcting data difference, solidifying standard workload and confirming standard rated working hours;

and the log recording and error reporting module is connected with the third-party data management center and the statistical analysis module and is used for recording the operation process and recording error information in the data collection process.

According to the system, the labor hour restriction condition group takes a metadata enumeration library E or a labor hour filling specification and a flat card forming repetition specification F as a judgment basis.

According to the above system, the third-party data management center includes:

the import module is used for collecting and importing historical data on the project as third-party data; the comparison module is connected with the verification module and used for establishing a network relation between the effective working hour data and the third party data in a multi-dimension mode and comparing and verifying the third party data and the effective working hour data; the correction module is connected with the import module and the comparison module and is used for correcting the data of the third party and verifying the validity when the comparison and verification between the valid working hour data and the third party data are not passed;

the matching module is connected with the correction module and the verification configuration center and used for matching the corrected third-party data with the valid working hour data and judging whether the data matching is successful or not;

and the curing module is connected with the comparison module and the matching module and is used for curing standard workload and standard rated working hours when the third-party data is successfully matched with the effective working hour data.

According to the system, the curing module is further used for curing the standard workload and the standard rated working hours when the verification is passed;

the log recording and error reporting module is connected with the matching module and the statistical analysis module, and is also used for recording failure reasons and recording the standard quota working hours when the matching fails. The invention also provides a method for counting the workload of the nuclear power design project, which comprises the following steps:

s1, making individual man-hour recording cards of each designer and design finished product man-hour recording cards, and generating man-hour metadata;

s2, analyzing and processing the labor hour metadata, generating effective labor hour data, correcting data difference, solidifying standard workload, and recording an operation process;

s3, according to the effective working hour data, performing cross combination query and data itemized statistical analysis on the individual working hours and the design finished product working hour recording card to generate content management system integrated information, transmitting the solidified standard workload to a data management center, and simultaneously setting a product and authority module management corresponding relation, distributing authority and querying data through an open interface of a nuclear power design and production management platform;

and S4, receiving and storing the integrated information and the curing standard workload.

According to the above method, the step S2 further includes:

s21, collecting the labor hour metadata, performing minimum structure information combination according to the labor hour metadata to generate metadata basic information, and then constraining the metadata basic information through a labor hour constraint condition group to generate data center basic data;

s22, verifying the validity of the basic data, and generating the auditing rate and effective working hour data of the designed finished product;

s23, importing third-party data, establishing a network relation between the third-party data and the effective working hour data in a multi-dimension mode, comparing and matching the third-party data and the effective working hour data, correcting data difference, solidifying standard workload, and confirming standard rated working hours;

and S24, recording the operation process and recording error information in the data collection process.

According to the above method, the step S23 further includes:

s231, collecting historical data on the project as third-party data, and importing the third-party data into the third-party data management center;

s232, establishing a network relation between the third-party data and the effective working hour data in a personal, professional and finished product multi-dimensional manner, and comparing and checking the third-party data and the effective working hour data;

and S235, if the verification is passed, solidifying the standard workload and the standard rated working hours, and recording the standard rated working hours.

According to the above method, the step S23 further includes:

s233, if the verification fails, performing data correction on the third-party data, and performing validity verification;

s234, matching the corrected third party data with the effective working hour data;

s235, if the matching is successful, entering a curing process, and recording a matching result;

and S233, if the matching fails, returning to correct, calling the log recording and error reporting module, and recording the failure reason. The technical scheme provided by the embodiment of the invention has the following beneficial effects:

the intelligent management system realizes the high-efficiency management of the workload of the design process of the nuclear power design project, completely records the conversion processes of man-hour distribution, implementation and verification of the design process, and is beneficial to tracking and analyzing related operations; the system is stable and practical, and the economic cost is low; the vacancy of a production man-hour management system in the process of the nuclear power design field is filled.

Drawings

Fig. 1 is a schematic structural diagram of a system for counting workload of a nuclear power design project according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a system for counting workload of a nuclear power design project according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a preferred embodiment of a workload statistical system for a nuclear power design project according to an embodiment of the present invention.

Fig. 4 is a flowchart of a system for counting workload of a nuclear power design project according to a second embodiment of the present invention.

Fig. 5 is a flowchart of a system for counting workload of a nuclear power design project according to a second embodiment of the present invention.

Fig. 6 is a flowchart of a constraint condition of labor-hour metadata of a workload statistical system for a nuclear power design project according to a second embodiment of the present invention.

Fig. 7 is a flowchart of a system for counting workload of a nuclear power design project according to a second embodiment of the present invention.

FIG. 8 is a template diagram of the itemized classification analysis of the workload statistical system of the nuclear power design project according to the second embodiment of the present invention.

Detailed Description

In order to solve the problems of no systematic workload management and inaccurate data of nuclear power design projects, the invention aims to provide a method for counting the workload of the nuclear power design projects, which has the core idea that: providing a nuclear power design project workload statistical system, generating effective working hour data through constraint and validity verification of working hour metadata, and solidifying standard workload; and statistical analysis is carried out through multi-dimensional item classification, and intuitive man-hour data realizes efficient management on workload of a nuclear power design project design process, and is beneficial to tracking and analyzing related operations.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example one

The embodiment of the invention provides a system for counting workload of a nuclear power design project, and referring to fig. 1, the system comprises:

a recording card creation module 101 for creating a personal working hour recording card and a designed finished product working hour recording card for each designer, and generating working hour metadata;

in this embodiment, a personal labor hour recording card and a design product labor hour recording card are created by a person in each month, and collected by an administrator and introduced into the system.

The data management system 102 is connected with the recording card manufacturing module 101 and is used for combining, constraining and verifying the working hour metadata, generating effective working hour data, correcting data difference, solidifying standard workload and recording an operation process;

a statistical analysis module 106 connected to the data management system 102 for performing cross combination query and data itemized statistical analysis on the individual man-hour record card and the design finished product man-hour record card according to the effective man-hour data to generate content management system integrated information, and transmitting the standard work load to the database management center 108;

in this embodiment, the data processed by the data management system 102 is real and reliable, and the statistical analysis module 106 performs statistical analysis of item classification on the valid data to generate a graph to visually display the workload of the project.

The database management center 108 is connected with the statistical analysis module 106 and used for storing the integrated information and the curing standard workload;

in this embodiment, the integration information is stored by the database management center 108, so that the integration information can be called conveniently at any time.

Specifically, referring to fig. 2, the statistical analysis module 106 may further connect to an external system 109 through an open interface of the nuclear power design and production management platform, set a management corresponding relationship between a product and an authority module, assign an authority, and query data.

Specifically, referring to fig. 2, the data management system 102 includes:

a metadata collection constraint management module 103 connected to the recording card manufacturing module 101, configured to collect the labor hour metadata, perform minimum structure information combination according to the labor hour metadata, generate metadata basic information, and then constrain the metadata basic information by a labor hour constraint condition set, so as to generate data center basic data;

the verification configuration center 104 is connected with the metadata collection constraint management module 103 and used for verifying the validity of basic data and generating the verification rate and effective working hour data of a designed finished product;

in this embodiment, the labor hour restriction condition group uses the metadata enumeration library E or the labor hour filling specification, and the finished card duplication specification F as the basis for judgment.

Specifically, referring to fig. 2, the data management system 102 further includes:

the third-party data management center 105 is connected with the verification configuration center 104 and used for importing third-party data, establishing a network relation between the third-party data and the effective working hour data, comparing and matching the third-party data and the effective working hour data, correcting data difference, solidifying standard workload and confirming standard rated working hours;

in the embodiment, structured information is imported into the system according to standard data fed back by past project experience, but because the data is fuzzy and is not verified, too much data noise exists, and the utilization rate is not high, the third-party data management center 105 is used for removing information noise, automatically analyzing and verifying, establishing a correlation network with a designed finished product, and matching the structured information of an organization structure to form a multi-dimensional man-hour algorithm.

The log recording and error reporting module 107 is connected with the third-party data management center 105 and the statistical analysis module 106 and is used for recording the operation process and recording error information in the data collection process;

in this embodiment, by providing Win Service, on one hand, the integration information is imported into the database management center 108 through the statistical analysis module 106, and on the other hand, the error information that cannot be imported due to an abnormality is completely recorded, and after the correction data is modified in a manual intervention manner, the error information is imported again.

Specifically, referring to fig. 3, the third-party data management center 105 includes:

an import module 1051, configured to collect and import history data on a project as third-party data;

in this embodiment, unstructured historical data fed back empirically from a project collected by a hospital office is imported as third-party data on the platform, and structured data is generated according to a standard data model and stored in a central database.

A comparison module 1052 connected to the import module 1051, configured to establish a network relationship between the valid man-hour data and third party data in multiple dimensions, and compare and verify the third party data and the valid man-hour data;

the correction module 1053 is connected with the import module 1051 and the comparison module 1052, and is used for correcting the data of the third party and verifying the validity when the comparison and verification between the valid working hour data and the third party data are not passed;

the matching module 1054 is connected with the correcting module 1053 and the verification configuration center 104 and is used for matching the corrected third-party data with the valid time data and judging whether the data matching is successful or not;

a curing module 1055 connected to the comparing module 1052 and the matching module 1054 for curing the standard workload and the standard rated man-hour when the third party data is successfully matched with the effective man-hour data;

the curing module 1055 is further configured to cure the standard workload and the standard rated man-hours when the comparison and verification of the valid man-hour data with the third party data passes;

the log recording and error reporting module 107 is connected with the matching module 1054 and the statistical analysis module 106, and is further used for recording failure reasons and standard quota working hours when matching fails;

the embodiment of the invention realizes the high-efficiency management of the workload of the design process of the nuclear power design project through an intelligent management system, completely records the conversion processes of man-hour distribution, implementation and verification of the design process, and is beneficial to tracking and analyzing related operations; the system is stable and practical, and the economic cost is low; the vacancy of a production man-hour management system in the process of the nuclear power design field is filled.

Example two

The embodiment of the invention provides a method for counting workload of a nuclear power design project, which is suitable for a system for counting workload of a nuclear power design project shown in the first embodiment, and referring to fig. 4, the method comprises the following steps:

s1, making individual man-hour recording cards of each designer and design finished product man-hour recording cards, and generating man-hour metadata;

s2, analyzing and processing the labor hour metadata, generating effective labor hour data, correcting data difference, solidifying standard workload, and recording an operation process;

s3, according to the effective man-hour data, performing cross combination query and data itemized statistical analysis on the individual operation man-hour and design finished product man-hour recording card, generating content management system integrated information, transmitting the solidified standard workload to the database management center 108, and simultaneously setting a product and authority module management corresponding relation, distributing authority and querying data through an open interface of a nuclear power design and production management platform;

and S4, receiving and storing composition information and curing standard workload.

Specifically, referring to fig. 5, step S2 includes the sub-steps of:

s21, collecting working hour metadata, performing minimum structure information combination according to the working hour metadata to generate metadata basic information, and then constraining the metadata basic information through a working hour constraint condition group to generate data center basic data;

in the present embodiment, the TBY (personal man-hour filling rate) and PTV (personal man-hour total value) are calculated while performing the minimum configuration information combination, and the calculation method is as follows:

YYR＝{YYR₁,YYR₂…YYR_m-1,YYR_m|YYR_ithe number of people to be filled in the ith month, i belongs to [1, m [)]}，

YTR＝{YTR₁,YTR₂…YTR_m-1,YTR_m|YTR_iThe number of people filled in the ith month, i belongs to [1, m ]]}，

Wherein YYR is the sequence of the number of people to be filled, YTR is the sequence of the number of people filled, PTV is the total man-hour value, PT_iThe information is shown in Table 1.

[ TABLE 1 ]

PT1	PT2	PT3	PT4	PT5
					Last month	Time unit	Tissue classes	Organization department	Classification of working hours

Specifically, referring to fig. 6, after inputting a metadata m instance x, the library E is enumerated by the man-hour metadata_mInquiring a man-hour table data type m enumeration library, judging whether a man-hour card of the current month exists or not, and if so, directly generating basic data of a data center; if not, filling in the standard according to the working hours, and repeating the standard F on the finished card_mJudging formalized constraint of the metadata type m, if the formalized constraint of the metadata type m meets the constraint condition, generating basic data of a data center, and if the formalized constraint of the metadata type m does not meet the constraint condition, deleting the data;

it should be noted that the man-hour metadata that meets the constraint condition may be deleted again by human judgment in the present system as necessary.

S22, verifying the validity of the basic data, and generating the auditing rate and effective working hour data of the designed finished product;

in the present embodiment, after the validity of the basic data is verified, the verification rate SP, the valid design man-hours T1, the valid check man-hours T2, and the valid verification man-hours T3 of the finished design product are calculated as follows according to project, department, and professional multidimensional analysis:

AC＝{ac₁,ac₂…ac_m-1,ac_m|ac_irecords the number of approved finished product cards in the ith month, i belongs to [1, m ]]}，

TC＝{tc₁,tc₂…tc_m-1,tc_m|tc_iRecords the number of the total finished cards in the ith month, i belongs to [1, m ]]，ac_i∈tc_i}，

T₁＝{t₁₂,t₁₃…t_1(m-1),t_1m|t_1iIs the sum of all design working hours from 26 th month to 25 th month i-1, i belongs to [2, m ]]}，

T₂＝{t₂₂,t₂₃…t_2(m-1),t_2m|t_2iIs the sum of all checking working hours from 26 th month i-1 th month to 25 th month i belongs to [2, m ∈]}，

T₃＝{t₃₂,t₃₃…t_3(m-1),t_3m|t_3iIs the sum of all the checking working hours from 26 th month i-1 th month to 25 th month i belongs to [2, m ]]}，

Wherein, AC is the number of records of the checked finished product card, TC is the number of records of the total finished product card, and TT is the total working hours of the finished product card in the current month;

the verified data may be deleted again by human judgment in the system.

Specifically, referring to fig. 5, step S2 further includes the sub-steps of:

s23, importing and verifying third-party data, establishing a network relation between the third-party data and the effective working hour data in multiple dimensions, comparing and matching the third-party data and the effective working hour data, correcting data difference, solidifying standard workload, and confirming standard rated working hours;

in this embodiment, the standard workload of solidification can be used as a reference version of the design work quota allocation in the nuclear power design process, and the reference design productivity PP is calculated by the following method:

i ═ AA, AB, CF, bs./| in-construction item }, D ═ EED, NID, CBD, ICD, oed. | in-stage unit },

i | business specialization } { XJ, CB, QT, QA, NP, nt

Wherein, CT is the output quantity of the designed finished product, PC is the standard working hour of solidification, PT is the total working hour, and MC is the total number of participated persons.

And S24, recording the operation process and recording error information in the data collection process.

Specifically, referring to fig. 7, step S23 includes the sub-steps of:

s231, collecting historical data on the project as third-party data, and importing the third-party data into the third-party data management center;

s232, establishing a network relation between the third-party data and the effective working hour data in a personal, professional and finished product multi-dimensional manner, and comparing and checking the third-party data and the effective working hour data;

and S235, if the verification is passed, solidifying the standard workload and the standard rated working hours, and recording the standard rated working hours.

Specifically, referring to fig. 7, step S23 further includes the sub-steps of:

s233, if the verification fails, performing data correction on the third-party data, and performing validity verification;

s234, matching the corrected third party data with the effective working hour data;

s235, if the matching is successful, entering a curing process, and recording a matching result;

it should be noted that, after the matching is successful, the data reaches the curing condition, but the data may also be selected not to enter the curing process through external intervention.

And S233, if the matching fails, returning to correct, and calling the log recording and error reporting module 107 to record the failure reason.

Specifically, referring to fig. 8, the man-hour data processed in step S2 has real and reliable validity, and can be used for data query, analysis and use, the statistical analysis module 106 performs multi-dimensional authorization by using projects, places and specialties by combining with an external nuclear power design and production management platform product center, performs statistical analysis of item classification on the valid man-hour data, and dynamically generates an intuitive form of a pie chart, a bar chart and a graph by using the data as a model.

The embodiment of the invention realizes the high-efficiency management of the workload of the design process of the nuclear power design project through an intelligent management system, completely records the conversion processes of man-hour distribution, implementation and verification of the design process, and is beneficial to tracking and analyzing related operations; the system is stable and practical, and the economic cost is low; the vacancy of a production man-hour management system in the process of the nuclear power design field is filled.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

It should be noted that: when the method for counting the workload of the nuclear power design project is implemented, the above described division of the functional modules is merely used as an example, and in practical application, the function distribution may be completed by different functional modules according to needs, that is, the internal structure of the equipment is divided into different functional modules, so as to complete all or part of the above described functions. In addition, the system for counting the workload of the nuclear power design project and the method for counting the workload of the nuclear power design project provided by the embodiment belong to the same concept, and the specific implementation process is detailed in the method embodiment and is not described herein again.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A nuclear power design project workload statistical system, the system comprising:

the recording card manufacturing module is used for manufacturing the personal working hour recording card of each designer and the finished product design working hour recording card by taking the monthly degrees as a unit to generate working hour metadata;

the data management system is connected with the recording card manufacturing module and used for combining, constraining and verifying the working hour metadata, generating effective working hour data, correcting data difference, solidifying standard workload and recording an operation process;

the statistical analysis module is connected with the data management system and used for performing cross combination query and data itemized statistical analysis on the personal working hour recording card and the designed finished product working hour recording card according to the effective working hour data to generate content management system integrated information and simultaneously transmitting the curing standard workload to a database management center;

the database management center is connected with the statistical analysis module and used for storing the integrated information and the standard curing workload;

the data management system includes:

the metadata collection constraint management module is connected with the recording card manufacturing module and used for collecting the working hour metadata, performing minimum structure information combination according to the working hour metadata, calculating the personal working hour filling rate and the personal working hour total value, generating metadata basic information, and then constraining the metadata basic information through a working hour constraint condition group to generate data center basic data; the labor hour restriction condition group takes a metadata enumeration library E or a labor hour filling specification and a finished card repeating specification F as a judgment basis;

the verification configuration center is connected with the metadata collection constraint management module and used for verifying the validity of the basic data and generating the verification rate and the effective working hour data of the designed finished product; the effective man-hour data comprises effective design man-hours T1, effective check man-hours T2 and effective audit man-hours T3;

the third-party data management center is connected with the verification configuration center and used for importing third-party data, establishing a network relation between the third-party data and the effective working hour data, comparing and matching the third-party data and the effective working hour data, correcting data difference, solidifying standard workload, calculating the reference design productivity, confirming standard rated working hours, removing information noise, automatically analyzing and verifying, establishing an associated network between the third-party data management center and a designed finished product, and matching structural information of an organization framework to form a multi-dimensional working hour algorithm;

the log recording and error reporting module is connected with the third-party data management center and the statistical analysis module and is used for recording the operation process and recording error information in the data collection process; by providing Win Service, the integrated information is imported into a database management center through a statistical analysis module, error information which cannot be imported due to abnormality is completely recorded, and the integrated information is imported again after being modified and corrected in a manual intervention mode.

2. The system of claim 1, wherein the statistical analysis module is further connected with an external system through an open interface of a nuclear power design and production management platform, and is used for setting a management corresponding relation between a product and an authority module, distributing authority, and inquiring data.

3. The system of claim 1, wherein the third party data management center comprises:

the import module is used for collecting and importing historical data on the project as third-party data;

the comparison module is connected with the import module and used for establishing a network relation between the effective working hour data and the third party data in a multi-dimension mode and comparing and verifying the third party data and the effective working hour data;

the correction module is connected with the import module and the comparison module and is used for correcting the data of the third party and verifying the validity when the comparison and verification between the valid working hour data and the third party data are not passed;

the matching module is connected with the correction module and the verification configuration center and used for matching the corrected third-party data with the valid working hour data and judging whether the data matching is successful or not;

and the curing module is connected with the comparison module and the matching module and is used for curing standard workload and standard rated working hours when the third-party data is successfully matched with the effective working hour data.

4. The system of claim 3, wherein the curing module is further configured to cure a standard workload and a standard rated man-hour when the comparison and verification of the valid man-hour data and third party data passes;

the log recording and error reporting module is connected with the matching module and the statistical analysis module, and is also used for recording failure reasons and recording the standard quota working hours when the matching fails.

5. A nuclear power design project workload statistical method is characterized by comprising the following steps:

s1, manufacturing the personal man-hour recording card and the design finished product man-hour recording card of each designer by taking the month as a unit, and generating man-hour metadata;

s2, analyzing and processing the labor hour metadata, generating effective labor hour data, correcting data difference, solidifying standard workload, and recording an operation process;

s3, according to the effective working hour data, performing cross combination query and data itemized statistical analysis on the personal working hour recording card and the design finished product working hour recording card to generate content management system integrated information, transmitting the curing standard workload to a database management center, and simultaneously setting a product and authority module management corresponding relation, distributing authority and querying data through an open interface of a nuclear power design and production management platform;

s4, receiving and storing the integrated information and the curing standard workload;

the step S2 further includes:

s21, collecting the working hour metadata, performing minimum structure information combination according to the working hour metadata, calculating the personal working hour filling rate and the personal working hour total value, generating metadata basic information, and then constraining the metadata basic information through a working hour constraint condition group to generate data center basic data; the labor hour restriction condition group takes a metadata enumeration library E or a labor hour filling specification and a finished card repeating specification F as a judgment basis;

s22, verifying the validity of the basic data, and generating the auditing rate and effective working hour data of the designed finished product; the effective man-hour data comprises effective design man-hours T1, effective check man-hours T2 and effective audit man-hours T3;

s23, importing third-party data, establishing a network relation between the third-party data and the effective working hour data in a multi-dimensional mode, comparing and matching the third-party data and the effective working hour data, correcting data difference, solidifying standard workload, calculating design productivity referred by the third-party data and the effective working hour data, confirming standard rated working hours, removing information noise, automatically analyzing and checking, establishing an associated network between the third-party data and a designed finished product, matching structural information of an organization framework, and forming a multi-dimensional working hour algorithm;

s24, recording the operation process, and recording error information in the data collection process; the method comprises the steps of providing Win Service, importing the integrated information into a database management center, completely recording error information which cannot be imported due to abnormality, modifying and correcting data in a manual intervention mode, and importing the error information again.

6. The method according to claim 5, wherein the step S23 further comprises:

s231, collecting historical data on the project as third-party data and importing the third-party data into a third-party data management center;

s232, establishing a network relation between the third-party data and the effective working hour data in a personal, professional and finished product multi-dimensional manner, and comparing and checking the third-party data and the effective working hour data;

and S235, if the verification is passed, solidifying the standard workload and the standard rated working hours, and recording the standard rated working hours.

7. The method according to claim 6, wherein the step S23 further comprises:

if the verification fails, performing data correction on the third-party data, and performing validity verification;

matching the corrected third party data with the valid working hour data;

if the matching is successful, entering a curing process and recording a matching result;

if the matching fails, returning to correct, calling a log recording and error reporting module at the same time, and recording the failure reason.

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