CN114841788B - Completion settlement overall process management system for engineering project construction management - Google Patents

Abstract

The invention provides a completion settlement overall process management system for engineering project construction management, which comprises: the intelligent engineering cloud platform is used for integrating and managing engineering resource data and extracting basic settlement data of engineering project construction management according to the engineering resource data; the completion settlement platform is used for converting and processing the basic settlement data through a preset report module to generate a corresponding completion settlement report; the control terminal is used for receiving and displaying the completion settlement report; by means of grading completion settlement, completion settlement accuracy is improved, risks that data are lost and cannot be perceived are reduced, and meanwhile, processing efficiency of a platform for processing data is improved through data thinning management, real-time acquisition and updating and cloud computing deployment.

Description

Completion settlement overall process management system for engineering project construction management

Technical Field

The invention relates to the technical field of cloud computing and big data service, in particular to a completion settlement overall process management system for engineering project construction management.

Background

At present, infrastructure projects are increasingly important, airport construction is used as an important category in the infrastructure projects, the current financial system requirement is met, and construction units need to compile completion financial settlement according to the regulations, but in the actual work, the construction units generally attach importance to engineering construction, ignore the organization and management of the project settlement, and have adverse effects on the performance of the summary (pre) calculation of inspection projects and the financial settlement statistics after the completion of construction; in actual implementation, the settlement often has a delay phenomenon, which can enlarge construction expenditure and influence normal accounting and evaluation; the reported data is incomplete, some projects which need to be settled are not statistically evaluated, or the used subjects are disordered, so that the storage value of the settlement report cannot be exerted; the completion settlement is a file which comprehensively reflects the financial condition of the whole construction process, and the irregular behaviors occurring in the settlement process can easily generate adverse consequences, such as influence on the normal and timely proceeding of the settlement, and possibly reduce the investment income of the project; in the decision making, the decision making is separated from the actual one due to subjective factors and the like. One phenomenon is budget over-budget. Budget over-budget is a common phenomenon, and part of reasons are due to the fact that early-stage material information such as construction drawings is leaked or construction technology problems exist; the other part of reasons are that the project amount is increased, the project expense is increased and the project cost is raised due to the reasons of artificial subjective judgment, high-estimation intelligent calculation and exaggerated expense, the project standard is reduced, the high-standard quota is applied or the calculation is repeated when the project engineering decision is carried out, and the like; according to the completion settlement making method and the completion settlement making system based on the whole engineering process management, which have the application number of '201510212371.0', the project plan is imported into a project early-stage management module, and the collected expense information is integrated into a project middle-stage management module; establishing an asset BOM in a project later-stage management module, generating an asset card, carrying out expense allocation, and finally generating a report to realize real-time monitoring of the whole engineering process, wherein the same equipment realizes coding linkage in material, equipment and asset modules and has the function of automatically generating a completion settlement report; the completion settlement report is convenient to generate by collecting and managing data of each part in the engineering flow and generating the completion settlement report, but the problem of a calculation missing project or certain data in the calculation missing project is easy to occur from the production process to the final completion settlement, and the accuracy of the completion settlement report is improved by sectional and graded allocation calculation; the invention integrates data resources of each stage of the engineering construction by combining the characteristics of the engineering construction, establishes an intelligent engineering cloud platform, integrates various basic data required by completion settlement of the engineering by using a digital means, performs completion grading settlement and generates completion settlement reports of different stages.

Disclosure of Invention

The invention provides a completion settlement overall process management system for engineering project construction management, which is used for solving the problems that project construction data cannot be accurately and completely managed and completion settlement can not be performed on the project construction data in the engineering project construction management, and a completion settlement report form is generated.

The invention provides a completion settlement overall process management system for engineering project construction management, which comprises:

wisdom engineering cloud platform: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for integrating and managing engineering resource data and extracting basic settlement data of engineering project construction management according to the engineering resource data;

completion settlement platform: the system is used for converting and processing the basic settlement data through a preset report module to generate a corresponding completion settlement report;

the control terminal: and the completion settlement report is used for receiving and displaying the completion settlement report.

As an embodiment of this technical solution, the smart engineering cloud platform includes:

an integration module: the system comprises a data processing unit, a data processing unit and a data processing unit, wherein the data processing unit is used for acquiring engineering resource data, classifying the engineering resource data, determining the type of the engineering data, and performing data integration on the engineering resource data according to the type of the engineering data to generate an engineering integration data set;

the engineering data categories include: engineering capital data, engineering material data and engineering field data;

the management module is used for: and extracting basic settlement data of the construction management of the engineering project based on the engineering integration data set.

As an embodiment of the present technical solution, the as-built settlement platform includes:

the list management module: performing directory data matching on the basic settlement data according to a preset settlement list directory, acquiring the settlement data corresponding to the settlement list directory, and generating a settlement list corresponding to the settlement data;

a settlement management module: carrying out asset grading management based on the settlement list to generate grading settlement data, carrying out completion settlement on the grading settlement data and generating a corresponding completion settlement report;

the asset hierarchy management at least comprises delivery asset management and asset hierarchy management;

the tiered resolution data includes at least funding source data and funding occupancy data.

As an embodiment of the present technical solution, the settlement management module includes:

designing a unit: acquiring settlement initial data and designing settlement items based on the settlement list;

a hierarchical management unit: acquiring settlement change data corresponding to the settlement project in real time based on the settlement project, and performing hierarchical segmentation management according to the settlement change data and settlement initial data to determine hierarchical settlement data;

completion settlement unit: and generating a corresponding completion settlement report based on the grading settlement data and a preset report module.

As an embodiment of the present technical solution, the hierarchical management unit includes:

a real-time acquisition subunit: the decision making system is used for segmenting a decision making project, determining a decision making project segment and collecting decision making change data corresponding to the decision making project segment;

a hierarchical decision subunit: determining an apportionment decision making strategy according to the decision making change data and the decision making initial data, and performing apportionment hierarchical decision making to generate hierarchical decision making data; wherein,

the apportionment strategy comprises the following steps: single apportionment and grading apportionment;

the hierarchical resolution data includes: single hierarchical resolution data, complex hierarchical resolution data.

As an embodiment of the present technical solution, the real-time acquisition subunit includes:

segmenting the settlement project through a smart engineering cloud platform according to the settlement project and a preset stage catalog of the settlement project, and determining a settlement project segment; wherein,

the preset final settlement project stage catalog is a construction subsection catalog of the final settlement project;

the final settlement item segments are as follows: the settlement engineering project is divided into a plurality of stage projects, and the stage projects respectively correspond to settlement project sections;

acquiring settlement change data corresponding to the settlement project segments based on the settlement project segments; wherein,

and the final settlement change data corresponding to the final settlement project segment at least comprises fixed asset change data and delivery asset change data.

As an embodiment of the present technical solution, the hierarchical decision subunit includes:

screening out apportionment data and attributes to be apportioned corresponding to the apportionment data based on the final settlement change data and the final settlement initial data;

the apportionment data includes: primary apportioned data, secondary apportioned data, and tertiary apportioned data;

the attributes to be shared at least comprise fixed asset attributes, management asset attributes and variable asset attributes;

determining an allocation level corresponding to the attribute of the item to be allocated according to the attribute of the item to be allocated and a preset category database, performing allocation decision-making judgment, determining an allocation decision-making strategy, performing allocation decision-making according to the allocation decision-making strategy, and generating grading decision-making data; wherein,

when the attribute of the item to be shared is in a single category, performing single allocation decision calculation corresponding to the single category to generate single grading decision calculation data;

when the attribute to be shared is a multi-item attribute to be shared, carrying out grading allocation decision calculation to generate complex grading decision calculation data;

the apportionment level corresponding to the attribute to be apportioned comprises the following steps: the allocation level corresponding to the fixed asset attribute is first-level allocation; managing the allocation level corresponding to the asset attribute as secondary allocation; and the allocation level corresponding to the property of the changed asset is three-level allocation.

As an embodiment of the present technical solution, when the attribute to be amortized is a multiple attribute to be amortized, performing hierarchical resolution to generate complex hierarchical resolution data includes:

determining a distribution sequence based on the multiple items to be shared attribute; wherein,

the allocation sequence is as follows: the first-level sharing is prior to the second-level sharing, and the second-level sharing is prior to the third-level sharing;

carrying out graded allocation settlement according to the allocation sequence and a preset initial asset value to generate complex graded settlement data; wherein,

when the first-level allocation decision calculation corresponding to the first-level allocation is carried out, calculating a first-level asset allocation value according to the first-level allocation data and a preset allocation condition comparison database, and calculating a first-level grading allocation value based on the first-level asset allocation value and an initial asset value;

when the second-level apportionment decision calculation corresponding to the second-level apportionment is carried out, calculating a second-level asset apportionment value according to the second-level apportionment data and a preset apportionment condition comparison database, and calculating a second-level grading apportionment value based on the second-level asset apportionment value and the first-level apportionment value;

when three-level apportionment decision calculation corresponding to the three-level apportionment is carried out, calculating a three-level asset apportionment value according to three-level apportionment data and a preset apportionment condition comparison database, and calculating a three-level grading apportionment value based on the three-level asset apportionment value and a two-level apportionment value; wherein,

the preset apportionment condition comparison database comprises:

first split case: a to-be-shared item is allocated to a single-section asset of a project section, and a first allocation ratio is calculated according to the single-section asset of the project section and the current asset;

second split case: a second share ratio is calculated according to the multi-segment assets of the project segments and the current assets when an item to be shared is shared by the multi-segment assets of the project segments;

and (3) third sharing condition: calculating a third share ratio according to the total assets of the project of all the project sections and the current assets if one to-be-shared project is shared by the total assets of the project of all the project sections;

the allocation value is calculated through the items to be allocated and the corresponding allocation ratio;

the complex hierarchical resolution data comprises: and the final settlement change data and the apportionment data corresponding to the final settlement initial data and the grading apportionment value corresponding to the apportionment data.

As an embodiment of this technical solution, the smart engineering cloud platform further includes:

the micro-service module: establishing a corresponding construction service directory based on an engineering project, acquiring engineering resource data based on the construction service directory, and providing engineering construction management service;

the management service includes: the method comprises the following steps of project data transmission management, data processing standard management and project acceptance management;

an application module: matching management applications based on the engineering construction management service and the corresponding scene; wherein,

the management application comprises: mobile application, system management application, construction management application, participating unit application and comprehensive query application;

a basic cloud module: the system is used for carrying out cloud storage on project data generated by the micro-service module and the application module in the using process, carrying out corresponding project cloud computing according to a preset project management target and generating a project computing result.

As an embodiment of the technical solution, the micro service module includes an engineering project data acquisition optimizing unit, and the engineering project data acquisition optimizing unit includes the following steps:

step S01: establishing pre-receiving catalog set of pre-receiving project data according to engineering project

Acquiring the collected engineering project data set

Separately creating a matrix of pre-received directory sets

And matrices of engineering project data sets

According to a predetermined data deviation matrix

Wherein

calculating a data acquisition deviation filter matrix

：

Wherein,

is an identity matrix of order n,

the variance of the negative matrix corresponding to the engineering project data set,

is preset dataDeviation matrix

The conjugate transpose matrix of (a);

step S02: calculating an engineering data acquisition deviation value according to the data acquisition deviation filtering matrix

：

Wherein,

is a matrix of the engineering project data set,

in order to pre-receive the matrix of directory sets,

a parameter matrix that is a matrix of pre-received directory sets,

is a transposed symbol;

step S03: collecting deviation value by the engineering data

Carrying out optimization judgment on the preset deviation value to determine an optimization result; wherein,

when the engineering data acquisition deviation value

When the current acquisition mode is within the threshold range of the preset deviation value, the current acquisition mode is the optimal data acquisition mode;

when the engineering data acquisition deviation value

When the deviation value is not within the threshold range of the preset deviation value, the acquisition optimization is carried out, and the optimized acquisition matrix is calculated

：

Wherein,

in order to optimize the acquisition matrix at a time,

is constant, and

；

step S04: according to the optimized acquisition matrix

Calculating the engineering data acquisition deviation value again to obtain a primary optimized data acquisition deviation value, and performing optimized deviation judgment; wherein,

when the primary optimized data acquisition deviation value is within a preset threshold value range, re-determining an acquisition range and an acquisition strategy according to the optimized acquisition matrix and a preset acquisition contrast database;

and when the primary optimization data acquisition deviation value is not within the preset threshold range, optimizing again.

The invention has the beneficial effects that: by means of grading completion settlement, completion settlement accuracy is improved, risks that data are lost and cannot be perceived are reduced, and meanwhile, processing efficiency of a platform for processing data is improved through data thinning management, real-time acquisition and updating and cloud computing deployment.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a functional diagram of a smart engineering cloud platform in an engineering project construction management completion settlement overall process management system according to an embodiment of the present invention;

fig. 2 is a functional diagram of an as-built settlement platform in an as-built settlement overall process management system for engineering project construction management in an embodiment of the present invention;

fig. 3 is a functional diagram of a settlement management module in an as-built settlement overall-process management system for engineering project construction management according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the invention.

Moreover, it is noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions, and "a plurality" means two or more unless specifically limited otherwise. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

According to the completion settlement system, completion settlement is carried out in real time according to the progress of the engineering project in the engineering construction through the intelligent engineering cloud platform and the completion settlement platform, the accuracy and the integrity of the completion settlement are improved through graded allocation in the completion settlement process, and a corresponding completion settlement report is generated and visually displayed through the control terminal.

Example 1:

the embodiment of the invention provides a completion settlement overall process management system for engineering project construction management, which comprises:

wisdom engineering cloud platform: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for integrating and managing engineering resource data and extracting basic settlement data of engineering project construction management according to the engineering resource data;

completion settlement platform: the system is used for converting and processing the basic settlement data through a preset report module to generate a corresponding completion settlement report;

the control terminal: the completion settlement report is used for receiving and displaying the completion settlement report;

the working principle of the technical scheme is as follows: in the prior art, the required data is generally acquired and integrated by establishing a corresponding data acquisition and management mode at the beginning of a project, and completion settlement is performed according to the acquired and integrated data when the project is finished, so that the method is simple in arrangement and convenient to use, is suitable for some engineering constructions with stable modes, is suitable for large-scale engineering constructions or complex constructions, has excessive construction data and excessive completion settlement data requirements, and is easy to cause the situations of data confusion and data loss;

in a specific implementation scenario, the technical scheme is as follows: in the process of school engineering construction, by segmenting school construction, establishing a data catalog for each segment of data, managing the segmented data, and updating completion settlement once after each segment of construction is finished until the completion settlement is finished, and performing total completion settlement and grading calculation on completion settlement reference construction data;

the beneficial effects of the above technical scheme are: by means of grading completion settlement, completion settlement accuracy is improved, risks that data are lost and cannot be perceived are reduced, and meanwhile, processing efficiency of a platform for processing data is improved through data thinning management, real-time acquisition and updating and cloud computing deployment.

Example 2:

in one embodiment, the smart engineering cloud platform comprises:

an integration module: the system comprises a data processing unit, a data processing unit and a data processing unit, wherein the data processing unit is used for acquiring engineering resource data, classifying the engineering resource data, determining the type of the engineering data, and performing data integration on the engineering resource data according to the type of the engineering data to generate an engineering integration data set;

the engineering data categories include: engineering fund data, engineering material data and engineering field data;

a management module: extracting basic settlement data of engineering project construction management based on the engineering integration data set;

the working principle of the technical scheme is as follows: in the prior art, engineering data are generally collected in a classified manner and function management of different modules is performed, but data required for completion settlement are screened in the data after construction is finished; in the technical scheme, when the engineering resource data are obtained from the beginning through the integration module and the management module, completion settlement data in the engineering resource data are screened, so that basic settlement data of engineering project construction management are extracted;

the beneficial effects of the above technical scheme are: the type of the engineering data is determined through the engineering resource data management, the same management is carried out according to the data of the same type of different engineering, and the coverage of the basic settlement data is improved.

Example 3:

in one embodiment, the as built settlement platform comprises:

the list management module: performing directory data matching on basic settlement data according to a preset settlement list directory, acquiring list settlement data corresponding to the settlement list directory, and generating a settlement list corresponding to the list settlement data;

a settlement management module: carrying out asset grading management based on the settlement list to generate grading settlement data, carrying out completion settlement on the grading settlement data and generating a corresponding completion settlement report;

the asset hierarchy management at least comprises delivery asset management and asset hierarchy management;

the hierarchical settlement data at least comprises fund source data and fund occupation data;

the working principle of the technical scheme is as follows: determining the list settlement data corresponding to the settlement list by matching the list directory with the basic settlement data, finally generating a settlement list, carrying out asset hierarchical management through a settlement management module to obtain hierarchical settlement data, carrying out completion settlement and generating a corresponding completion settlement report;

in a specific implementation scenario, the technical scheme is as follows: extracting asset under construction and fixed asset data through asset management, providing various data to be shared (obtained through grading resolution) through contract management, self-service reimbursement management and engineering financial management, quoting the data according to a preset algorithm flow, forming final delivery asset data through asset allocation management, performing completion resolution and generating a corresponding completion resolution report;

the beneficial effects of the above technical scheme are: the list catalog is matched with the basic settlement data, so that the screening range of the settlement data is reduced, and the applicability of the data is improved.

Example 4:

in one embodiment, the resolution management module comprises:

designing a unit: acquiring settlement initial data and designing settlement items based on the settlement list;

a hierarchical management unit: acquiring settlement change data corresponding to the settlement project in real time based on the settlement project, and performing hierarchical segmentation management according to the settlement change data and settlement initial data to determine hierarchical settlement data;

completing and settling unit: generating a corresponding completion settlement report based on the grading settlement data and a preset report module;

the working principle of the technical scheme is as follows: in the prior art, the final overall project settlement is generally carried out on a construction project, which easily causes data loss or incomplete acquisition of changed data in the construction process and causes inaccurate construction settlement, in the technical scheme, the settlement project is firstly designed through a design unit, then the construction project is divided into a plurality of different construction sections through a grading management unit, data is respectively acquired and managed for each section, the settlement processing of the current section is carried out after the acquisition requirement of the sectional data is met, and finally, a completion settlement table is generated through a completion settlement unit according to the settlement data obtained after the settlement processing of different stages;

in a specific implementation scenario, the technical scheme is as follows: the following business processes are processed through assistance: the method comprises the following steps of temporarily evaluating assets, converting to consolidation, calculating the value of the assets for delivery and making up financial settlement, realizing the definition and maintenance functions of an asset directory, realizing the link relation among approximate calculation items, contract quotations, financial accounting subjects and inventory lists of the assets for delivery, forming the processing standard of asset value calculation for delivery and use, and ensuring the rationality and accuracy of settlement sections (engineering sections);

the beneficial effects of the above technical scheme are: by means of the design unit, pertinence of hierarchical management is improved, decision calculation is graded through the hierarchical management unit, decision calculation data of each stage are obtained respectively, accuracy of completion decision calculation is improved, and completeness of data acquisition, management and storage is guaranteed.

Example 5:

in one embodiment, the hierarchical management unit includes:

a real-time acquisition subunit: the decision making system is used for segmenting a decision making project, determining a decision making project segment and collecting decision making change data corresponding to the decision making project segment;

a grading decision subunit: determining an apportionment decision making strategy according to the decision making change data and the decision making initial data, and performing apportionment hierarchical decision making to generate hierarchical decision making data; wherein,

the apportionment strategy comprises the following steps: single apportionment and grading apportionment;

the hierarchical resolution data includes: single grading final settlement data and complex grading final settlement data;

the working principle of the technical scheme is as follows: in the prior art, construction projects are generally collected for summarizing, data summarization is completed after construction, and completion settlement is started by using the data, but in the above technical scheme, decision change data corresponding to different segments of settlement projects are collected in real time, and allocation and grading settlement are performed by combining the obtained settlement initial data, and finally grading settlement data are generated;

the beneficial effects of the above technical scheme are: by acquiring decision change data in real time, a sample is provided for decision classification, and decision calculation is classified and apportioned, so that decision calculation meticulous performance is improved, and decision calculation efficiency and accuracy are improved.

Example 6:

in one embodiment, the real-time acquisition subunit includes:

segmenting the settlement projects through an intelligent engineering cloud platform according to the settlement projects and a preset stage catalog of the settlement projects, and determining settlement project sections; wherein,

the preset final settlement project stage catalog is a construction subsection catalog of the final settlement project;

the final settlement item segment is as follows: the settlement project is divided into a plurality of stage projects, and the stage projects respectively correspond to settlement project sections;

acquiring settlement change data corresponding to the settlement project segments based on the settlement project segments; wherein,

the final settlement change data corresponding to the final settlement project segment at least comprises fixed asset change data and delivery asset change data;

the working principle of the technical scheme is as follows: collecting a stage catalog which is obtained by classifying settlement projects and defining settlement projects in real time, dividing settlement engineering projects into a plurality of stage projects, and collecting corresponding settlement change data which at least comprises fixed asset change data and delivery asset change data according to each stage project;

in a specific implementation scenario, the technical scheme is as follows: in a long-term construction, a platform collects project data in real time, the long construction is divided into different construction stages, construction data of each stage are collected in real time, particularly asset change data, and settlement change data are determined by screening the collected data;

the beneficial effects of the above technical scheme are: the analysis and judgment capacity of the engineering segmentation is improved through the phase catalog of the settlement project, and the data acquisition efficiency is improved through respectively acquiring data at corresponding phases.

Example 7:

in one embodiment, the hierarchical resolution subunit includes:

screening out apportionment data and attributes to be apportioned corresponding to the apportionment data based on the final settlement change data and the final settlement initial data;

the apportionment data includes: primary apportionment data, secondary apportionment data and tertiary apportionment data;

the attributes to be shared at least comprise fixed asset attributes, management asset attributes and variable asset attributes;

determining an allocation level corresponding to the attribute of the item to be allocated according to the attribute of the item to be allocated and a preset category database, performing allocation decision-making judgment, determining an allocation decision-making strategy, performing allocation decision-making according to the allocation decision-making strategy, and generating grading decision-making data; wherein,

when the attribute of the item to be shared is in a single category, performing single allocation decision calculation corresponding to the single category to generate single grading decision calculation data;

when the attribute to be shared is a multi-item attribute to be shared, carrying out grading allocation decision calculation to generate complex grading decision calculation data;

the apportionment level corresponding to the attribute of the item to be apportioned comprises the following steps: the allocation level corresponding to the fixed asset attribute is first-level allocation; managing the allocation level corresponding to the asset attribute as secondary allocation; the allocation level corresponding to the property of the changed assets is three-level allocation;

the working principle of the technical scheme is as follows: selecting apportionment data and attributes to be apportioned corresponding to the apportionment data according to decision calculation data and change decision calculation data acquired in an earlier stage, wherein the apportionment data comprises: the method comprises the following steps of firstly, allocating data, secondly, and thirdly, allocating data, wherein attributes to be allocated at least comprise fixed asset attributes, management asset attributes and variable asset attributes, and allocation levels corresponding to the fixed asset attributes are firstly allocated; managing the allocation level corresponding to the asset attribute as secondary allocation; the allocation level corresponding to the property of the changed asset is three-level allocation, allocation decision calculation is carried out according to the property to be allocated, when the property to be allocated is of a single category, single allocation decision calculation is carried out, otherwise, the allocation decision calculation is carried out in a grading manner;

in a specific implementation scenario, the technical scheme is as follows: determining the value of the assets for delivery, namely determining the value of the assets for delivery after the assets for delivery are completely delivered and used after the relevant cost is allocated according to the specification on the basis of contract execution price; adding the attribute of the item to be shared, and sequentially carrying out primary sharing, secondary sharing, tertiary sharing and the like according to the sharing attribute during sharing by virtue of the grading attribute; first-stage apportionment: the equipment contract divides installation fees (including wire rods) and training fees into each installation equipment (without tax) according to the proportion of the equipment value in the contract. Forming an asset list according to the agreement of the civil engineering contract, and performing internal sharing; and (3) secondary sharing: design, consultation (including supervision and cost), and the like; and (3) third-level apportionment: temporary facilities (management-use facility fees), management fees, and the like are allocated to each installation device and building (no tax) according to the proportion. During the allocation, the assets have an accumulated allocation process, except for the first allocation, allocation calculation is carried out on the basis of the asset value increased by the previous-level allocation, and the value accuracy after the assets are allocated is ensured;

the beneficial effects of the above technical scheme are: by means of grading and apportionment, accuracy of apportionment calculation is improved, and more accurate and precise data samples are improved for completion decision calculation.

Example 8:

in one embodiment, when the attribute to be amortized is a multi-attribute to be amortized, performing hierarchical resolution to generate complex hierarchical resolution data includes:

determining a sharing sequence based on the multiple items to be shared; wherein,

the allocation sequence is as follows: the first-level sharing is prior to the second-level sharing, and the second-level sharing is prior to the third-level sharing;

carrying out graded allocation settlement according to the allocation sequence and a preset initial asset value to generate complex graded settlement data; wherein,

when the first-level apportionment settlement calculation corresponding to the first-level apportionment is carried out, calculating a first-level asset apportionment value according to the first-level apportionment data and a preset apportionment condition comparison database, and calculating a first-level grading apportionment value based on the first-level asset apportionment value and an initial asset value;

when the second-level apportionment decision calculation corresponding to the second-level apportionment is carried out, calculating a second-level asset apportionment value according to the second-level apportionment data and a preset apportionment condition comparison database, and calculating a second-level grading apportionment value based on the second-level asset apportionment value and the first-level apportionment value;

when three-level apportionment decision calculation corresponding to the three-level apportionment is carried out, calculating a three-level asset apportionment value according to three-level apportionment data and a preset apportionment condition comparison database, and calculating a three-level grading apportionment value based on the three-level asset apportionment value and a two-level apportionment value; wherein,

the preset apportionment condition comparison database comprises:

first split case: a to-be-shared item is allocated to a single-segment asset of a project segment, and a first allocation ratio is calculated according to the single-segment asset of the project segment and the current asset;

second split case: a to-be-shared item is shared by a plurality of sections of assets of a plurality of project sections, and a second sharing ratio is calculated according to the plurality of sections of assets of the project sections and the current assets;

and (3) third sharing condition: calculating a third share ratio according to the total assets of the project of all the project sections and the current assets if one to-be-shared project is shared by the total assets of the project of all the project sections;

the allocation value is calculated through the items to be allocated and the corresponding allocation ratio;

the complex hierarchical resolution data comprises: apportionment data corresponding to the decision making change data and the decision making initial data and a grading apportionment value corresponding to the apportionment data;

the working principle of the technical scheme is as follows: for the attribute of the multi-items to be shared, firstly, determining the sharing sequence, wherein the priority of the sequence from high to low is respectively: primary spreading, secondary spreading and tertiary spreading; calculating complex grading final settlement data according to the sequence and the initial asset value; when the first-level apportionment decision calculation corresponding to the first-level apportionment is carried out, calculating a first-level grading apportionment value according to the apportionment condition and contrasting the database, and when the second-level apportionment decision calculation corresponding to the second-level apportionment is carried out, calculating a second-level grading apportionment value according to the first-level grading apportionment value; when the three-level apportionment decision calculation corresponding to the three-level apportionment is carried out, calculating a three-level grading apportionment value according to the two-level grading apportionment value;

in a specific implementation scenario, the technical scheme is as follows: after each level of allocation is finished, the allocated amount is written back to the asset value; during the second time of allocation, calculating according to the asset value which is allocated for the first time, and after the second time of allocation, writing the allocated amount into the asset value; during the third time of allocation, calculating according to the asset value allocated for the second time, and after the third time of allocation, writing the allocated amount into the asset value; the apportionment formula is as follows: item to be spread

= value contributed by current contribution subject asset; case A: 1 item to be shared is shared by the assets in one contract, and the sharing ratio

(ii) a B, case B: the 1 item to be shared is shared by the assets in a plurality of contracts, and the sharing ratio

(ii) a Case C: 1 item to be shared is shared by all the assets in the contract in the item, and the sharing ratio

；

The beneficial effects of the above technical scheme are: the completion settlement efficiency is improved, the completion settlement work difficulty is reduced, and the workload of centralized financial settlement and asset transfer during completion settlement of the engineering is reduced, so that the stable transition from the engineering construction management stage to the post-engineering operation management stage is realized.

Example 9:

in one embodiment, the smart engineering cloud platform further comprises:

the micro-service module: establishing a corresponding construction service directory based on an engineering project, acquiring engineering resource data based on the construction service directory, and providing engineering construction management service;

the management service includes: the method comprises the following steps of project data transmission management, data processing standard management and project acceptance management;

an application module: matching management applications based on the engineering construction management service and the corresponding scene; wherein,

the management application comprises: mobile application, system management application, construction management application, participating unit application and comprehensive query application;

a basic cloud module: the system comprises a micro service module, an application module, a project cloud computing module and a data processing module, wherein the micro service module and the application module are used for performing cloud storage on project data generated in the using process of the micro service module and the application module, performing corresponding project cloud computing according to a preset project management target and generating a project computing result;

the working principle of the technical scheme is as follows: the basic cloud module is a physical environment for product operation, needs most basic servers, networks and storage devices, needs to provide a cloud computing platform and a container technology to ensure distributed deployment and operation and maintenance of the micro-service cluster, and supports an operation and maintenance management process to realize CI/CD (continuous integration and continuous deployment) by using a DevOps system; the micro-service module uses a Spring Cloud framework as a basic framework to realize the related capability of the API gateway and the service management, and basic service and business service are developed on the basis. The basic service is mainly shared service and middleware service, and the business service is designed by depending on the understanding and abstraction of the engineering management business; the application module constructs a product series, meets the management requirements of various users in the whole process domain of engineering management, comprises mobile application, system management application, construction management application, participating unit application, comprehensive query portal and the like, and can rapidly construct application systems required under various specific scenes on the basis of microservices;

in a specific implementation scenario, the technical scheme is as follows: the intelligent engineering cloud platform is an engineering project management system platform in the whole process, and functional modules of the intelligent engineering cloud platform cover aspects of engineering construction management, such as functions of investment management, contract management, engineering finance, asset management, self-service reimbursement management and the like in the aspect of fund chain management, functions of material management, equipment management and the like in the aspect of material chain management, and functions of safety management, quality management, progress management, metering visa and the like in the aspect of field management;

the beneficial effects of the above technical scheme are: by arranging the micro-service module, the application module and the basic cloud module, the efficiency of data acquisition and classification management in the engineering project construction and management process is improved, and rapid project management and data calling are realized through cloud computing.

Example 10:

in one embodiment, the microservice module includes an engineering project data collection optimization unit, the engineering project data collection optimization unit including the steps of:

step S01: establishing pre-receiving catalog set of pre-receiving project data according to engineering project

Acquiring the collected engineering project data set

Separately creating a matrix of pre-received directory sets

And matrices of engineering project data sets

According to a predetermined data deviation matrix

Wherein, in the process,

calculating a data acquisition deviation filter matrix

：

Wherein,

is composed of

The identity matrix of the order of the first,

the variance of the negative matrix corresponding to the engineering project data set,

for preset data deviation matrix

The conjugate transpose matrix of (a);

step S02: calculating engineering data acquisition deviation value according to the data acquisition deviation filtering matrix

：

Wherein,

is a matrix of the engineering project data set,

in order to pre-receive the matrix of directory sets,

a parameter matrix that is a matrix of pre-received directory sets,

is a transposed symbol;

step S03: collecting deviation value through the engineering data

Carrying out optimization judgment on the preset deviation value to determine an optimization result; wherein,

when the engineering data acquisition deviation value

When the current acquisition mode is within the threshold range of the preset deviation value, the current acquisition mode is the optimal data acquisition mode;

when the engineering data acquisition deviation value

When the deviation value is not within the threshold range of the preset deviation value, carrying out acquisition optimization, and calculating an optimized acquisition matrix:

wherein,

in order to optimize the acquisition matrix at a time,

is constant, and

；

step S04: according to the optimized acquisition matrix

Calculating the engineering data acquisition deviation value again to obtain a primary optimized data acquisition deviation value, and performing optimized deviation judgment; wherein,

when the primary optimized data acquisition deviation value is within a preset threshold value range, re-determining an acquisition range and an acquisition strategy according to the optimized acquisition matrix and a preset acquisition contrast database;

when the primary optimization data acquisition deviation value is not within the preset threshold range, optimizing again;

the working principle of the technical scheme is as follows: establishing an acceptance catalog of engineering project receiving data corresponding to the current project, acquiring the engineering project data according to a preset mode, calculating a data acquisition deviation value, judging whether the data acquisition mode needs to be optimized, if so, calculating the data acquisition deviation value of the optimized acquisition mode after optimization, judging whether the optimization succeeds, if not, optimizing again until the optimization succeeds, and adopting the data acquisition mode which succeeds in optimization;

in a specific implementation scenario, the technical scheme is as follows: different data catalogues can be established in each different project, different data acquisition modes are adopted, the current acquisition mode is judged, if the current acquisition mode is unqualified, optimization is carried out, and if the current acquisition mode is qualified, the latest data acquisition mode is adopted;

the beneficial effects of the above technical scheme are: by establishing the data catalog, the data acquisition deviation judgment difficulty is reduced, the optimization effect is improved by multiple times of optimization judgment, the data acquisition accuracy is improved, and the completion settlement accuracy and comprehensiveness are improved.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. An engineering project construction management completion settlement overall process management system, comprising:

wisdom engineering cloud platform: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for integrating and managing engineering resource data and extracting basic settlement data of engineering project construction management according to the engineering resource data;

completion settlement platform: the completion settlement data processing module is used for converting and processing the foundation settlement data through a preset report module to generate a corresponding completion settlement report;

the control terminal: the completion settlement report is used for receiving and displaying the completion settlement report;

wisdom engineering cloud platform still includes: a micro-service module: establishing a corresponding construction service directory based on an engineering project, acquiring engineering resource data based on the construction service directory, and providing engineering construction management service;

the micro-service module comprises an engineering project data acquisition optimization unit, and the engineering project data acquisition optimization unit comprises:

a filtering subunit: establishing a pre-receiving catalog of pre-receiving project data according to an engineering project, acquiring the acquired engineering project data, determining a matrix of the pre-receiving catalog and a matrix of the engineering project data, and calculating a data acquisition deviation filtering matrix according to the matrix of the pre-receiving catalog, the matrix of the engineering project data and a preset data deviation matrix;

a deviation subunit: calculating an engineering data acquisition deviation value according to the data acquisition deviation filtering matrix; carrying out optimization judgment through the engineering data acquisition deviation value and a preset deviation value, and determining an optimization result; wherein,

when the engineering data acquisition deviation value is within a threshold range of a preset deviation value, the current acquisition mode is the optimal data acquisition mode;

when the engineering data acquisition deviation value is not within the threshold range of the preset deviation value, performing acquisition optimization and calculating an optimized acquisition matrix;

optimizing the subunit: calculating the engineering data acquisition deviation value again according to the optimized acquisition matrix, acquiring a primary optimized data acquisition deviation value, and judging the optimized deviation;

the engineering project data acquisition optimizing unit comprises the following steps during operation:

step S01: establishing pre-receiving catalog set of pre-receiving project data according to engineering project

Acquiring the collected engineering project data set

Separately creating a matrix of pre-received directory sets

And matrices of engineering project data sets

According to a predetermined data deviation matrix

Wherein

calculating a data acquisition deviation filter matrix

：

Wherein,

is composed of

The identity matrix of the order of which,

the variance of the negative matrix corresponding to the engineering project data set,

for preset data deviation matrix

The conjugate transpose matrix of (c);

step S02: calculating engineering data acquisition deviation value according to the data acquisition deviation filtering matrix

：

Wherein,

is a matrix of the engineering project data set,

in order to pre-receive a matrix of directory groups,

to pre-receive the parameter matrix of the matrix of directory groups,

is a transposed symbol;

step S03: collecting deviation value by the engineering data

Carrying out optimization judgment on the preset deviation value to determine an optimization result; wherein,

when the engineering data acquisition deviation value

When the current acquisition mode is within the threshold range of the preset deviation value, the current acquisition mode is the optimal data acquisition mode;

when the engineering data acquisition deviation value

When the deviation value is not within the threshold range of the preset deviation value, the acquisition optimization is carried out, and the optimized acquisition matrix is calculated

：

Wherein,

in order to optimize the acquisition matrix at a time,

is constant, and

；

step S04: according to the optimized acquisition matrix

Calculating the engineering data acquisition deviation value again to obtain a primary optimized data acquisition deviation value, and performing optimized deviation judgment; wherein,

when the primary optimized data acquisition deviation value is within a preset threshold value range, re-determining an acquisition range and an acquisition strategy according to the optimized acquisition matrix and a preset acquisition contrast database;

and when the primary optimization data acquisition deviation value is not within the preset threshold range, optimizing again.

2. An as-built settlement-completion overall-process management system for construction projects as claimed in claim 1, wherein said smart engineering cloud platform comprises:

an integration module: the system comprises a data processing unit, a data processing unit and a data processing unit, wherein the data processing unit is used for acquiring engineering resource data, classifying the engineering resource data, determining the engineering data category, and performing data integration on the engineering resource data according to the engineering data category to generate an engineering integration data set;

the engineering data categories include: engineering capital data, engineering material data and engineering field data;

the management module is used for: and extracting basic settlement data of the construction management of the engineering project based on the engineering integration data set.

3. An as-built settlement overall process management system for construction management of an engineering project as claimed in claim 1, wherein said as-built settlement platform comprises:

the list management module: performing directory data matching on basic settlement data according to a preset settlement list directory, acquiring list settlement data corresponding to the settlement list directory, and generating a settlement list corresponding to the list settlement data;

a settlement management module: carrying out asset grading management based on the settlement list to generate grading settlement data, carrying out completion settlement on the grading settlement data and generating a corresponding completion settlement report;

the asset hierarchy management at least comprises delivery asset management and asset hierarchy management;

the tiered resolution data includes at least funding source data and funding occupancy data.

4. An as-built settlement overall process management system for engineering project construction management as claimed in claim 3, wherein said settlement management module comprises:

designing a unit: acquiring settlement initial data and designing settlement items based on the settlement list;

a hierarchical management unit: acquiring settlement change data corresponding to the settlement project in real time based on the settlement project, and performing hierarchical segmentation management according to the settlement change data and settlement initial data to determine hierarchical settlement data;

completion settlement unit: and generating a corresponding completion settlement report based on the grading settlement data and a preset report module.

5. An as-built settlement-completion-of-work management system as claimed in claim 4, wherein said hierarchical management unit comprises:

a real-time acquisition subunit: the decision making system is used for segmenting a decision making project, determining a decision making project segment and collecting decision making change data corresponding to the decision making project segment;

a grading decision subunit: determining an apportionment decision-making strategy according to the decision-making change data and the decision-making initial data, and performing apportionment hierarchical decision-making to generate hierarchical decision-making data; wherein,

the apportionment decision strategy comprises the following steps: single apportionment and grading apportionment;

the hierarchical resolution data includes: single hierarchical resolution data, complex hierarchical resolution data.

6. An as-built settlement-completion management system for an engineering project as claimed in claim 5, wherein said real-time collection subunit comprises:

segmenting the settlement projects through an intelligent engineering cloud platform according to the settlement projects and a preset stage catalog of the settlement projects, and determining settlement project sections; wherein,

the preset final settlement project stage catalog is a construction subsection catalog of the final settlement project;

the final settlement item segment is as follows: the settlement engineering project is divided into a plurality of stage projects, and the stage projects respectively correspond to settlement project sections;

acquiring settlement change data corresponding to the settlement project segment based on the settlement project segment; wherein,

and the final settlement change data corresponding to the final settlement project section at least comprises fixed asset change data and delivery asset change data.

7. The as built settlement overall process management system for engineering project as claimed in claim 5, wherein said hierarchical settlement subunit comprises:

screening out apportionment data and attributes to be apportioned corresponding to the apportionment data based on the final settlement change data and the final settlement initial data;

the apportionment data includes: primary apportionment data, secondary apportionment data and tertiary apportionment data;

the attributes to be shared at least comprise fixed asset attributes, management asset attributes and variable asset attributes;

determining an allocation level corresponding to the attribute of the item to be allocated according to the attribute of the item to be allocated and a preset category database, performing allocation decision-making judgment, determining an allocation decision-making strategy, performing allocation decision-making according to the allocation decision-making strategy, and generating grading decision-making data; wherein,

when the attribute of the item to be shared is in a single category, performing single allocation decision calculation corresponding to the single category to generate single grading decision calculation data;

when the attribute to be shared is a multi-item attribute to be shared, carrying out grading allocation decision calculation to generate complex grading decision calculation data;

the apportionment level corresponding to the attribute to be apportioned comprises the following steps: the allocation level corresponding to the fixed asset attribute is first-level allocation; managing the allocation level corresponding to the asset attribute as secondary allocation; and the allocation level corresponding to the property of the changed asset is three-level allocation.

8. An as-built settlement overall process management system for engineering project construction management as claimed in claim 7, wherein said step of performing a hierarchical resolution to generate complex hierarchical resolution data when said attribute to be resolved is a multi-attribute to be resolved comprises:

determining a distribution sequence based on the multiple items to be shared attribute; wherein,

the allocation sequence is as follows: the first-level apportionment is prior to the second-level apportionment, and the second-level apportionment is prior to the third-level apportionment;

carrying out graded allocation settlement according to the allocation sequence and a preset initial asset value to generate complex graded settlement data; wherein,

when the first-level apportionment settlement calculation corresponding to the first-level apportionment is carried out, calculating a first-level asset apportionment value according to the first-level apportionment data and a preset apportionment condition comparison database, and calculating a first-level grading apportionment value based on the first-level asset apportionment value and an initial asset value;

when the second-level apportionment decision calculation corresponding to the second-level apportionment is carried out, calculating a second-level asset apportionment value according to the second-level apportionment data and a preset apportionment condition comparison database, and calculating a second-level grading apportionment value based on the second-level asset apportionment value and the first-level apportionment value;

when three-level apportionment decision calculation corresponding to the three-level apportionment is carried out, calculating a three-level asset apportionment value according to three-level apportionment data and a preset apportionment condition comparison database, and calculating a three-level grading apportionment value based on the three-level asset apportionment value and a two-level apportionment value; wherein,

the preset apportionment condition comparison database comprises:

first split case: a to-be-shared item is allocated to a single-segment asset of a project segment, and a first allocation ratio is calculated according to the single-segment asset of the project segment and the current asset;

second split case: a to-be-shared item is shared by a plurality of sections of assets of a plurality of project sections, and a second sharing ratio is calculated according to the plurality of sections of assets of the project sections and the current assets;

and (3) third sharing condition: calculating a third share ratio according to the total assets of the project of all the project sections and the current assets if one to-be-shared project is shared by the total assets of the project of all the project sections;

the allocation value is calculated through the items to be allocated and the corresponding allocation ratio;

the complex hierarchical resolution data comprises: and the final settlement change data and the apportionment data corresponding to the final settlement initial data and the grading apportionment value corresponding to the apportionment data.

9. An as-built settlement-completion management system for engineering project construction management as claimed in claim 1,

the management service includes: the method comprises the following steps of project data transmission management, data processing standard management and project acceptance management;

an application module: matching management applications based on the engineering construction management service and the corresponding scene; wherein,

the management application comprises: mobile application, system management application, construction management application, participating unit application and comprehensive query application;

a basic cloud module: the cloud storage system is used for carrying out cloud storage on project data generated by the micro-service module and the application module in the using process, carrying out corresponding project cloud computing according to a preset project management target and generating a project computing result.

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