CN116228170A - Data intercommunication construction method for project data integrated management platform - Google Patents

Abstract

The invention provides a data intercommunication construction method for a project data integrated management platform, which comprises the following steps: step 1: establishing PROID for each project service managed by the project data integrated management platform, wherein each PROID is associated with a plurality of affiliated data; step 2: respectively acquiring IDs of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data and WMS day management data; step 3: the fields of the ID and the PROID are compared, the ID with the same field content and the PROID establish a mapping relation, and corresponding data establish an association relation, so that 1-n fusion of the data is realized. The invention establishes a unified management mode by utilizing the local field of the PROID and each management data, and the PROID corresponds to the bottom layer operation data of the EIP management platform one by one.

Description

Data intercommunication construction method for project data integrated management platform

Technical Field

The invention belongs to the field of track traffic engineering project management, and particularly relates to a data intercommunication construction method for a project data integrated management platform.

Background

The development needs of information intelligence and the requirements of information management quality put higher demands on the intelligence and relevance of information system operation. In order to realize project cooperation of professional systems in rail transit engineering, mainly a power supply system, an electromechanical system, an automation system and a civil engineering system, a high-efficiency cooperation platform from standing to planning to design input, auditing and publishing is established, so that each link and effective control in the management and production process are realized, and most enterprises adopt enterprise information platforms (Enterprise Information Portal, EIP). The EIP system conventionally used at present is based on an ISO9000 management system, can provide efficient collaborative work for roles of projects, can meet the condition that the project management and control process is not limited by geographical position constraint, is an effective method for standardizing the project management process, improving resource allocation rationality and efficiency, improving the refinement degree in the aspect of cost control and assisting enterprises in improving market competitiveness. The EIP system generally comprises an internal management system such as project management, qualification management, document management, seal management, work day management and the like, and forms an informatization management, production supervision, performance calculation and office platform for the track traffic engineering project. The functions of each business module of the traditional project collaborative EIP management platform are independent, and the data formats and codes are different.

Along with the business operation of the systems, a great amount of scattered and independent EIP business functions and operation data are needed to be subjected to data concentration, information sharing and business intersection, so that centralized management of big data and communication channels among related businesses are realized, the collaborative operation capability of the rail transit project business is improved, the intelligent level of an EIP management platform of the rail transit system is further improved, and repeated labor is liberated, so that the work is very urgent.

Disclosure of Invention

Aiming at the technical problem that enterprise information platform management and operation data cannot be fused in the prior art, the invention provides a data intercommunication construction method for a project data integrated management platform, wherein a unified management mode is established by utilizing local fields of PROID (program identifier) and module data, the PROID corresponds to the bottom layer operation data of an EIP (electronic identity) management platform one by one, and each module aims at extraction analysis, unified modification and module data matching of the EIP management platform operation data.

The technical scheme adopted by the invention is as follows: a data intercommunication construction method for a project data integrated management platform comprises the following steps:

step 1: and establishing PROID (process identification) for each project service managed by the project data integrated management platform, wherein the PROID is a unique identification field of the project, each PROID is associated with a plurality of leaning data, and the leaning data is bottom operation data in the project data integrated management platform. The field of the PROID comprises a project code, a service type, a project location, a main department, a project part, a project responsible person, a stage code, a plan code, a task code, a system code, a professional code, a task iteration code, a document iteration code and a labor checking period which are sequentially arranged; the project code, the service type, the project location, the administration department, the project responsible person, the stage code, the plan code, the task code, the system code and the professional code belong to the resource description information. The task iteration code and the document iteration code belong to version control information. The labor inspection time period is labor inspection information.

Step 2: respectively acquiring IDs of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data and WMS day management data;

step 3: comparing the fields of the ID with the fields of the PROID, establishing a mapping relation between the ID with the same field content and the PROID, and establishing an association relation between corresponding data to realize 1-n fusion of the data;

the 1-n fusion of the data refers to interconnection and intercommunication of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data and WMS working day management data through PROID of project service, and meets data statistics and process management and control in PMS, QMS, DMS, PTMS and WMS management processes.

Further, in step 3, "1" in 1-n fusion of data refers to PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data, or record data in WMS day management data, and "n" refers to a plurality of affiliated data in the project data integrated management platform that has been associated with a prod.

Further, the PMS project management data is composed of PMSID and record data. The PMSID is an ID of PMS project management data. The PMSID includes project data PJID, plan data PLID, and task data TKID, and the record data includes project data record, plan data record, and task data record; the fields of the project data PJID include a project code number, a service type, a project location, a main department, a project department and a project principal which are sequentially arranged, the fields of the plan data PLID include a project code number, a stage code number and a plan code number which are sequentially arranged, and the fields of the task data TKID include a plan code number, a task code number, a professional code number and a task iteration code number which are sequentially arranged.

Further, the QMS qualification data is composed of QMSID and record data. The QMSID is an ID of QMS qualification management data. The QMISID comprises a master engineer MEID and a technical auditor TEID, and the record data comprises a master engineer data record and a technical auditor data record; the field of the master engineer MEID includes an item code, and the field of the technical auditor TEID includes an item code and a system code which are sequentially arranged.

Further, the DMS document management data is composed of DMSID and record data. The DMSID is an ID of the DMS document management data. The field of the DMSID comprises a task code number and a document iteration code number which are sequentially arranged; the record data is a document data record.

Further, the PTMS watermark management data is composed of PTMSID and recording data. The PTMSID is the ID of the PTMS watermark management data. The field of PTMID includes item code number and stage code number which are arranged in turn, and the record data is the record of the historical press publishing data.

Further, the WMS day management data is composed of WMSID and recording data. WMSID is an ID of WMS day management data. The WMSID comprises a hospital management day CMID, a project management day PMID, a project manager management day PEID, a design manager management day IMID and a technical day TMID, and recorded data are test and split data records; the field of the management worker day CMID of the hospital comprises a management department and a test time segment which are sequentially arranged, the field of the management worker day PMID of the project comprises a project code number and a test time segment which are sequentially arranged, the field of the management worker day PEID of the project comprises a project responsible person and a test time segment which are sequentially arranged, the field of the management worker day IMID of the design management worker day comprises a professional code number and a test time segment which are sequentially arranged, and the field of the technology worker day TMID comprises a task code number and a test time segment which are sequentially arranged.

Further, the service types are classified into: designing consultation class, integrated supervision, scientific research and bidding; the stage code is divided into: the method comprises a current stage, a pre-lapping stage, a preliminary setting stage, a device bid matching stage, a construction diagram design stage, a construction matching stage and a general stage; the task iteration code comprises a task version code and a task batch code which are sequentially arranged; the document iteration code comprises a document version code and a document batch code which are sequentially arranged.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention establishes the PROID, the PROID contains the conventional identification attribute of the project service, has uniqueness and systemicity, can obviously distinguish the identification characteristics among different services, forms a set of systematic mapping rule, and has the characteristics of easy expansion, easy maintenance and high efficiency.

2. The invention adopts a new idea of PROID for data fusion, solves the problem that the data of five modules cannot be interconnected and communicated, and provides mapping support for comprehensive basic data; a set of complete systematic mapping rule is formed based on PROID, so that comprehensive basic data fusion of project comprehensive evaluation analysis capability is realized, the data is matched with input and output data of a statistical and analytic hierarchy process, data support is provided for project comprehensive evaluation indexes and project execution condition analysis results, and a complete technical means is provided for realizing project comprehensive evaluation analysis.

3. The method solves the problems of human bottleneck, incapability of interconnection and intercommunication of all modules, scattered overall project execution data and the like in project execution, reduces the human cost and data safety hidden danger caused by frequent operation of personnel, improves the project execution efficiency, provides comprehensive basic data for realizing comprehensive evaluation analysis of the project, and ensures efficient and high-quality execution of the project.

Drawings

FIG. 1 is a flow chart of an embodiment of the present invention;

fig. 2 is a schematic diagram of a mapping relationship between project data PJID and prod according to an embodiment of the present invention;

fig. 3 is a schematic diagram of mapping relationship between a planning data PLID and a procd according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a mapping relationship between task data TKID and procd according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a mapping relationship between a technical auditor TEID and a PROID according to an embodiment of the invention;

FIG. 6 is a schematic diagram of mapping relationship between TMID and PROID of technical days according to an embodiment of the present invention;

fig. 7 is a schematic diagram of a mapping relationship between DMSID and prod according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a mapping relationship between PTMSID and prod according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the drawings and the specific embodiments, so that those skilled in the art can better understand the technical solutions of the present invention.

The embodiment of the invention provides a data intercommunication construction method for a project data integrated management platform, which is shown in fig. 1 and comprises the following steps:

step 1: the method comprises the steps of establishing PROID (process identification) for each project service managed by a project data integrated management platform, wherein the PROID is a unique identification field of a project, each PROID is associated with a plurality of pieces of hanging data, and the field of the PROID comprises a project code number, a service type, a project location, a main department, a project part, a project responsible person, a stage code number, a planning code number, a task code number, a system code number, a professional code number, a task iteration code number, a document iteration code number and a labor checking period which are sequentially arranged. The project code, the service type, the project location, the administration department, the project responsible person, the stage code, the plan code, the task code, the system code and the professional code belong to the resource description information. The task iteration code and the document iteration code belong to version control information. The labor inspection time period is labor inspection information.

The service types are divided into: design consultation class (DSC), integrated supervision (IGS), scientific research (STR) and BID (BID).

The stage code is divided into: the method comprises a project current stage (BPJ), a pre-grinding stage (PPR), a grinding stage (RS), a pre-setting stage (PDS), a device bid matching stage (EBC), a construction bid matching stage (CDC), a construction diagram design stage (CD), a construction matching stage (CC) and a general purpose stage (GER).

The task iteration code comprises a task version code and a task batch code which are sequentially arranged; the document iteration code comprises a document version code and a document batch code which are sequentially arranged.

Step 2: the IDs of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data, and WMS day management data are acquired, respectively.

The PMS project management data is composed of PMSID and record data. The PMSID is an ID of PMS project management data. The PMSID includes project data PJID, plan data PLID, and task data TKID, and the record data includes project data record, plan data record, and task data record; the fields of the project data PJID include a project code number, a service type, a project location, a main department, a project department and a project principal which are sequentially arranged, the fields of the plan data PLID include a project code number, a stage code number and a plan code number which are sequentially arranged, and the fields of the task data TKID include a plan code number, a task code number, a professional code number and a task iteration code number which are sequentially arranged.

The QMS qualification data consists of QMSID and record data. The QMSID is an ID of QMS qualification management data. The QMISID comprises a master engineer MEID and a technical auditor TEID, and the record data comprises a master engineer data record and a technical auditor data record; the field of the master engineer MEID includes an item code, and the field of the technical auditor TEID includes an item code and a system code which are sequentially arranged.

The DMS document management data is composed of DMSID and record data. The DMSID is an ID of the DMS document management data. The field of the DMSID comprises a task code number and a document iteration code number which are sequentially arranged; the record data is a document data record.

The PTMS watermark management data consists of PTMSID and recorded data. The PTMSID is the ID of the PTMS watermark management data. The field of PTMID includes item code number and stage code number which are arranged in turn, and the record data is the record of the historical press publishing data.

The WMS day management data is composed of WMSID and recording data. WMSID is an ID of WMS day management data. The WMSID comprises a hospital management day CMID, a project management day PMID, a project manager management day PEID, a design manager management day IMID and a technical day TMID, and recorded data are test and split data records; the field of the management worker day CMID of the hospital comprises a management department and a test time segment which are sequentially arranged, the field of the management worker day PMID of the project comprises a project code number and a test time segment which are sequentially arranged, the field of the management worker day PEID of the project comprises a project responsible person and a test time segment which are sequentially arranged, the field of the management worker day IMID of the design management worker day comprises a professional code number and a test time segment which are sequentially arranged, and the field of the technology worker day TMID comprises a task code number and a test time segment which are sequentially arranged.

Step 3: the field of PMSID, QMSID, DMSID, WMSID, PTMSID is respectively compared with the field of PROID, the PROID with the same field content and PMSID, QMSID, DMSID, WMSID or PTMID establish a mapping relation, and the corresponding data establish an association relation, so that 1-n fusion of the data is realized. The 1-n fusion of the data refers to interconnection and intercommunication of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data and WMS working day management data through PROID of project service, and meets data statistics and process management and control in PMS, QMS, DMS, PTMS and WMS management processes. Wherein "1" in 1-n fusion of data refers to PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data, or record data in WMS day management data, and "n" refers to a plurality of affiliated data in the project data integrated management platform that has been associated with a prod.

For an ID including a plurality of categories, such as a PMSID, each of which needs to be field-compared with a procd, for example, project data PJID, plan data PLID, and task data TKID need to be field-compared with a procd, respectively, three times in total.

In the following, a specific example is described how to establish a mapping relationship between a PROID and an ID and an association relationship between data.

One PROID and three kinds of leaning data existing in the project data integrated management platform are shown as follows:

BJ 19H-DSC-CNBJT-00203103_20502056-17096752-PDS-MSPDS-ADS-BDXT-BD-01_01-02_01-201009-data 1;

BJ 19H-DSC-CNBJT-00203103_20502056-17096752-PDS-MSPDS-ADS-BDXT-BD-01_01-02_01-201009-data 2;

BJ 19H-DSC-CNBJT-00203103_20502056-17096752-PDS-MSPDS-ADS-BDXT-BD-01_01-02_01-201009-data 3.

Field meaning of prod: in Beijing 19 # line one-term engineering data of 08 and 01 of 2015, the project code number is BJ19H, and the service type is design consultation type: DSC, item place is China-Beijing-Fengtai: CNBJT, the department of custody is Beijing division: 00203103 (unique numerical code of Beijing division), project department is Beijing 19 # line design project department: 20502056 (Beijing 19 line design project department unique numerical code), project is responsible for human Zhang three: 17096752 (staff's work number has uniqueness), PDS is the stage code, MSPDS is the planning code, ADS is the task code, BDXT is the system code, BD is the professional code, 01_01 is the task iteration code, 02_01 is the document iteration code, 201009 is the code of the work checking period, data 1, data 2 and data 3 are the registration data, and the content is other information code.

The PMSID of the PMS project management data contains project data PJID, plan data PLID, and task data TKID.

The project data PJID and project data record are: BJ 19H-DSC-CNBJT-00203103-20502056-17096752-data 4.

Wherein BJ19H is the first-period project code of Beijing 19 line, DSC is the project service type code, CNBJT is the project location code, 00203103 is the code of the ministry of charge, 20502056 is the code of the project department, and 17096752 is the work number of the person responsible for the project. The data 4 is a project data record.

The project data PJID is associated and searched for 1-N fusion mapping of the resource description information in the PROID to the data, so that the association relation between the data 1 to the data 3 and the data 4 is established, and the association between the project data integrated management platform and the project management data is realized, as shown in figure 2.

The plan data PLID and plan data record are: BJ 19H-PDS-MSPDS-data 5.

Wherein BJ19H is Beijing 19 line one-stage project code, PDS is stage code, MSPDS is plan code. The data 5 is a planning data record.

The plan data PLID is associated and searched for 1-N fusion mapping of the resource description information in the PROID to the data, so that the association relation between the data 1 to the data 3 and the data 5 is established, and the association of the project data integrated management platform and the project management data is realized, as shown in figure 3.

The task data TKID and task data record are: MSPDS-ADS-BD-01_01-data 6.

Wherein MSPDS is the planning code, ADS is the task code, BD is the professional code, and 01_01 is the task iteration code. The data 6 is a task data record.

The task data TKID is associated and searched for 1-N fusion mapping of the resource description information in the PROID to the data, so that the association relation between the data 1 to the data 3 and the data 6 is established, and the association of the project data integrated management platform and the project management data is realized, as shown in fig. 4.

The technical auditor TEID and technical auditor data of QMS qualification data are recorded as: BJ 19H-BDXT-data 7. Wherein BJ19H is Beijing 19 line one-stage project code, BDXD is system code.

The technology auditor TEID is associated and searches for 1-N fusion mapping of the resource description information in the PROID to the data, so that the association relation between the data 1 to the data 3 and the data 7 is established, and the association between the project data integrated management platform and the project management data is realized, as shown in figure 5.

Technical day TMID and record data of WMS day management data are: ADS-201009-data 8. ADS is a task code, and 201009 is a test time period code.

The technical industrial and daily TMID is related to searching for 1-N fusion mapping of resource description information in PROID to data, so that the association relation between data 1 to 3 and data 8 is established, and the association of the project data integrated management platform and industrial and daily management data is realized, as shown in fig. 6.

The DMSID of the DMS document management data and the record data are: ADS-02_01-data 9. ADS is a task code number, and 02_01 is a document iteration code number.

The DMSID is associated and searched for 1-N fusion mapping of the resource description information in the PROID to the data, so that the association relation between the data 1 to the data 3 and the data 9 is established, and the association of the project data integrated management platform and the document management data is realized, as shown in fig. 7.

The PTMS culture mark management data PTMSID and record data are: BJ 19H-PDS-data 10. Wherein BJ19H is the project code, PDS is the stage code.

The PTMID is associated and searched for 1-N fusion mapping of the resource description information in the PROID to the data, so that the association relation between the data 1 to the data 3 and the data 10 is established, and the association of the project data integrated management platform and the seal management data is realized, as shown in figure 8.

The present invention has been described in detail by way of examples, but the description is merely exemplary of the invention and should not be construed as limiting the scope of the invention. The scope of the invention is defined by the claims. In the technical scheme of the invention, or under the inspired by the technical scheme of the invention, similar technical schemes are designed to achieve the technical effects, or equivalent changes and improvements to the application scope are still included in the protection scope of the patent coverage of the invention.

Claims (8)

1. The data intercommunication construction method for the project data integrated management platform is characterized by comprising the following steps of:

step 1: establishing PROID for each project service managed by a project data integrated management platform, wherein each PROID is associated with a plurality of registration data, and the fields of the PROID comprise project codes, service types, project places, authorities, project parts, project responsible persons, stage codes, planning codes, task codes, system codes, professional codes, task iteration codes, document iteration codes and labor checking time periods which are sequentially arranged;

step 2: respectively acquiring IDs of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data and WMS day management data;

step 3: comparing the fields of the ID with the fields of the PROID, establishing a mapping relation between the ID with the same field content and the PROID, and establishing an association relation between corresponding data to realize 1-n fusion of the data;

the 1-n fusion of the data refers to interconnection and intercommunication of PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data and WMS working day management data through PROID of project service, and meets data statistics and process management and control in PMS, QMS, DMS, PTMS and WMS management processes.

2. The method of claim 1, wherein in step 3, "1" in 1-n fusion of data refers to PMS project management data, QMS qualification management data, DMS document management data, PTMS seal management data, or record data in WMS day management data, and "n" refers to a plurality of affiliated data in the project data integrated management platform that has been associated with a prod.

3. The data interworking construction method for a project data integrated management platform according to claim 1, wherein the PMS project management data consists of a PMSID and recording data; the PMSID includes project data PJID, plan data PLID, and task data TKID; the fields of the project data PJID include a project code number, a service type, a project location, a main department, a project department and a project principal which are sequentially arranged, the fields of the plan data PLID include a project code number, a stage code number and a plan code number which are sequentially arranged, and the fields of the task data TKID include a plan code number, a task code number, a professional code number and a task iteration code number which are sequentially arranged.

4. The data interworking construction method for project data integrated management platform according to claim 1, wherein the QMS qualification data consists of QMSID and record data; the QMISID comprises a master engineer MEID and a technology auditor TEID; the field of the master engineer MEID includes an item code, and the field of the technical auditor TEID includes an item code and a system code which are sequentially arranged.

5. The data interworking construction method for project data integrated management platform according to claim 1, wherein the DMS document management data is composed of DMSID and record data; the fields of the DMSID include a task code and a document iteration code, which are sequentially arranged.

6. The data interworking construction method for a project data integrated management platform according to claim 1, wherein the PTMS paperwork management data consists of a ptmsd and recording data; the field of the PTMSID includes an item code number and a phase code number arranged in sequence.

7. The data interworking construction method for project data integrated management platform according to claim 1, wherein the WMS day management data consists of WMSID and recording data; the WMSID comprises a hospital management day CMID, a project management day PMID, a project manager management day PEID, a design manager management day IMID and a technical day TMID; the field of the management worker day CMID of the hospital comprises a management department and a test time segment which are sequentially arranged, the field of the management worker day PMID of the project comprises a project code number and a test time segment which are sequentially arranged, the field of the management worker day PEID of the project comprises a project responsible person and a test time segment which are sequentially arranged, the field of the management worker day IMID of the design management worker day comprises a professional code number and a test time segment which are sequentially arranged, and the field of the technology worker day TMID comprises a task code number and a test time segment which are sequentially arranged.

8. The data interworking construction method for project data integrated management platform according to claim 1, wherein the service types are divided into: designing consultation class, integrated supervision, scientific research and bidding; the stage code is divided into: the method comprises a current stage, a pre-lapping stage, a preliminary setting stage, a device bid matching stage, a construction diagram design stage, a construction matching stage and a general stage; the task iteration code comprises a task version code and a task batch code which are sequentially arranged; the document iteration code comprises a document version code and a document batch code which are sequentially arranged.

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