CN116415915B - Engineering project planning management method and device - Google Patents

Abstract

The invention discloses a project planning management method and device, wherein the method comprises the following steps: acquiring engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; according to the service main line, carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to a service flow corresponding to the service main line, and determining a data change state and a data flow direction; and establishing a panoramic billboard according to the data change state and the data flow direction, and carrying out data display and data analysis. The engineering data to be called is determined through the business main line flow indicated by the engineering business module, and the convergence of the engineering data of each module is carried out according to the business main line, so that the data change state and the data flow direction are determined, the visualized data display and the data analysis are realized, and the accuracy and the efficiency of the engineering project planning management process are improved.

Description

Engineering project planning management method and device

Technical Field

The present invention relates to the field of data management technologies, and in particular, to a method and an apparatus for engineering project planning management.

Background

In the engineering management field, in the planning management process of multi-system combined engineering projects related to a business system, a financial system and a user system, complex data flows are involved, and all required data are generally distributed in a plurality of related systems in a scattered manner, so that the problems of low data cooperation degree, unsmooth data source and circulation exist, and the data management efficiency is low. Therefore, it is important to improve the engineering project planning management efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is that the engineering project planning management efficiency is low due to the low data cooperation degree, unsmooth data source and circulation in the engineering project planning management process.

In order to solve the technical problem, a first aspect of the present invention discloses an engineering project planning management method, which includes:

acquiring engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; the engineering business module is used for storing and managing corresponding engineering business data according to a preset business main line, the financial module is used for storing and managing engineering financial data corresponding to the business main line, and the user module is used for storing and managing engineering user data corresponding to the business main line;

according to the service main line, carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to a service flow corresponding to the service main line, and determining a data change state and a data flow direction;

and establishing a panoramic billboard according to the data change state and the data flow direction, and carrying out data display and data analysis.

As an alternative embodiment, the engineering business module includes at least one of the following: administrative planning module, purchasing planning module, business planning module, manpower resource planning module, engineering planning module; the business planning module includes: a bid plan drawing sub-module, a bid plan drawing sub-module and a cost plan drawing sub-module; the human resource planning module comprises a personnel configuration planning sub-module and a training planning sub-module; the engineering plan includes: project temporary construction planning sub-module, security planning sub-module, quality planning sub-module, technical planning sub-module, optimizing planning sub-module and data planning sub-module.

As an optional implementation manner, the method further includes, after establishing a panoramic sign according to the data change state and the data flow direction and performing data display and data analysis:

determining a database type and a database calling instruction corresponding to data export requirements according to the data export requirements;

determining a database attribute file according to the database type and the database calling instruction;

establishing a database connection driver according to the database attribute file, and connecting a database according to the database connection driver to acquire data to be called;

and acquiring a data file corresponding to the data to be called through a data stream.

As an optional implementation manner, the building a panoramic billboard according to the data change state and the data flow direction, and performing data display and data analysis includes:

determining a data display instruction and a data analysis instruction according to the data change state and the data flow direction;

determining a data processing flow according to the data display instruction and the data analysis instruction;

according to the data processing flow, carrying out data processing on the engineering data to obtain target data;

and according to the data processing flow and the target data, carrying out data display and data analysis through the panoramic billboard.

As an optional implementation manner, the acquiring engineering data of the engineering business module, the financial module and the user module includes:

determining the data importance level of the engineering data according to the timeliness and the attention degree of the engineering data;

and according to the data importance level, adopting a corresponding data acquisition strategy and a data storage mode to acquire and store data.

As an alternative embodiment, the data importance level includes high frequency data, medium frequency data and low frequency data; and acquiring and storing data by adopting a corresponding data acquisition strategy and a data storage mode according to the data importance level, wherein the method comprises the following steps:

if the data are high-frequency data, data acquisition is carried out according to a first period, and a remote dictionary service mode is adopted for data storage;

if the data is intermediate frequency data, data acquisition is carried out according to a second period, and data storage is carried out according to an elastic searching mode;

if the data are high-frequency data, data acquisition is carried out according to a third period, and data storage is carried out according to a relational database mode; wherein the second period is greater than the first period and the third period is greater than the second period.

In a second aspect, the present application provides an engineering project plan management apparatus, the apparatus comprising:

the data acquisition module is used for acquiring engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; the engineering business module is used for storing and managing corresponding engineering business data according to a preset business main line, the financial module is used for storing and managing engineering financial data corresponding to the business main line, and the user module is used for storing and managing engineering user data corresponding to the business main line;

the data aggregation module is used for carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to the service flow corresponding to the service main line and determining a data change state and a data flow direction;

and the data analysis module is used for establishing a panoramic billboard according to the data change state and the data flow direction and carrying out data display and data analysis.

As an optional implementation manner, the device further comprises a database calling module, which is used for establishing a panoramic billboard according to the data change state and the data flow direction by the data analysis module, and after data display and data analysis are performed,

determining a database type and a database calling instruction corresponding to data export requirements according to the data export requirements;

determining a database attribute file according to the database type and the database calling instruction;

establishing a database connection driver according to the database attribute file, and connecting a database according to the database connection driver to acquire data to be called;

and acquiring a data file corresponding to the data to be called through a data stream.

As an optional implementation manner, the data analysis module establishes a panoramic billboard according to the data change state and the data flow direction, and performs a specific manner of data display and data analysis, including:

determining a data display instruction and a data analysis instruction according to the data change state and the data flow direction;

determining a data processing flow according to the data display instruction and the data analysis instruction;

according to the data processing flow, carrying out data processing on the engineering data to obtain target data;

and according to the data processing flow and the target data, carrying out data display and data analysis through the panoramic billboard.

As an optional implementation manner, the specific manner of acquiring engineering data of the engineering business module, the financial module and the user module by the data acquisition module includes:

determining the data importance level of the engineering data according to the timeliness and the attention degree of the engineering data;

and according to the data importance level, adopting a corresponding data acquisition strategy and a data storage mode to acquire and store data.

As an alternative embodiment, the data importance level includes high frequency data, medium frequency data and low frequency data; the data acquisition module adopts a corresponding data acquisition strategy and a data storage mode to acquire and store data according to the data importance level, and comprises the following specific modes:

if the data are high-frequency data, data acquisition is carried out according to a first period, and a remote dictionary service mode is adopted for data storage;

if the data is intermediate frequency data, data acquisition is carried out according to a second period, and data storage is carried out according to an elastic searching mode;

if the data are high-frequency data, data acquisition is carried out according to a third period, and data storage is carried out according to a relational database mode; wherein the second period is greater than the first period and the third period is greater than the second period.

The third aspect of the present invention discloses another engineering project planning management device, which comprises:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to execute the engineering project planning management method disclosed in the first aspect of the present invention.

A fourth aspect of the present invention discloses a computer storage medium storing computer instructions for executing the engineering project planning management method disclosed in the first aspect of the present invention when the computer instructions are called.

Compared with the prior art, the embodiment of the invention has the following beneficial effects: the engineering data to be called is determined through the business main line flow indicated by the engineering business module, and the convergence of the engineering data of each module is carried out according to the business main line, so that the data change state and the data flow direction are determined, the visualized data display and the data analysis are realized, and the accuracy and the efficiency of the engineering project planning management process are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of an engineering project planning management method according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of an engineering project planning management method according to a second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an engineering project planning management apparatus according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of an engineering project planning management device according to a fourth embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In the engineering management field, in the planning management process of multi-system combined engineering projects related to a business system, a financial system and a user system, complex data flows are involved, and all required data are generally distributed in a plurality of related systems in a scattered manner, so that the problems of low data cooperation degree, unsmooth data source and circulation exist, and the data management efficiency is low. Therefore, it is important to improve the engineering project planning management efficiency.

The invention discloses a project planning management method and device, which are used for determining project data to be called through a service main line flow indicated by a project service module, converging the project data of each module according to the service main line, and determining a data change state and a data flow direction so as to realize visual data display and data analysis and improve the accuracy and efficiency of the project planning management process.

Example 1

Referring to fig. 1, fig. 1 is a flow chart of an engineering project planning management method according to an embodiment of the invention. As shown in fig. 1, the engineering project planning management method may include the following operations:

s101, acquiring engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; the engineering business module is used for storing and managing corresponding engineering business data according to a preset business main line, the financial module is used for storing and managing engineering financial data corresponding to the business main line, and the user module is used for storing and managing engineering user data corresponding to the business main line;

for different engineering services, data interaction of multiple systems is usually involved, for example, for cost management in engineering services, multiple sub-functions including cost dynamic management, first party pre-settlement management, team pre-settlement management, cost correction and the like can be included, and implementation of the sub-functions depends on engineering data of a plurality of engineering service modules, financial modules and user modules. The engineering service module is also used for indicating a service main line of the corresponding service, organizing the data of each data module according to the principle of the service main line, and realizing the data interaction among the modules. In addition, the actual engineering business includes, but is not limited to, various businesses such as human resource management, administration management, management, bid management, purchase management, and financial management, and the related data and specific business lines should not be limited.

As an example, the engineering business module includes at least one of: administrative planning module, purchasing planning module, business planning module, manpower resource planning module, engineering planning module; the business planning module includes: a bid plan drawing sub-module, a bid plan drawing sub-module and a cost plan drawing sub-module; the human resource planning module comprises a personnel configuration planning sub-module and a training planning sub-module; the engineering plan includes: project temporary construction planning sub-module, security planning sub-module, quality planning sub-module, technical planning sub-module, optimizing planning sub-module and data planning sub-module.

S102, according to the service main line, carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to a service flow corresponding to the service main line, and determining a data change state and a data flow direction;

the service main line can indicate the change rule and important intermediate state of the data, so that the engineering data of the engineering service module, the financial module and the user module can be subjected to data aggregation according to the service flow corresponding to the service main line through the service main line, and the interactive circulation of the data among the modules is realized.

And S103, building a panoramic billboard according to the data change state and the data flow direction, and carrying out data display and data analysis.

The panoramic billboard can be used for realizing visual analysis and display of data, and further improves the efficiency of engineering project planning management.

As an alternative embodiment, the S103 includes:

determining a data display instruction and a data analysis instruction according to the data change state and the data flow direction;

the data display instruction and the data analysis instruction can be initiated through an interactive button on the panorama billboard, can be a preset instruction program, can be automatically triggered when a certain condition is met, and are not limited.

Determining a data processing flow according to the data display instruction and the data analysis instruction;

according to the data processing flow, carrying out data processing on the engineering data to obtain target data;

the target data may include a data history, or may include data statistics of average, median, mode, etc.

And according to the data processing flow and the target data, carrying out data display and data analysis through the panoramic billboard.

And initiating a data display and data analysis instruction through the panoramic sign, determining a corresponding data processing flow according to the data display and data analysis instruction, and processing engineering data to obtain target data so as to analyze various characteristics of the engineering data, thereby improving the efficiency of engineering project planning management process.

After the data analysis and presentation are completed, the corresponding data can be exported through the data stream by calling the database in the background, and the following embodiments can be seen.

As an alternative embodiment, after S103, the method further includes:

determining a database type and a database calling instruction corresponding to data export requirements according to the data export requirements;

determining a database attribute file according to the database type and the database calling instruction;

establishing a database connection driver according to the database attribute file, and connecting a database according to the database connection driver to acquire data to be called;

and acquiring a data file corresponding to the data to be called through a data stream.

Corresponding database attribute files are determined according to data export requirements in the data management process, and the databases are connected to generate corresponding data files through data streams, so that efficiency of the engineering project planning management process is improved.

The embodiment provides an engineering project planning management method, which comprises the following steps: acquiring engineering data of an engineering business module, a financial module and a user module; according to the service main line, carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to a service flow corresponding to the service main line, and determining a data change state and a data flow direction; and establishing a panoramic billboard according to the data change state and the data flow direction, and carrying out data display and data analysis. The engineering data to be called is determined through the business main line flow indicated by the engineering business module, and the convergence of the engineering data of each module is carried out according to the business main line, so that the data change state and the data flow direction are determined, the visualized data display and the data analysis are realized, and the accuracy and the efficiency of the engineering project planning management process are improved.

Example two

Referring to fig. 2, fig. 2 is a flow chart of an engineering project planning management method according to a second embodiment of the invention. As shown in fig. 2, on the basis of any other embodiment, the method includes:

s201, determining the data importance level of the engineering data according to the timeliness and the attention of the engineering data;

s202, acquiring and storing data by adopting a corresponding data acquisition strategy and a data storage mode according to the data importance level;

as an alternative embodiment, the data importance level includes high frequency data, medium frequency data and low frequency data; the S202 includes:

if the data are high-frequency data, data acquisition is carried out according to a first period, and a remote dictionary service mode is adopted for data storage;

if the data is intermediate frequency data, data acquisition is carried out according to a second period, and data storage is carried out according to an elastic searching mode;

if the data are high-frequency data, data acquisition is carried out according to a third period, and data storage is carried out according to a relational database mode; wherein the second period is greater than the first period and the third period is greater than the second period.

For specific engineering data, hierarchical collection and management can be performed according to importance and use frequency. If the engineering data is high frequency data, data acquisition can be performed according to a first period, and a remote dictionary service (Remote Dictionary Server, redis for short) mode is adopted for data storage; if the data is intermediate frequency data, data acquisition is carried out according to a second period, and data storage is carried out according to an Elastic Search (ES) mode; if the data is high-frequency data, data acquisition is carried out according to a third period, data storage is carried out according to a relational database mode, and a common relational database is MySQL; wherein the second period is greater than the first period and the third period is greater than the second period. For example, one possible implementation would be to have the third cycle set to collect on a weekly basis, the second cycle set to collect on a daily basis, and the first cycle set to collect on an hourly basis. Specifically, the data collection and data storage modes can be realized in a grading manner from the aspects of data timeliness, user attention, data volume and the like. Defining high timeliness requirement and high attention as high frequency data, and adopting an hourly acquisition and redis storage mode; the data with medium timeliness or attention degree is called medium frequency data, and users of the data can accept a certain degree of delay though frequently looking up and interacting, and a daily acquisition and ES storage mode is adopted; data with low requirements on timeliness and attention are called low frequency data, are inactive data, are generally updated with low frequency, and are collected and stored according to the week number and MySQL.

For a specific storage mode and a read-write period, the storage mode and the read-write period can be determined according to the requirements of planning management of an actual engineering project, and the embodiment is only an optional implementation mode and should not be limited to the above.

By configuring corresponding acquisition and storage strategies through the level of engineering data, unnecessary system resource waste is reduced, and accuracy and efficiency of operation and management of permission data are improved.

S203, according to the service main line, carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to a service flow corresponding to the service main line, and determining a data change state and a data flow direction;

s204, according to the data change state and the data flow direction, a panoramic billboard is established, and data display and data analysis are carried out.

In the second embodiment of the present invention, for the descriptions of step 203 and step 204, please refer to the detailed descriptions of step 102 and step 103 in the first embodiment, and the second embodiment of the present invention is not repeated.

In an actual application scene, the problem of authority relation between personnel and data is generally involved, namely, the authority of data viewing or data processing of different users is limited, a gradient configuration authority management system is realized, and meanwhile, authority management can be carried out by means of combining automatic configuration and manual configuration. Under an application scene, the engineering project planning management system has two data authority control modes of automatic and manual configuration, wherein the two data authority control modes are combined according to user identities to generate a data authority control strategy, and the other data authority control modes are that a system manager can manually adjust corresponding authorities to ensure flexible control of the data authorities and meet multiple data scenes. The data authority can timely respond to the change of data and service main lines, the operation efficiency is improved, the double management and control is flexibly adapted to special requirements, and the operation of a system is better assisted.

According to the project planning management method for the license data, which is provided by the embodiment, the data importance level of the project data is determined through the timeliness and the attention of the project data, and the corresponding acquisition and storage strategies are configured, so that unnecessary system resource waste is reduced, and the accuracy and the efficiency of project data operation and management are improved.

Example III

An embodiment of the present invention further provides an engineering project planning management device to implement the foregoing method, and fig. 3 is a schematic structural diagram of an engineering project planning management device disclosed in the embodiment of the present invention. As shown in fig. 3, in any other embodiment, the apparatus includes:

a data acquisition module 31, configured to acquire engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; the engineering business module is used for storing and managing corresponding engineering business data according to a preset business main line, the financial module is used for storing and managing engineering financial data corresponding to the business main line, and the user module is used for storing and managing engineering user data corresponding to the business main line;

the data aggregation module 32 is configured to aggregate the engineering data of the engineering service module, the financial module and the user module according to the service flow corresponding to the service main line, and determine a data change state and a data flow direction;

and the data analysis module 33 is used for establishing a panoramic billboard according to the data change state and the data flow direction, and carrying out data display and data analysis.

The engineering data to be called is determined through the business main line flow indicated by the engineering business module, and the convergence of the engineering data of each module is carried out according to the business main line, so that the data change state and the data flow direction are determined, the visualized data display and the data analysis are realized, and the accuracy and the efficiency of the engineering project planning management process are improved.

As an optional implementation manner, the apparatus further includes a database calling module 34, configured to, after the data analysis module 33 establishes the panorama billboard according to the data change status and the data flow direction, perform data display and data analysis,

determining a database type and a database calling instruction corresponding to data export requirements according to the data export requirements;

determining a database attribute file according to the database type and the database calling instruction;

establishing a database connection driver according to the database attribute file, and connecting a database according to the database connection driver to acquire data to be called;

and acquiring a data file corresponding to the data to be called through a data stream.

Corresponding database attribute files are determined according to data export requirements in the data management process, and the databases are connected to generate corresponding data files through data streams, so that efficiency of the engineering project planning management process is improved.

As an optional implementation manner, the data analysis module 33 establishes a panoramic sign according to the data change state and the data flow direction, and performs a specific manner of data display and data analysis, including:

determining a data display instruction and a data analysis instruction according to the data change state and the data flow direction;

determining a data processing flow according to the data display instruction and the data analysis instruction;

according to the data processing flow, carrying out data processing on the engineering data to obtain target data;

and according to the data processing flow and the target data, carrying out data display and data analysis through the panoramic billboard.

And initiating a data display and data analysis instruction through the panoramic sign, determining a corresponding data processing flow according to the data display and data analysis instruction, and processing engineering data to obtain target data so as to analyze various characteristics of the engineering data, thereby improving the efficiency of engineering project planning management process.

As an alternative embodiment, the specific manner of acquiring engineering data of the engineering business module, the financial module and the user module by the data acquiring module 31 includes:

determining the data importance level of the engineering data according to the timeliness and the attention degree of the engineering data;

and according to the data importance level, adopting a corresponding data acquisition strategy and a data storage mode to acquire and store data.

The data importance level of the engineering data is determined through the timeliness and the attention of the engineering data, and corresponding acquisition and storage strategies are configured, so that unnecessary system resource waste is reduced, and the accuracy and the efficiency of engineering data operation and management are improved.

As an alternative embodiment, the data importance level includes high frequency data, medium frequency data and low frequency data; the data acquisition module 31 performs data acquisition and storage in a specific manner according to the data importance level by adopting a corresponding data acquisition strategy and a data storage manner, and includes:

if the data are high-frequency data, data acquisition is carried out according to a first period, and a remote dictionary service mode is adopted for data storage;

if the data is intermediate frequency data, data acquisition is carried out according to a second period, and data storage is carried out according to an elastic searching mode;

if the data are high-frequency data, data acquisition is carried out according to a third period, and data storage is carried out according to a relational database mode; wherein the second period is greater than the first period and the third period is greater than the second period.

By configuring corresponding acquisition and storage strategies through the level of engineering data, unnecessary system resource waste is reduced, and accuracy and efficiency of operation and management of permission data are improved.

Example IV

Referring to fig. 4, fig. 4 is a schematic structural diagram of an engineering project planning management apparatus according to a fourth embodiment of the present invention. As shown in fig. 4, the engineering project plan management apparatus may include:

a Processor 291, the apparatus further comprising a Memory 292 in which executable program code is stored; a communication interface (Communication Interface) 293 and bus 294 may also be included. The processor 291, the memory 292, and the communication interface 293 may communicate with each other via the bus 294. Communication interface 293 may be used for information transfer. The processor 291 is coupled to the memory 292, and the processor 291 may call logic instructions (executable program code) in the memory 292 to perform the engineering project plan management method according to any of the above embodiments.

Further, the logic instructions in memory 292 described above may be implemented in the form of software functional units and stored in a computer-readable storage medium when sold or used as a stand-alone product.

The memory 292 is a computer readable storage medium, and may be used to store a software program, a computer executable program, and program instructions/modules corresponding to the methods in the embodiments of the present application. The processor 291 executes functional applications and data processing by running software programs, instructions and modules stored in the memory 292, i.e., implements the methods of the method embodiments described above.

Memory 292 may include a storage program area that may store an operating system, at least one application program required for functionality, and a storage data area; the storage data area may store data created according to the use of the terminal device, etc. Further, memory 292 may include high-speed random access memory, and may also include non-volatile memory.

Embodiments of the present invention also provide a computer-readable storage medium having stored therein computer-executable instructions that, when invoked, are adapted to implement the method described in any of the embodiments.

Embodiments of the present invention also disclose a computer program product comprising a non-transitory computer readable storage medium storing a computer program, and the computer program is operable to cause a computer to perform the steps of the engineering project plan management method described in any of the embodiments.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the engineering project planning management method and device disclosed by the embodiment of the invention are disclosed in the preferred embodiment of the invention, and are only used for illustrating the technical scheme of the invention, but are not limited to the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (6)

1. An engineering project planning management method, characterized in that the method comprises:

acquiring engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; the engineering business module is used for storing and managing corresponding engineering business data according to a preset business main line, the financial module is used for storing and managing engineering financial data corresponding to the business main line, and the user module is used for storing and managing engineering user data corresponding to the business main line;

according to the service main line, carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to a service flow corresponding to the service main line, and determining a data change state and a data flow direction;

according to the data change state and the data flow direction, a panoramic signboard is established, and data display and data analysis are carried out;

according to the data change state and the data flow direction, a panoramic billboard is established for data display and data analysis, and the method comprises the following steps:

determining a data display instruction and a data analysis instruction according to the data change state and the data flow direction;

determining a data processing flow according to the data display instruction and the data analysis instruction;

according to the data processing flow, carrying out data processing on the engineering data to obtain target data;

according to the data processing flow and the target data, carrying out data display and data analysis through the panoramic signboard;

the engineering business module comprises at least one of the following: administrative planning module, purchasing planning module, business planning module, manpower resource planning module, engineering planning module; the business planning module includes: a bid plan drawing sub-module, a bid plan drawing sub-module and a cost plan drawing sub-module; the human resource planning module comprises a personnel configuration planning sub-module and a training planning sub-module; the engineering plan includes: project temporary construction planning sub-module, safety planning sub-module, quality planning sub-module, technical planning sub-module, optimizing planning sub-module and data planning sub-module;

according to the data change state and the data flow direction, a panoramic billboard is established, and after data display and data analysis are carried out, the method further comprises:

determining a database type and a database calling instruction corresponding to data export requirements according to the data export requirements;

determining a database attribute file according to the database type and the database calling instruction;

establishing a database connection driver according to the database attribute file, and connecting a database according to the database connection driver to acquire data to be called;

and acquiring a data file corresponding to the data to be called through a data stream.

2. The method of claim 1, wherein obtaining engineering data for the engineering business module, the financial module, and the user module comprises:

determining the data importance level of the engineering data according to the timeliness and the attention degree of the engineering data;

and according to the data importance level, adopting a corresponding data acquisition strategy and a data storage mode to acquire and store data.

3. The method of claim 2, wherein the data importance levels include high frequency data, medium frequency data, and low frequency data; and acquiring and storing data by adopting a corresponding data acquisition strategy and a data storage mode according to the data importance level, wherein the method comprises the following steps:

if the data are high-frequency data, data acquisition is carried out according to a first period, and a remote dictionary service mode is adopted for data storage;

if the data is intermediate frequency data, data acquisition is carried out according to a second period, and data storage is carried out according to an elastic searching mode;

if the data are high-frequency data, data acquisition is carried out according to a third period, and data storage is carried out according to a relational database mode; wherein the second period is greater than the first period and the third period is greater than the second period.

4. An engineering project planning management apparatus, characterized in that the apparatus comprises:

the data acquisition module is used for acquiring engineering data of each engineering project module; the engineering project module comprises engineering data of an engineering business module, a financial module and a user module; the engineering business module is used for storing and managing corresponding engineering business data according to a preset business main line, the financial module is used for storing and managing engineering financial data corresponding to the business main line, and the user module is used for storing and managing engineering user data corresponding to the business main line;

the data aggregation module is used for carrying out data aggregation on engineering data of the engineering service module, the financial module and the user module according to the service flow corresponding to the service main line and determining a data change state and a data flow direction;

the data analysis module is used for establishing a panoramic billboard according to the data change state and the data flow direction and carrying out data display and data analysis;

the data analysis module establishes a panoramic billboard according to the data change state and the data flow direction, and performs data display and data analysis in a specific mode, and the data analysis module comprises:

determining a data display instruction and a data analysis instruction according to the data change state and the data flow direction;

determining a data processing flow according to the data display instruction and the data analysis instruction;

according to the data processing flow, carrying out data processing on the engineering data to obtain target data;

according to the data processing flow and the target data, carrying out data display and data analysis through the panoramic signboard;

the engineering business module comprises at least one of the following: administrative planning module, purchasing planning module, business planning module, manpower resource planning module, engineering planning module; the business planning module includes: a bid plan drawing sub-module, a bid plan drawing sub-module and a cost plan drawing sub-module; the human resource planning module comprises a personnel configuration planning sub-module and a training planning sub-module; the engineering plan includes: project temporary construction planning sub-module, safety planning sub-module, quality planning sub-module, technical planning sub-module, optimizing planning sub-module and data planning sub-module;

the device is also for:

determining a database type and a database calling instruction corresponding to data export requirements according to the data export requirements;

determining a database attribute file according to the database type and the database calling instruction;

establishing a database connection driver according to the database attribute file, and connecting a database according to the database connection driver to acquire data to be called;

and acquiring a data file corresponding to the data to be called through a data stream.

5. The apparatus of claim 4, wherein the means for obtaining the engineering data of the engineering business module, the financial module, and the user module comprises:

determining the data importance level of the engineering data according to the timeliness and the attention degree of the engineering data;

and according to the data importance level, adopting a corresponding data acquisition strategy and a data storage mode to acquire and store data.

6. An engineering project planning management electronic device, the electronic device comprising:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the engineering project plan management method of any one of claims 1-3.