CN113191733A - Project multi-party collaborative management system and method based on Internet - Google Patents

Abstract

The invention discloses a project multi-party collaborative management system and a project multi-party collaborative management method based on the Internet, wherein the project multi-party collaborative management system comprises a decision application layer, a project management information integration layer, a block chain layer and a data support layer; the data supporting layer is connected with a plurality of terminal devices and used for constructing a project management model suitable for multi-level scheduling integrated distributed computation according to pre-collected terminal device information; the project management information integration layer is used for carrying out data management on the information of the project management model; the block chain layer is used for sequentially carrying out local and global verification on the project management model; performing distributed storage and redundant backup on the project management model passing the verification; the decision application layer is used for calling the project management model information of the block chain layer according to different requirements of the application. The scheme realizes multi-party collaboration, benefit balance, information lossless transmission and responsibility tracing in project management, and analyzes the support frame and the implementation idea of project management and block chain technology in a construction project from the perspective of a full life cycle.

Description

Project multi-party collaborative management system and method based on Internet

Technical Field

The invention relates to the technical field of computer communication, in particular to an internet-based project multi-party collaborative management system and an implementation method thereof.

Background

The project multi-party collaborative management of the Internet has the problems of high information dispersion and extremely serious waste. In the traditional project, each stage of planning, designing, constructing and operating is mutually independent, the interests of each project participant are relatively independent, the interest game is prominent in the management process, the information compatibility difficulty is high, great information loss and repeated work are caused, and the interference is caused to the construction and operation management. The project management model BIM is known as the next generation of intelligent computer aided design, and is not only a complete three-dimensional space and multi-dimensional information model, but also an advanced production management mode. The construction project management mode taking the project management model as the center can effectively enhance the accuracy and efficiency of information transmission in the project process, but a more fair method is difficult to provide for measuring and exciting the contribution and value problems of all parties in the whole project process, so that project application based on multi-party cooperation has the defects of great difficulty in propulsion and more responsibility disputes.

Disclosure of Invention

In order to solve the problems in the prior art, the project management and the block chain technology are combined, multi-party collaboration, benefit balance, information lossless transmission and responsibility tracing are realized in the project, and a support frame and an implementation idea of the project management and the block chain technology in the construction project are analyzed from the perspective of a full life cycle.

The purpose of the invention is realized by adopting the following technical scheme:

an internet-based project multiparty collaborative management system, the system comprising: the system comprises a decision application layer, a project management information integration layer, a block chain layer and a data support layer;

the data supporting layer is connected with a plurality of terminal devices and used for constructing a project management model suitable for multi-level scheduling integrated distributed computation according to terminal device information acquired in advance;

the project management information integration layer is used for carrying out data management on the information of the project management model;

the block chain layer is used for sequentially carrying out local and global verification on the project management model; performing distributed storage and redundant backup on the project management model passing the verification;

and the decision application layer is used for calling the project management model information of the block chain layer according to different requirements of the application.

Preferably, the data support layer includes:

the acquisition module is used for receiving request information of a terminal equipment object;

the distribution module is used for distributing the whole network unique identity ID code and the authority level to the terminal equipment object;

the generating module is used for automatically generating a standard name of the equipment according to the unified naming standard of the whole network equipment;

and the construction module is used for distributing the unique connection nodes of the whole network for the terminal equipment objects, determining the project requirements and contents of each terminal equipment object corresponding to the unique connection nodes of the whole network, and establishing a project management model suitable for the integrated distributed computation of the multilevel scheduling management.

Preferably, the project management information integration layer includes: the system comprises an integrated module, a controller, a power communication network and a data center;

the integrated module is used for integrating the distributed network topology analysis function and the distributed state estimation function into a data center;

the controller is used for carrying out preliminary arrangement on the information, confirming the workload of the terminal equipment object and generating a construction project information form; executing the information returned from the data center;

the data center is used for sending receipt information based on the construction project information form to the controller;

the controller is connected with the data supporting layer through a power communication network, receives the acquired information and uploads the received acquired information to the data center; and the data center performs information interaction with the block chain layer through an OpenFlow protocol.

Further, the construction project information form carries communications between the controller and a data center;

the construction project information form comprises a construction project information form uploaded by the controller and an information form returned by the data center;

the controller uploads a construction project information form which comprises local geographical position information, local topographic and geomorphic information and project related personnel information; the data center returns an information form which comprises a construction requirement list, a building calling instruction and progress detail inquiry and execution in the process of building a project;

wherein the project related personnel comprise owners, designers, engineers, contractors and third party evaluators.

Preferably, the block chain layer includes a checking module, configured to check the project management model; checking the logic of the connection relation between the devices according to the device connection nodes formed by the building module, and judging whether the belonged identity ID and the authority level of the terminal devices with the same connection node are the same; if the two are the same, the verification is passed, and if the two are not the same, the verification fails.

Further, the block chain layer is composed of a number of data blocks; the data blocks are connected with each other to perform data backup; each block consists of a block head and a block body; when a plurality of data blocks are communicated with the data center, the block head is used for recording the address linked to the last block and the integrity information of the block chain data, and the block body is used for recording the relevant information in the process of verifying the distributed integrated power grid model.

Further, the decision application layer comprises:

the access module is used for sending an item management model access request to the block chain layer; the method comprises the following steps of (1) calling a model range, a model version and an access returning mode;

and the return module is used for returning the project management model with the corresponding range and version called from the data block of the block chain layer to the distributed real-time database or the project management model interactive file CIM/E according to the access request parameter.

An internet-based project multi-party collaborative management method, the method comprising: according to terminal equipment information acquired in advance, a project management model suitable for multi-level scheduling integrated distributed computation is constructed;

performing data management on the information of the project management model;

carrying out local and global verification on the project management model in sequence, and carrying out distributed storage and redundant backup on the project management model passing the verification;

and the decision application layer calls the project management model information after distributed storage and redundant backup according to different requirements of the application.

Preferably, the constructing a project management model suitable for multi-level scheduling integrated distributed computation according to the pre-collected terminal device information includes:

receiving request information of a terminal equipment object;

distributing a whole-network unique identity ID code and an authority level to a terminal equipment object;

automatically generating a standard name of the equipment according to the unified naming standard of the equipment in the whole network;

and allocating a whole-network unique connection node for the terminal equipment object, determining the project demand and content of each terminal equipment object corresponding to the whole-network unique connection node, and establishing a project management model suitable for multi-level scheduling management integrated distributed computation.

Preferably, the data management of the information of the project management model includes:

integrating a distributed network topology analysis function and a distributed state estimation function into a data center;

preliminarily arranging the information, confirming the workload of the terminal equipment object, and generating a construction project information form; executing the information returned from the data center;

receiving receipt information which is sent by a data center and based on a construction project information form;

the data acquisition device is connected with the data support layer through a power communication network, receives the acquisition information and uploads the received acquisition information to the data center; and the data center performs information interaction with the block chain layer through an OpenFlow protocol.

The invention has the beneficial effects that:

the invention discloses a project multi-party collaborative management system and method based on the Internet, which realize the integration and tracing of multi-user, multi-stage and multi-target data in project management through the architectures and functions of a decision application layer, a project management information integration layer, a block chain layer and a data support layer. In the process of building a project, related stakeholders all have different interest requirements, so that different information streams are generated. By recording the requirements of all parties in the project management model by using the block chain, the tracking and confirmation of the requirement information of the whole process of the project can be realized. Project multi-party cooperative management is a process of a full life cycle, each life stage can generate a large amount of data from planning, evaluation to operation and termination, and traceability and accountability of the project full life cycle can be realized through a block chain. The project is a multi-target aggregate, and not only relates to cost, progress and quality, but also relates to multiple aspects of health, safety, environmental protection and the like. The achievement of each target requires a series of dynamic support of project process, and the block chain and project management can dynamically track and evaluate the achievement process and the achievement degree of multiple targets of the project.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of a multiparty collaborative management system for an internet-based project according to an embodiment of the present invention;

fig. 2 is a flowchart of a multiparty collaborative management method for an internet-based project according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

Example 1: as shown in fig. 1, this embodiment 1 provides an internet-based project multiparty collaborative management system, which includes: the system comprises a decision application layer, a project management information integration layer, a block chain layer and a data support layer;

the project multi-party collaborative management system based on the Internet is a core platform for producing and processing construction project business data, provides service for clients and users of various platforms of different participants and different stages, and also provides a data source for an analysis platform. The project multi-party collaborative management system based on the Internet is of a layered structure and comprises a data support layer, a project management information integration layer, a block chain layer and a decision application layer 4 from bottom to top.

The data supporting layer is connected with a plurality of terminal devices and used for constructing a project management model suitable for multi-level scheduling integrated distributed computation according to pre-collected terminal device information;

the project management information integration layer is used for carrying out data management on the information of the project management model;

the project management information integration layer adopts 3 functions of database, file storage and cache. The file stores model data and unstructured data. The cache caches the request from the client and the result thereof in a file system or a memory database, and the result is directly returned when the request is next time, so that the efficiency and the stability of the service are improved.

The block chain layer is used for sequentially carrying out local and global verification on the project management model; performing distributed storage and redundant backup on the project management model passing the verification;

and the decision application layer is used for calling the project management model information of the block chain layer according to different requirements of the application.

The data support layer includes:

the acquisition module is used for receiving request information of a terminal equipment object;

the distribution module is used for distributing the whole network unique identity ID code and the authority level to the terminal equipment object;

the generating module is used for automatically generating a standard name of the equipment according to the unified naming standard of the whole network equipment;

and the construction module is used for distributing the unique connection nodes of the whole network for the terminal equipment objects, determining the project requirements and contents of each terminal equipment object corresponding to the unique connection nodes of the whole network, and establishing a project management model suitable for the integrated distributed computation of the multilevel scheduling management.

The terminal equipment object is distributed with the only connection node of the whole network for processing the high concurrency (a large number of users access simultaneously), and the load accessed by the users is uniformly distributed on each server, so that all the users can obtain the required service, and the stability of the service is ensured. By caching frequent requests and related resources of the client at a plurality of terminals, the efficiency of acquiring engineering data is greatly improved.

The project management information integration layer comprises: the system comprises an integrated module, a controller, a power communication network and a data center;

the integrated module is used for integrating the distributed network topology analysis function and the distributed state estimation function into a data center;

the controller is used for carrying out preliminary arrangement on the information, confirming the workload of the terminal equipment object and generating a construction project information form; executing the information returned from the data center;

the data center is used for sending receipt information based on the construction project information form to the controller;

the controller is connected with the data supporting layer through a power communication network, receives the acquired information and uploads the received acquired information to the data center; and the data center performs information interaction with the block chain layer through an OpenFlow protocol.

The construction project information form bears communication between the controller and the data center;

the construction project information form comprises a construction project information form uploaded by the controller and an information form returned by the data center;

the controller uploads a construction project information form which comprises local geographical position information, local topographic and geomorphic information and project related personnel information; the data center returns an information form which comprises a construction requirement list, a building calling instruction and progress detail inquiry and execution in the process of building a project;

wherein the project related personnel comprise owners, designers, engineers, contractors and third party evaluators.

The block chain layer comprises a checking module used for checking the project management model; checking the logic of the connection relation between the devices according to the device connection nodes formed by the building module, and judging whether the belonged identity ID and the authority level of the terminal devices with the same connection node are the same; if the two are the same, the verification is passed, and if the two are not the same, the verification fails.

The block chain layer is composed of a plurality of data blocks; the data blocks are connected with each other to perform data backup; each block consists of a block head and a block body; when a plurality of data blocks are communicated with the data center, the block head is used for recording the address linked to the last block and the integrity information of the block chain data, and the block body is used for recording the relevant information in the process of verifying the distributed integrated power grid model.

The decision application layer comprises:

the access module is used for sending an item management model access request to the block chain layer; the method comprises the following steps of (1) calling a model range, a model version and an access returning mode;

and the return module is used for returning the project management model with the corresponding range and version called from the data block of the block chain layer to the distributed real-time database or the project management model interactive file CIM/E according to the access request parameter.

On the basis, the decision application layer provides a search engine, and supports ultra-fast attribute retrieval and dynamic association of the business model.

Based on the same technical concept, embodiment 2 of the present invention further provides an internet-based project multiparty collaborative management method, as shown in fig. 2, the method includes:

s1, according to the terminal device information collected in advance, a project management model suitable for multi-level scheduling integrated distributed computation is constructed;

s2, data management is carried out on the information of the project management model;

s3, carrying out local and global check on the project management model in sequence, and carrying out distributed storage and redundant backup on the project management model passing the check;

and S4, the decision application layer calls the project management model information after distributed storage and redundant backup according to different requirements of the application.

In step S1, constructing a project management model suitable for multi-level scheduling integrated distributed computation according to pre-collected terminal device information includes:

receiving request information of a terminal equipment object;

distributing a whole-network unique identity ID code and an authority level to a terminal equipment object;

automatically generating a standard name of the equipment according to the unified naming standard of the equipment in the whole network;

and allocating a whole-network unique connection node for the terminal equipment object, determining the project demand and content of each terminal equipment object corresponding to the whole-network unique connection node, and establishing a project management model suitable for multi-level scheduling management integrated distributed computation.

Step S2, performing data management on the information of the project management model includes:

integrating a distributed network topology analysis function and a distributed state estimation function into a data center;

preliminarily arranging the information, confirming the workload of the terminal equipment object, and generating a construction project information form; executing the information returned from the data center;

receiving receipt information which is sent by a data center and based on a construction project information form;

the data acquisition device is connected with the data support layer through a power communication network, receives the acquisition information and uploads the received acquisition information to the data center; and the data center performs information interaction with the block chain layer through an OpenFlow protocol.

Step S3, performing local and global check on the project management model in sequence, and performing distributed storage and redundant backup on the project management model passing the check, includes:

when a plurality of data blocks are communicated with a data center, the block head of a data chain is used for recording the address linked to the last block and the integrity information of the data of the block chain, and the block body is used for recording the relevant information in the process of verifying the distributed integrated power grid model;

verifying the project management model; according to the equipment connection nodes, checking the logic of the connection relation between the equipment, and judging whether the belonged identity ID and the authority level of the terminal equipment with the same connection node are the same; if the two are the same, the verification is passed, and if the two are not the same, the verification fails.

In step S4, according to different requirements of the application, invoking the project management model information after distributed storage and redundant backup includes:

sending a project management model access request; the method comprises the following steps of (1) calling a model range, a model version and an access returning mode;

and returning the called project management model with the corresponding range and version to the distributed real-time database or the project management model interactive file CIM/E according to the access request parameters.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application 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, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. 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.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application and not for limiting the protection scope thereof, and although the present application is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: numerous variations, modifications, and equivalents will occur to those skilled in the art upon reading the present application and are within the scope of the claims appended hereto.

Claims (10)

1. An internet-based project multiparty collaborative management system, the system comprising: the system comprises a decision application layer, a project management information integration layer, a block chain layer and a data support layer;

the data supporting layer is connected with a plurality of terminal devices and used for constructing a project management model suitable for multi-level scheduling integrated distributed computation according to terminal device information acquired in advance;

the project management information integration layer is used for carrying out data management on the information of the project management model;

the block chain layer is used for sequentially carrying out local and global verification on the project management model; performing distributed storage and redundant backup on the project management model passing the verification;

and the decision application layer is used for calling the project management model information of the block chain layer according to different requirements of the application.

2. The multi-party collaborative management of internet-based projects according to claim 1, wherein the data support layer comprises:

the acquisition module is used for receiving request information of a terminal equipment object;

the distribution module is used for distributing the whole network unique identity ID code and the authority level to the terminal equipment object;

the generating module is used for automatically generating a standard name of the equipment according to the unified naming standard of the whole network equipment;

and the construction module is used for distributing the unique connection nodes of the whole network for the terminal equipment objects, determining the project requirements and contents of each terminal equipment object corresponding to the unique connection nodes of the whole network, and establishing a project management model suitable for the integrated distributed computation of the multilevel scheduling management.

3. The multiparty collaborative management system for internet-based projects according to claim 1, wherein the project management information integration layer comprises: the system comprises an integrated module, a controller, a power communication network and a data center;

the integrated module is used for integrating the distributed network topology analysis function and the distributed state estimation function into a data center;

the controller is used for carrying out preliminary arrangement on the information, confirming the workload of the terminal equipment object and generating a construction project information form; executing the information returned from the data center;

the data center is used for sending receipt information based on the construction project information form to the controller;

the controller is connected with the data supporting layer through a power communication network, receives the acquired information and uploads the received acquired information to the data center; and the data center performs information interaction with the block chain layer through an OpenFlow protocol.

4. The multiparty collaborative management of internet-based projects according to claim 3, wherein the construction project information form carries communications between the controller and a data center;

the construction project information form comprises a construction project information form uploaded by the controller and an information form returned by the data center;

the controller uploads a construction project information form which comprises local geographical position information, local topographic and geomorphic information and project related personnel information; the data center returns an information form which comprises a construction requirement list, a building calling instruction and progress detail inquiry and execution in the process of building a project;

wherein the project related personnel comprise owners, designers, engineers, contractors and third party evaluators.

5. The multi-party collaborative management system for internet-based projects according to claim 1, wherein the blockchain layer comprises a verification module for verifying a project management model; checking the logic of the connection relation between the devices according to the device connection nodes formed by the building module, and judging whether the belonged identity ID and the authority level of the terminal devices with the same connection node are the same; if the two are the same, the verification is passed, and if the two are not the same, the verification fails.

6. The multi-party collaborative management system for internet-based projects according to claim 5, wherein the block chain layer is composed of a number of data blocks; the data blocks are connected with each other to perform data backup; each block consists of a block head and a block body; when a plurality of data blocks are communicated with the data center, the block head is used for recording the address linked to the last block and the integrity information of the block chain data, and the block body is used for recording the relevant information in the process of verifying the distributed integrated power grid model.

7. The multi-party collaborative management of internet-based projects according to claim 4, wherein the decision application layer comprises:

the access module is used for sending an item management model access request to the block chain layer; the method comprises the following steps of (1) calling a model range, a model version and an access returning mode;

and the return module is used for returning the project management model with the corresponding range and version called from the data block of the block chain layer to the distributed real-time database or the project management model interactive file CIM/E according to the access request parameter.

8. An internet-based project multi-party collaborative management method is characterized by comprising the following steps:

according to terminal equipment information acquired in advance, a project management model suitable for multi-level scheduling integrated distributed computation is constructed;

performing data management on the information of the project management model;

carrying out local and global verification on the project management model in sequence, and carrying out distributed storage and redundant backup on the project management model passing the verification;

and the decision application layer calls the project management model information after distributed storage and redundant backup according to different requirements of the application.

9. The internet-based project multiparty collaborative management method according to claim 8, wherein the constructing a project management model suitable for multi-level scheduling integrated distributed computing according to the pre-collected terminal device information comprises:

receiving request information of a terminal equipment object;

distributing a whole-network unique identity ID code and an authority level to a terminal equipment object;

automatically generating a standard name of the equipment according to the unified naming standard of the equipment in the whole network;

and allocating a whole-network unique connection node for the terminal equipment object, determining the project demand and content of each terminal equipment object corresponding to the whole-network unique connection node, and establishing a project management model suitable for multi-level scheduling management integrated distributed computation.

10. The multiparty collaborative management of internet-based projects according to claim 8, wherein the data management of the information of the project management model includes:

integrating a distributed network topology analysis function and a distributed state estimation function into a data center;

preliminarily arranging the information, confirming the workload of the terminal equipment object, and generating a construction project information form; executing the information returned from the data center;

receiving receipt information which is sent by a data center and based on a construction project information form;

the data acquisition device is connected with the data support layer through a power communication network, receives the acquisition information and uploads the received acquisition information to the data center; and the data center performs information interaction with the block chain layer through an OpenFlow protocol.

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