An information interaction system for electric power construction industry

By enabling real-time information sharing and resource integration among enterprises through the power construction industry information exchange system, the problem of small enterprises being unable to undertake large-scale construction projects has been solved, and the enterprises' R&D capabilities and resource utilization efficiency have been improved.

CN114723389BActive Publication Date: 2026-06-19ZHONGSHAN POWER SUPPLY BUREAU OF GUANGDONG POWER GRID

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ZHONGSHAN POWER SUPPLY BUREAU OF GUANGDONG POWER GRID
Filing Date
2022-03-04
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In the power construction industry, the lack of timely information exchange among enterprises, as well as the absence of professional talent and resource integration platforms, prevents small enterprises from undertaking large-scale construction projects and hinders timely research and development.

Method used

An information interaction system for the power construction industry was designed, including a communication setup module, an enterprise information acquisition module, a bidding project acquisition module, a bidding project analysis module, an enterprise data collection module, a project quantity sending module, a claim information receiving module, and an allocation scheme output module. This system enables real-time dynamic information sharing and resource integration among enterprises, and analyzes and allocates construction tasks through system analysis.

Benefits of technology

It has improved the ability of small power companies to undertake large-scale construction projects, reduced the pressure on large companies, and promoted resource integration and R&D capabilities among companies.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This invention relates to the computer field and provides an information interaction system for the power construction industry. The system includes a module for acquiring enterprise information to obtain real-time dynamic information from various enterprises, storing information on a large number of capable power companies for future use; a module for acquiring bidding projects to obtain power construction bidding projects published on the cloud network, and real-time access to various power construction bidding information released in the market; and modules for bidding project analysis, enterprise collection, project quantity sending, claim information receiving, and allocation scheme output. This allows the system to send the acquired bidding information to various smaller power companies, pooling resources and enabling them to jointly undertake larger projects. This alleviates the pressure on large, powerful enterprises and promotes the development of the power industry, helping to cultivate more capable power companies.
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Description

Technical Field

[0001] This invention belongs to the field of electric power, and in particular relates to an information interaction system for the electric power construction industry. Background Technology

[0002] As the world enters the era of the internet and digital economy, the development of innovative technologies such as "big data, cloud computing, the Internet of Things, mobile internet, artificial intelligence, blockchain, and 5G" is driving technological innovation and information transformation in the power industry. In addition to continuing the construction of a "strong and smart grid," the power industry will also leverage information and intelligent technologies such as big data, cloud computing, the Internet of Things, mobile internet, artificial intelligence, blockchain, and edge computing to gather resources from all aspects and build a "power Internet of Things." This will provide sufficient and effective information and data support for all aspects of planning and construction, production and operation, business management, comprehensive services, the development of new businesses and models, and the construction of the enterprise ecosystem.

[0003] The competitive landscape within the industry is characterized by specialization and marketization. Firstly, the construction of smart grids is further driving the development of power information technology towards a deeper application stage, placing higher demands on the technical capabilities of information technology vendors and their precise understanding of user needs. Specialized vendors focusing on specific industry areas will have a more prominent advantage. Secondly, with the deepening of power system reform, the participants in the power industry's information technology construction will become more diverse, leading to more market-driven competition within the industry.

[0004] The following are some of the current problems in the power construction industry: 1. The power information technology industry is a multidisciplinary and technology-intensive industry, requiring high levels of professional and technical expertise. Currently, there is a shortage of highly qualified, multi-skilled professionals proficient in related fields, which negatively impacts the industry's development. 2. Although power information technology vendors have achieved certain results after years of development, most companies outside of the power system's information technology construction units remain small in scale, lacking in management capabilities, technological R&D capabilities, and funding, making it difficult to maintain large-scale R&D and engineering implementation. 3. The main clients of power information technology vendors are power generation and supply companies. The scale and progress of downstream power companies' information technology investments have a significant impact on their operations. These companies' investments are highly planned and may be affected by policy adjustments or administrative factors, making it difficult to obtain timely information on changes in their operations. Furthermore, the lack of timely information exchange among companies within the power industry, the absence of a good platform for talent exchange, the inability to effectively integrate resources for small companies, and the lack of timely updates to internal dynamics lead to delayed R&D progress and the inability of small power companies to undertake large-scale construction projects. Summary of the Invention

[0005] This invention provides an information exchange system for the power construction industry, aiming to solve the problems of untimely research and development by various enterprises and the inability of small power companies to undertake large-scale construction projects.

[0006] The present invention is implemented as follows: a power construction industry information interaction system specifically includes:

[0007] The communication setup module is used to establish network interconnection with enterprise terminals and to establish communication channels between various enterprise terminals;

[0008] The enterprise information acquisition module is used to acquire real-time dynamic information of each enterprise; the real-time dynamic information includes publicly disclosed construction projects, scientific research projects, main business scope, talent distribution and research fields.

[0009] The bidding project acquisition module is used to acquire power construction bidding projects published on the cloud network;

[0010] The bidding project analysis module is used to analyze the workload and related fields of power construction bidding projects.

[0011] The enterprise collection module is used to collect enterprises whose main business scope and research areas overlap with the areas involved in the project, based on the fields involved in the project.

[0012] The project quantity sending module is used to send the project quantity of each field involved in the project to the collected enterprise terminals;

[0013] The claim information receiving module is used to receive claim information from the enterprise.

[0014] The allocation scheme output module is used to integrate the claim information and output the construction allocation scheme.

[0015] As an improvement to the present invention, the communication setup module specifically includes:

[0016] A single-point communication channel setup unit is used to establish an independent communication channel with the enterprise.

[0017] The multi-dimensional communication channel building unit is used to establish interconnected communication channels between multiple enterprise terminals; any two enterprise terminals can connect to each other through the system, and the resulting communication information is saved and backed up within the system.

[0018] As another improvement of the present invention: the enterprise information acquisition module specifically includes:

[0019] The enterprise information receiving unit is used to receive scientific research projects and research fields uploaded by enterprises.

[0020] The enterprise information acquisition unit is used to obtain the enterprise's main business scope, publicly disclosed construction projects, and main business scope.

[0021] The dynamic information tracking unit is used to continuously track and acquire dynamic information related to the enterprise on the cloud network and update it to the database within the system in a timely manner.

[0022] As another improvement to the present invention: the bidding project acquisition module specifically includes:

[0023] The power webpage retrieval unit is used to continuously retrieve power-related webpage information from the cloud network;

[0024] The power project picking unit is used to pick up power construction bidding project announcements published on web pages from web page information;

[0025] The webpage storage unit is used to save the webpage information's corresponding homepage address and the corresponding power construction bidding project announcement name to the database. In subsequent searches, the webpage address stored in the database is retrieved periodically.

[0026] As a further aspect of the present invention: the bidding project analysis module specifically includes:

[0027] The project content pickup unit is used to pick up the specific details of the engineering project in the power construction bidding project announcement; the specific details of the engineering project include the construction area and equipment system.

[0028] The quantity conversion unit is used to convert construction area and equipment system into corresponding construction quantities;

[0029] The required resource analysis unit is used to analyze the required resources corresponding to the construction project quantity. The required resources include manpower, material resources, and construction time.

[0030] The minimum enterprise strength analysis unit is used to analyze the minimum strength of enterprises that can undertake the corresponding construction project volume based on the required resources. The reference standards for the minimum strength value include the number of employees, enterprise size, main business scope, and financial status of the enterprise.

[0031] As a further embodiment of the present invention: the enterprise data collection module specifically includes:

[0032] The enterprise collection unit is used to search the database for enterprises whose main business scope covers the project's field, based on each field involved in the project.

[0033] The overlap statistics unit is used to count the number of fields involved in the projects covered by each enterprise and obtain the overlap value;

[0034] The candidate list output unit is used to sort the eligible companies from highest to lowest according to their overlap value, and obtain a candidate company list.

[0035] As an optimized solution of the present invention: the engineering quantity sending module is used to send the engineering quantity of each field involved in the project to the collected enterprise end, specifically including:

[0036] Based on the list of candidate companies, power construction bidding projects are sent to the companies in descending order of priority, and the quantities of work for each bidding project are sent to the companies. The quantities of work received by the companies correspond to the quantities of work in the areas covered by the projects within their main business scope.

[0037] As another embodiment of the present invention: the claim information receiving module specifically includes:

[0038] The claim information receiving unit is used to receive the percentage of the claimed project volume fed back by the enterprise, and at the same time receive the supporting materials uploaded by the enterprise that match the percentage of the claimed project volume; the supporting materials include the number of employees, personnel distribution, enterprise size, enterprise working capital, and other proof of strength.

[0039] The supporting documentation verification unit is used to verify supporting documentation.

[0040] The verification result sending unit is used to send the verification result to the enterprise. The verification result includes: if the verification is qualified, it means that the enterprise is qualified to claim the project volume; if the verification is unqualified, it specifically points out the supporting materials that need to be supplemented or the unqualified items in the supporting materials.

[0041] Furthermore, the allocation scheme output module specifically includes:

[0042] The qualified enterprise retrieval unit is used to retrieve qualified enterprises that have been verified to undertake the engineering work in the specific field involved in the project.

[0043] The preliminary selection list sorting unit is used to sort companies from highest to lowest based on the percentage of work volume each company has claimed, thus obtaining a preliminary selection list of companies.

[0044] The key enterprise identification unit is used to analyze the percentage of working capital and R&D personnel of each enterprise in the initial enterprise list, and to identify enterprises whose percentage of working capital and R&D personnel exceeds the preset percentage.

[0045] The allocation scheme generation unit is used to select the marked enterprises one by one according to the order of the initial enterprise list, until the sum of the percentage of the claimed work volume of all selected enterprises exceeds 100%, and then output the selected enterprises to form a construction allocation scheme.

[0046] Furthermore, the system also includes a project development module, which specifically includes:

[0047] The project R&D initiation unit is used to receive joint R&D project topics initiated by initiating companies.

[0048] The project distribution unit is used to distribute collaborative R&D project topics to multiple other enterprises that are aligned with the project's field.

[0049] The feedback information receiving unit is used to receive intention information from multiple other enterprises; the intention information includes whether they agree to joint research and development and questions raised about the project;

[0050] The information exchange unit is used to send information of intent to the initiating company, then receive the integrated question and response document and the specific planning content of the joint R&D project from the initiating company; and distribute the question and response document and the specific planning content to other companies interested in the joint R&D project.

[0051] The beneficial effects of this invention are as follows: The system includes a communication setup module, an enterprise information acquisition module, a bidding project acquisition module, a bidding project analysis module, an enterprise collection module, a workload sending module, a claim information receiving module, and an allocation scheme output module. Specifically, the enterprise information acquisition module acquires real-time dynamic information from various enterprises, storing information on a large number of reputable power companies for immediate use; the bidding project acquisition module acquires power construction bidding projects published on the cloud network, and obtains various power construction bidding information released in the market in real time; the bidding project analysis module analyzes the workload and related fields of power construction bidding projects; the enterprise collection module collects enterprises whose main business scope and expertise overlap with the project's related fields; the workload sending module sends the workload for each field to the collected enterprises; the claim information receiving module receives claim information from the enterprises; and the allocation scheme output module integrates the claim information and outputs a construction allocation scheme. The acquired bidding information is sent to various small power companies, bringing together multiple small power companies to integrate resources and enable them to jointly undertake a large project. This helps alleviate the pressure on large, powerful companies, promotes the development of the power industry, helps cultivate more capable power companies, and enhances the R&D capabilities of each company. Attached Figure Description

[0052] Figure 1 This is a schematic diagram of the internal structure of an information interaction system for the power construction industry.

[0053] Figure 2 This is a schematic diagram of the structure of a bidding project analysis module in an information interaction system for the power construction industry.

[0054] Figure 3This is a schematic diagram of the structure of a claim information receiving module in an information interaction system for the power construction industry.

[0055] Figure 4 This is a schematic diagram of the distribution scheme output module structure in an information interaction system for the power construction industry.

[0056] Figure 5 This is a schematic diagram of the project development module structure in an information interaction system for the power construction industry. Detailed Implementation

[0057] To make the objectives, technical solutions, and advantages of this invention clearer, the invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the invention.

[0058] This invention establishes a communication module, an enterprise information acquisition module, a bidding project acquisition module, a bidding project analysis module, an enterprise collection module, a workload sending module, a claim information receiving module, and an allocation scheme output module within the system. The enterprise information acquisition module obtains real-time dynamic information from various enterprises, storing information on a large number of reputable power companies for immediate use. The bidding project acquisition module acquires power construction bidding projects published on the cloud network and obtains various power construction bidding information released in the market in real time. The bidding project analysis module analyzes the workload and related fields of power construction bidding projects. The enterprise collection module collects enterprises whose main business scope and expertise overlap with the project's related fields. The workload sending module sends the workload for each field within the project to the collected enterprises. The claim information receiving module receives claim information from the enterprises. The allocation scheme output module integrates the claim information and outputs a construction allocation scheme. The acquired bidding information is sent to various small power companies, bringing together multiple small power companies to integrate resources and enable them to jointly undertake a large project. This helps alleviate the pressure on large, powerful companies, promotes the development of the power industry, helps cultivate more capable power companies, and enhances the R&D capabilities of each company.

[0059] Figure 1 This diagram illustrates the internal structure of an information interaction system for the power construction industry according to an embodiment of the present invention. The information interaction system for the power construction industry specifically includes:

[0060] The communication setup module 100 is used to establish network interconnection with the enterprise end and to establish communication channels between various enterprise ends;

[0061] The enterprise information acquisition module 200 is used to acquire real-time dynamic information of various enterprises. This real-time dynamic information includes publicly disclosed construction projects, research projects, main business scope, talent distribution, and areas of expertise. The acquired enterprises and their dynamic information are saved to a database for later retrieval. As the number of enterprises in the database increases, resource allocation schemes among enterprises will become more comprehensive and diverse.

[0062] The bidding project acquisition module 300 is used to acquire power construction bidding projects published on the cloud network. It acquires power construction bidding projects released in the market in real time, then analyzes and breaks them down into multiple smaller projects and objectives. This allows numerous small enterprises to participate in large-scale power construction bidding projects, integrating the resources of many companies. This not only alleviates the pressure on large, powerful enterprises but also promotes the development of the power industry, helps cultivate more capable power companies, and enhances the R&D capabilities of various enterprises.

[0063] The bidding project analysis module 400 is used to analyze the workload and the fields involved in power construction bidding projects.

[0064] The Enterprise Collection Module 500 is used to collect enterprises whose main business scope and research areas overlap with the project's field of expertise, based on the project's relevant field.

[0065] The 600 module for sending project quantities is used to send the corresponding project quantities for each field involved in the project to the collected enterprise terminals.

[0066] The claim information receiving module 700 is used to receive claim information fed back by the enterprise.

[0067] The allocation scheme output module 800 is used to integrate the claim information and output the construction allocation scheme.

[0068] In one embodiment, the communication setup module 100 specifically includes:

[0069] Single-point communication channel establishment unit 110 is used to establish an independent communication channel with the enterprise end;

[0070] The multi-dimensional communication channel establishment unit 120 is used to establish interconnected communication channels between multiple enterprise terminals; any two enterprise terminals can be interconnected through the system, and the resulting communication information is saved and backed up within the system.

[0071] In one embodiment, the enterprise information acquisition module 200 specifically includes:

[0072] Enterprise information receiving unit 210 is used to receive scientific research projects and research fields uploaded by the enterprise.

[0073] Enterprise information acquisition unit 220 is used to obtain the enterprise's main business scope, publicized construction projects, and main business scope in the enterprise's main business.

[0074] The dynamic information tracking unit 230 is used to continuously track and acquire dynamic information related to the enterprise on the cloud network and update it to the database in the system in a timely manner.

[0075] In one embodiment, the bidding project acquisition module 300 specifically includes:

[0076] The power webpage retrieval unit 310 is used to continuously retrieve power-related webpage information from the cloud network.

[0077] The power project picking unit 320 is used to pick up power construction bidding project announcements published on web pages from web page information;

[0078] The webpage storage unit 330 is used to save the webpage information's corresponding webpage homepage address and the corresponding power construction bidding project announcement name to the database. In subsequent searches, the webpage homepage address stored in the database is retrieved periodically.

[0079] Figure 2 This diagram illustrates the structure of a bidding project analysis module in an information interaction system for the power construction industry according to an embodiment of the present invention. The bidding project analysis module 400 specifically includes:

[0080] Project content picking unit 410 is used to pick up the specific content of the engineering project in the power construction bidding project announcement; the specific content of the engineering project includes the construction area and equipment system.

[0081] The quantity conversion unit 420 is used to convert the construction area and equipment system into the corresponding construction quantities.

[0082] The required resource analysis unit 430 is used to analyze the required resources corresponding to the construction project quantity. The required resources include manpower, material resources and construction time.

[0083] The minimum enterprise strength analysis unit 440 is used to analyze the minimum strength of enterprises that can undertake the corresponding construction project volume based on the required resources; the reference standards for the minimum strength include the number of employees, enterprise size, main business scope, and financial status of the enterprise.

[0084] In one embodiment, the enterprise data collection module 500 specifically includes:

[0085] Enterprise collection unit 510 is used to search the database for enterprises whose main business scope covers the project's field of interest, based on each field involved in the project.

[0086] The overlap statistics unit 520 is used to count the number of fields involved in the projects covered by each enterprise and obtain the overlap value;

[0087] The candidate list output unit 530 is used to sort the eligible companies from high to low according to the overlap value to obtain a candidate company list.

[0088] In one embodiment, the engineering quantity sending module 600 is used to send the engineering quantities of each field involved in the project to the collected enterprise terminals, specifically including:

[0089] Based on the list of candidate companies, power construction bidding projects are sent to the companies in descending order of priority, and the quantities of work for each bidding project are sent to the companies. The quantities of work received by the companies correspond to the quantities of work in the areas covered by the projects within their main business scope.

[0090] Figure 3 This diagram illustrates the structure of a claim information receiving module in an information interaction system for the power construction industry according to an embodiment of the present invention. The claim information receiving module 700 specifically includes:

[0091] The claim information receiving unit 710 is used to receive the percentage of the claimed project quantity fed back by the enterprise, and at the same time receive the supporting materials uploaded by the enterprise that match the percentage of the claimed project quantity; the supporting materials include the number of employees, personnel distribution, enterprise size, enterprise working capital, and other proof of strength.

[0092] The supporting documentation verification unit 720 is used to verify supporting documentation.

[0093] The verification result sending unit 730 is used to send the verification result to the enterprise. The verification result includes: if the verification is qualified, it means that the enterprise is qualified to claim the project volume; if the verification is unqualified, it specifically points out the supporting materials that need to be supplemented or the unqualified items in the supporting materials.

[0094] Figure 4 This diagram illustrates the structure of an allocation scheme output module in an information interaction system for the power construction industry according to an embodiment of the present invention. The allocation scheme output module 800 specifically includes:

[0095] The qualified enterprise call unit 810 is used to call out qualified enterprises that have been verified to undertake the engineering work in the specific field involved in the project.

[0096] The preliminary selection list sorting unit 820 is used to sort the companies from high to low according to the percentage of the work volume claimed by each company, and obtain the preliminary selection list of companies.

[0097] The key enterprise identification unit 830 is used to analyze the percentage of working capital and R&D personnel of each enterprise in the initial enterprise list, and to identify enterprises whose percentage of working capital and R&D personnel exceeds the preset percentage.

[0098] The allocation scheme generation unit 840 is used to select the marked enterprises one by one according to the order of the preliminary enterprise list until the sum of the percentage of the claimed work volume of all selected enterprises exceeds 100%, and then output the selected enterprises to form a construction allocation scheme.

[0099] Figure 5 This invention illustrates a schematic diagram of a project development module structure in an information interaction system for the power construction industry, according to an embodiment of the present invention. The system further includes a project development module 900, which specifically comprises:

[0100] Project R&D Initiation Unit 910 is used to receive joint R&D project topics initiated by initiating enterprises;

[0101] Project distribution unit 920 is used to distribute joint R&D project topics to multiple other enterprises that are in the same field as the project.

[0102] The feedback information receiving unit 930 is used to receive intention information from multiple other enterprises; the intention information includes whether they agree to joint research and development and questions raised about the project;

[0103] Information exchange unit 940 is used to send the intention information to the initiating company, then receive the question response announcement document integrated by the initiating company, as well as the specific planning content of the joint R&D project topic; and distribute the question response announcement document and specific planning content to other companies interested in the joint R&D project.

[0104] In order for the above system to run smoothly, in addition to the various modules mentioned above, the system may include more or fewer components than those described above, or combine certain components, or different components, such as input / output devices, network access devices, buses, processors, and memory.

[0105] The processor referred to can be a Central Processing Unit (CPU), or other general-purpose processors, digital signal processors (DSPs), application-specific integrated circuits (ASICs), field-programmable gate arrays (FPGAs), or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. A general-purpose processor can be a microprocessor or any conventional processor. This processor is the control center of the system, connecting various parts of the user terminal via various interfaces and lines.

[0106] The aforementioned memory can be used to store computer and system programs and / or modules. The aforementioned processor performs the various functions mentioned above by running or executing computer programs and / or modules stored in the memory, and by accessing data stored in the memory. The memory may mainly include a program storage area and a data storage area, wherein the program storage area may store the operating system, application programs required for at least one function, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as hard disks, RAM, plug-in hard disks, smart media cards (SMC), secure digital (SD) cards, flash cards, at least one disk storage device, flash memory device, or other volatile solid-state storage devices.

[0107] It should be understood that although the various modules or units in the structural diagrams of the embodiments of the present invention are shown sequentially according to the arrows, these modules or units are not necessarily executed in the order indicated by the arrows. Unless explicitly stated herein, there is no strict order restriction on the execution of these modules or units, and they can be executed in other orders. Moreover, at least some modules or units in each embodiment may include multiple sub-modules or sub-units or multiple stages. These sub-modules or sub-units or stages are not necessarily completed at the same time, but can be executed at different times. The execution order of these sub-modules or sub-units or stages is not necessarily sequential, but can be executed alternately or in turn with other modules or units or at least a portion of the sub-modules or sub-units or stages of other modules or units.

[0108] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0109] The above-described embodiments are merely preferred embodiments of the present invention, and while the descriptions are specific and detailed, they should not be construed as limiting the scope of the present invention. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of the present invention, and these modifications and improvements all fall within the scope of protection of the present invention. Therefore, the scope of protection of this patent should be determined by the appended claims.

Claims

1. An information interaction system for the power construction industry, characterized in that, The system includes: The communication setup module is used to establish network interconnection with enterprise terminals and to establish communication channels between various enterprise terminals; The enterprise information acquisition module is used to acquire real-time dynamic information of each enterprise; the real-time dynamic information includes publicly disclosed construction projects, scientific research projects, main business scope, talent distribution and research fields. The bidding project acquisition module is used to acquire power construction bidding projects published on the cloud network; The bidding project analysis module is used to analyze the workload and related fields of power construction bidding projects. The enterprise collection module is used to collect enterprises whose main business scope and research areas overlap with the areas involved in the project, based on the fields involved in the project. The project quantity sending module is used to send the project quantity of each field involved in the project to the collected enterprise terminals; The claim information receiving module is used to receive claim information from the enterprise. The claim information receiving module specifically includes: The claim information receiving unit is used to receive the percentage of the claimed project volume fed back by the enterprise, and at the same time receive the supporting materials uploaded by the enterprise that match the percentage of the claimed project volume; the supporting materials include the number of employees, personnel distribution, enterprise size, enterprise working capital, and other proof of strength. The supporting documentation verification unit is used to verify supporting documentation. The verification result sending unit is used to send the verification result to the enterprise. The verification result includes: if the verification is qualified, it means that the enterprise is qualified to claim the project volume; if the verification is unqualified, it specifically points out the supporting documents that need to be supplemented or the unqualified items in the supporting documents. The allocation scheme output module is used to integrate the claim information and output the construction allocation scheme. Specifically, the allocation scheme output module includes: The qualified enterprise call unit is used to call out qualified enterprises that have been verified to undertake the engineering work in the specific field involved in the project. The preliminary selection list sorting unit is used to sort companies from highest to lowest based on the percentage of work volume each company has claimed, thus obtaining a preliminary selection list of companies. The key enterprise identification unit is used to analyze the percentage of working capital and R&D personnel of each enterprise in the initial enterprise list, and to identify enterprises whose percentage of working capital and R&D personnel exceeds the preset percentage. The allocation scheme generation unit is used to select the marked companies one by one according to the order of the initial selection list, until the sum of the percentage of the work volume claimed by all the selected companies exceeds 100%, and then output the selected companies to form a construction allocation scheme.

2. The information interaction system for the power construction industry as described in claim 1, characterized in that, The communication setup module specifically includes: A single-point communication channel setup unit is used to establish an independent communication channel with the enterprise. The multi-dimensional communication channel building unit is used to establish interconnected communication channels between multiple enterprise terminals; any two enterprise terminals can connect to each other through the system, and the resulting communication information is saved and backed up within the system.

3. The information interaction system for the power construction industry as described in claim 1, characterized in that, The enterprise information acquisition module specifically includes: The enterprise information receiving unit is used to receive scientific research projects and research fields uploaded by enterprises. The enterprise information acquisition unit is used to obtain the enterprise's main business scope, publicly disclosed construction projects, and main business scope. The dynamic information tracking unit is used to continuously track and acquire dynamic information related to the enterprise on the cloud network and update it to the database within the system in a timely manner.

4. The information interaction system for the power construction industry as described in claim 1, characterized in that, The tender project acquisition module specifically includes: The power webpage retrieval unit is used to continuously retrieve power-related webpage information from the cloud network; The power project picking unit is used to pick up power construction bidding project announcements published on web pages from web page information; The webpage storage unit is used to save the webpage information's corresponding homepage address and the corresponding power construction bidding project announcement name to the database. In subsequent searches, the webpage address stored in the database is retrieved periodically.

5. The information interaction system for the power construction industry as described in claim 4, characterized in that, The bidding project analysis module specifically includes: The project content pickup unit is used to pick up the specific details of the engineering project in the power construction bidding project announcement; the specific details of the engineering project include the construction area and equipment system. The quantity conversion unit is used to convert construction area and equipment system into corresponding construction quantities; The required resource analysis unit is used to analyze the required resources corresponding to the construction project quantity. The required resources include manpower, material resources, and construction time. The minimum enterprise strength analysis unit is used to analyze the minimum strength of enterprises that can undertake the corresponding construction project volume based on the required resources. The reference standards for the minimum strength value include the number of employees, enterprise size, main business scope, and financial status of the enterprise.

6. The information interaction system for the power construction industry as described in claim 1, characterized in that, The enterprise data collection module specifically includes: The enterprise collection unit is used to search the database for enterprises whose main business scope covers the project's field, based on each field involved in the project. The overlap statistics unit is used to count the number of fields involved in the projects covered by each enterprise and obtain the overlap value; The candidate list output unit is used to sort the eligible companies from highest to lowest according to their overlap value, and obtain a candidate company list.

7. The information interaction system for the power construction industry as described in claim 6, characterized in that, The project quantity sending module is used to send the project quantities for each field involved in the project to the collected enterprise terminals, specifically including: Based on the list of candidate companies, power construction bidding projects are sent to the companies in descending order of priority, and the quantities of work for each bidding project are sent to the companies. The quantities of work received by the companies correspond to the quantities of work in the areas covered by the projects within their main business scope.

8. The information interaction system for the power construction industry as described in claim 1, characterized in that, The system also includes a project development module, which specifically includes: The project R&D initiation unit is used to receive joint R&D project topics initiated by initiating companies. The project distribution unit is used to distribute collaborative R&D project topics to multiple other enterprises that are aligned with the project's field. The feedback information receiving unit is used to receive intention information from multiple other enterprises; the intention information includes whether they agree to joint research and development and questions raised about the project; The information exchange unit is used to send information of intent to the initiating company, then receive the integrated question and response document and the specific planning content of the joint R&D project from the initiating company; and distribute the question and response document and the specific planning content to other companies interested in the joint R&D project.