Announcement on soliciting suggestions for 2024 project guidelines for the major research plan “Basic Theory and Key Technologies of Future Industrial Internet”
The future industrial Internet is a new industrial ecology, key infrastructure and new application models that are deeply integrated with the new generation of information and communication network technology and industrial manufacturing. Through the safe and reliable intelligent connection of humans, machines and things, it will realize the integration of all factors of production, the entire industry chain and the entire value chain. Comprehensive connection will promote fundamental changes in manufacturing production methods and enterprise forms, form a new industrial production and service system, and significantly enhance the digital, networked, and intelligent development level of the manufacturing industry.
This major research plan aims at the major strategic needs of the country for industrial Internet, focusing on the major core scientific issues of the future industrial Internet, and opening up the “first mile” of basic research and original innovation of future industrial Internet and the “last mile” of transformation of scientific and technological achievements and industrial market application. One Kilometer”, laying a theoretical and technical foundation for my country’s industrial Internet development level to be at the forefront of the world.
In order to further improve the project establishment and funding work of the major research plan “Basic Theory and Key Technologies of Future Industrial Internet”, after discussion and decision at the meeting of the guidance expert group and management working group of this major research plan, we will solicit suggestions for 2024 project guidelines from the scientific and technological community.
1. Scientific objectives
Aiming at the major national strategic needs of the Industrial Internet, grasping the future development trend of the Industrial Internet, innovating basic theories and methods such as the structured organizational mechanism of all-factor interconnection of the Industrial Internet, the flexible structural mechanism of the production and manufacturing process, and the networked regulation principles of the industrial chain and value chain. , break through a number of core key technologies, complete the integrated demonstration and verification of more than three typical industrial manufacturing scenarios, form a number of major basic original results, cultivate a group of internationally influential talents and teams, and promote the paradigm change of industrial Internet applications and services , laying a theoretical and technical foundation for building a new industrial ecology with structured factor interconnection, streamlined production and manufacturing, and systematized industrial networks, and leading the scientific development of the future industrial Internet.
2. Core scientific issues
This major research plan focuses on the core issue of the evolution of spatiotemporal relationships and regulatory rules of the interconnection of production factors in the future Industrial Internet, and focuses on the following three scientific issues:
(1) Structured organizational mechanism of all-factor interconnection.
In view of the system complexity problem of safe and reliable interconnection of all elements of human, machine and things in the future industrial Internet, we focus on solving the problems of how to characterize the connection and structural relationships of all elements of the future industrial Internet, how to measure its complexity and build mutual control relationships, etc. Focus on the research on the intrinsic model and control mechanism of on-demand connection of the future industrial Internet, the multi-dimensional representation and structured organization mechanism of production factor data, and the system entropy theory of all-factor interconnection.
(2) Flexible construction theory and methods of production and manufacturing processes.
Facing the fluency and stability requirements of the entire process of flexible manufacturing in the future Industrial Internet, the focus is on how to accurately characterize the error propagation in the entire manufacturing process of the future Industrial Internet production chain, effectively identify the vulnerabilities of the production process, and quantitatively assess the convergence of production line reconstruction. Sexual issues. Focus on studying the tolerance analysis and propagation model of the entire process of future industrial Internet flexible manufacturing, the whole-process stability construction method, and the theory and method of whole-process reconstruction.
(3) Principles of networked regulation of industrial chains and value chains.
In view of the coupling and complex regulatory relationships of the entire industry chain and the entire value chain of future industrial Internet production and manufacturing, the focus is on how to establish a networked industry chain model from an efficiency perspective, a networked value chain model from a utility perspective, and how to achieve cross-industry chain and value Multi-objective control and optimization of chain linkage and other issues. Focus on studying the whole industry chain construction model, the whole value chain construction model, and the network regulation principle of cross-chain coupling in future industrial Internet production and manufacturing.
3. Main contents of the Guidelines and Recommendations
According to the “National Natural Science Foundation of China Major Research Plan Management Measures”, major research plan projects include four subcategories: cultivation projects, key support projects, integrated projects and strategic research projects. This collection of guideline suggestions is mainly aimed at cultivation projects and key projects in 2024. There are 3 subcategories of support projects and integration projects, including:
(1) Cultivation projects refer to projects that are in line with the research objectives and funding scope of major research plans, are obviously innovative, and need to further clarify the direction of breakthroughs and gather research strength in the research.
(2) Key support projects refer to projects whose research direction is at the international forefront, is highly innovative, has a good research foundation and research team, is expected to achieve important research results, and plays an important role in the completion of major research plan goals.
(3) Integrated projects refer to, on the basis of preliminary funding and research, targeting very important and promising breakthrough directions in major research plans, clarifying goals, concentrating superior forces, and achieving leapfrog development, so that my country’s research level in this field will be at a leading level. Projects at the international forefront or leading level.
In addition to the Department of Information Science, this major research plan also involves the Department of Mathematical and Physical Sciences, the Department of Engineering and Materials Science, and the Department of Management Science. Researchers engaged in the industrial Internet in the above fields are welcome to actively propose guidelines and suggestions and encourage interdisciplinary interdisciplinary research. It is required that the recommendations in the guide reflect the combination of scientific frontiers and major needs, and carry out basic research on major bottlenecks or pain points in the implementation of the scenario.
The main contents of the guideline recommendations include:
(1) Contribution to solving the core scientific issues of this major research plan and achieving the overall goal.
(2) The main research content to be carried out around solving core scientific problems.
(3) The expected breakthrough progress and its feasibility demonstration.
(4) Description of subcategories of proposed funding projects.
4. Guidelines have been issued in 2023
( https://www.nsfc.gov.cn/publish/portal0/tab442/info90019.htm )
(1) Cultivation projects.
1. Security detection and protection methods for industrial Internet intelligent models.
2. Industrial Internet generative artificial intelligence methods and key technologies.
3. Flexible control and intelligent decision-making for intelligent manufacturing.
4. Optimal control and intelligent decision-making for energy conservation and carbon reduction in process industries.
5. Measurement methods and evaluation systems for industrial Internet quality.
(2) Key support projects.
1. Highly reliable transmission and networking technology across time and space for the industrial chain in distant seas and remote areas.
2. Collaborative control and intelligent optimization of heterogeneous production resources for large-scale discrete manufacturing.
3. Optimization algorithm theory and stability analysis for industrial Internet flexible manufacturing systems.
4. Industrial Internet lightweight intelligent software system architecture.
5. Integrated management technology for complex product R&D, manufacturing and operation and maintenance based on the industrial Internet.
6. The theory and key technologies of collaborative sensing and flexible control for mass customization.
(3) Integration projects.
1. Demonstration and verification of all-factor on-demand collaborative interconnection integration based on the new industrial Internet architecture.
2. Demonstration and verification of flexible construction theoretical methods and technology integration in the production and manufacturing process.
5. Guidelines have been issued in 2022
( https://www.nsfc.gov.cn/publish/portal0/tab434/info87058.htm )
(1) Cultivation projects.
1. System topology identification and optimization for industrial Internet.
2. The theory and method of reconfigurability of industrial Internet architecture for complex and diverse business characteristics.
3. Unified spatio-temporal benchmark theory and key technologies of the Industrial Internet for precision manufacturing.
4. Research on OT/CT/IT heterogeneous protocol cluster integration and unified modeling methods.
5. Process optimization method of coupling mechanism and twin interaction in the additive and subtractive manufacturing process of complex components.
6. Multi-agent collaboration and decision-making mechanism for unmanned factories.
(2) Key support projects.
1. Basic theory, architecture and key technologies of communication-perception-control integrated intelligent machine networking for intelligent manufacturing.
2. The theory and key technologies of online evaluation and dynamic control of the whole process quality of flexible manufacturing.
3. Dual-chain linkage regulation mechanism of industrial chain and value chain for complex product innovation and manufacturing efficiency.
4. The theory and key technologies of trusted sharing and on-demand services of multi-source heterogeneous data in the Industrial Internet.
5. Functional safety-oriented industrial Internet endogenous safety theory, architecture and key technologies.
6. Decision-making theory and key technologies for intelligent collaboration and optimization of process industry production chains and industrial chains.
(3) Integration projects.
1. Demonstration and verification of the interconnection, collaboration and integration of all elements of the Industrial Internet.
6. Guidelines have been issued in 2021
( https://www.nsfc.gov.cn/publish/portal0/tab442/info81562.htm )
(1) Cultivation projects.
1. Industrial Internet topology evolution mechanism and related mathematical methods based on system entropy.
2. Multi-source feature fusion representation method and organizational reasoning for complex elements of the Industrial Internet.
3. Error propagation mechanism and online tolerance analysis of multi-process complex coupled customized production processes.
4. Industrial Internet high-precision delay jitter control theory and method.
5. Security detection theory and evaluation methods of intelligent manufacturing software and protocols.
6. High-precision anomaly detection theory and traceability methods for industrial Internet data security.
(2) Key support projects.
1. A new industrial Internet architecture with controllable end-to-end performance in multiple scenarios.
2. Theory and method of lightweight and trusted intelligent security system at the edge of industrial Internet.
3. Flexible structure and intelligent control of the industrial Internet for manufacturing model changes.
4. Adaptation theory and reconstruction mechanism of complex communication environment in smart workshops.
5. Lightweight software architecture for the industrial Internet.
6. Production self-organization collaboration mechanism and management methods for intelligent manufacturing value chain.
7. Guidelines issued in 2020
( http://www.nsfc.gov.cn/publish/portal0/tab568/info79020.htm )
(1) Cultivation projects.
1. Multidimensional data representation method and structured organization mechanism of production factors.
2. Tolerance analysis and propagation model of networked full-process manufacturing.
3. The theory and method of safe and reliable interconnection for manufacturing processes.
4. Topological geometric structure theory for industrial Internet complex systems.
(2) Key support projects.
1. New system architecture and information model of the industrial Internet with on-demand connections.
2. Based on semantic-driven industrial Internet native intelligent organization theory.
3. The collaborative mechanism of all elements of the Industrial Internet of humans, machines, and objects.
4. Cross-domain collaboration and real-time control for precise operations in complex scenarios.
5. The cross-temporal and multi-granularity manufacturing resource allocation and control theory of industrial manufacturing systems.
8. Submission method of guideline proposals
Please send the electronic version of the “Guideline Proposal” (Word format, please see the attachment for template details ) by email to the contact email of the Department of Information Science before May 31, 2024.
Contact: Wu Guozheng Wang Zhiheng Xie Guo
Email: wugz@nsfc.gov.cn; wangzh@nsfc.gov.cn; xieguo@nsfc.gov.cn
Tel: 010-62327929; 010-62327807; 010-62327090