Background
The Human-Cyber-Physical Convergence Operating System represents a new stage in the development of industrial internet software platforms. In design philosophy, it embodies the new system construction concept of "scenario as computer" and implements first principles by controlling system complexity through software. In technical implementation, it integrates the new technological system of "ubiquitous connectivity," "software-defined," and "intelligence-driven." In ecosystem building, it constructs platform foundations for diverse and variable domain applications and devices, while providing an inclusive development environment for industry communities.
Research Objectives
The research objectives of this project cover two levels: technology and standards & ecosystem.
Technical Level
The project aims to break through the limitations of existing industrial IoT platforms that rely on the elementary approach of IT+OT for industrial upgrading. Following the proper architecture of operating systems, we will develop an industrial internet operating system that fully supports human-cyber-physical convergence applications. This system will support orderly interaction of all production elements, implement intelligent resource management and evolvable application runtime, ensuring flexible adjustment and optimization when facing different production demands and environmental changes.
Standards & Ecosystem Level
The project selects the power information sector as the target industry for technical verification and promotion. Through the development and formulation of resource model standards, communication interaction standards, application collaboration standards, etc., we promote the development of the human-cyber-physical convergence operating system ecosystem in the power information field. This will not only enhance the intelligence level and collaborative efficiency of the power industry, but also provide reference and standards for other industrial production fields, promoting the adaptation and implementation of these research results in more industries, and comprehensively achieving the optimization of production chains and the reshaping of the entire industrial and value chains.
Core Technology System
Ubiquitous Connectivity
Supporting orderly interaction of all production elements and seamless connection of devices, personnel, and systems
Software-Defined
Controlling system complexity through software to achieve flexible and configurable system architecture
Intelligence-Driven
Intelligent resource management and evolvable application runtime
Project Vision
Through a compatible development route, we aim to advance technological innovation and standards development, promote the application and adoption of the developed technologies and standards in industrial domains such as power information systems, and explore viable pathways for the development of industrial internet operating systems.