丁晓兵：电鸿生态助力新型电力系统发展

Core Viewpoint - The development of a new power system is essential for implementing the national energy security strategy and driving the energy revolution, with a focus on digitalization as a key requirement for sustainability and efficiency in operations [4][5]. Group 1: New Power System Development - The new power system is driven by structural changes on the source side, primarily through renewable energy, which is becoming the main force in the energy landscape [4]. - The distribution network is evolving from a traditional radial structure to an active network, with distributed renewable energy sources increasingly integrated, leading to a significant rise in installed capacity [4][5]. - The demand for a unified power IoT foundation is growing due to the emergence of innovative applications like virtual power plants and vehicle-grid interactions, necessitating real-time coordination of distributed resources and user-side devices [4][5]. Group 2: Digitalization and Software-Defined Power - A deeper level of digitalization is deemed an inevitable choice for the new power system, with efficient operation of numerous smart terminals and the management of a "digital grid" being crucial for sustainable operation [5]. - The traditional expansion model of equipment has reached its limits, and a digital paradigm revolution, termed "software-defined power," is proposed as a solution [5][6]. - The Ministry of Industry and Information Technology is advancing the construction of a national-level open-source technology system to support the architectural innovation and large-scale application of software-defined power [5][6]. Group 3: The Concept of "Dianhong" - "Dianhong" represents an interconnected, open, and shared power industrial IoT system tailored for the new power system and energy framework, built on open-source foundations [6]. - It aims to support a diverse range of power industry applications through a rich middleware system, ensuring safety and autonomy in operations [6][7]. - The development path includes three phases: establishing a unified device core system, overcoming core technology bottlenecks, and integrating artificial intelligence for broader industry application [7]. Group 4: Future Outlook - Future efforts will focus on deeper standardization to facilitate digitalization in the energy sector, promoting standardized access and communication protocols for power terminals [8]. - Enhanced coordination across multiple links will support the modernization of the power industrial system, enabling data integration and analysis across devices and platforms [8]. - The goal is to expand the reach of power infrastructure into various industries and households, fostering new models and business formats for green and low-carbon energy services [8].