English: This track focuses on the interaction mechanisms and flexible cooperative control of multiple entities—source, grid, and load—within new power systems. With the large-scale integration of renewable energy and the increasing power electronics penetration on the load side, the operating characteristics and security stability of power systems face new challenges. This track aims to explore frontier technologies and engineering practices in flexible interaction, active distribution, energy coordination, and resilience enhancement for source-grid-load systems under high-penetration renewable energy. Research hotspots include topology optimization of AC/DC hybrid transmission and distribution systems, advanced power electronic devices and equipment, control methods for flexible loads and energy storage, system fault ride-through and self-healing capabilities, and efficient energy management for multi-energy complementarity. The track provides a theoretical foundation and technical support for promoting the intelligence, flexibility, and resilience of power systems, facilitating the realization of "dual-carbon" goals and energy transition.

中文: 本分论坛聚焦于新型电力系统中源、网、荷多元主体的互动机制与灵活协同控制。随着新能源大规模并网及负荷侧电力电子化程度提升，电力系统的运行特性和安全稳定性面临新的挑战。论坛旨在探讨高比例可再生能源接入下，源网荷间柔性互动、主动配电、能量协调与韧性提升的前沿技术与工程实践。研究热点包括交直流混合输配电系统拓扑优化、先进电力电子器件与装备、灵活负荷和储能的调控方法、系统故障穿越与自愈能力、以及多能互补的高效能量管理。论坛将为促进电力系统智能化、灵活化和韧性发展提供理论基础与技术支持，助力“双碳”目标实现及能源转型升级。