English: Renewable energy technologies, characterized by sustainability and environmental friendliness, hold increasing strategic value for the long-term, healthy development of the national economy. Electric machines and their control systems are critical components for energy conversion in renewable energy equipment such as electric vehicles, more-electric aircraft, and wind power generation. Exploring advanced topologies and control technologies for electric machines oriented towards renewable energy is an effective pathway to promote the development of renewable energy equipment toward high efficiency, low carbon, high reliability, and intelligence. This track focuses on new machine topologies, motor drives, advanced control algorithms, fault diagnosis of motor systems, and the application of AI in motor systems. Key discussion topics include: highly efficient and high-speed motor topology design, high-power motor drive design, parameter mismatch control, fault diagnosis and fault-tolerant control, sensorless control, high-efficiency heat dissipation, vibration analysis and suppression, and the intelligence of motor systems, aiming to provide effective solutions for the advancement of machine and control technologies in the renewable energy sector.

中文: 新能源技术具有可持续发展和环境友好等优良的特点，因而对国民经济的长期良性发展具有越来越重要的战略价值。电机及其控制系统是电动汽车、多电飞机和风力发电等新能源装备的能量转换关键部件。探索面向新能源的电机先进拓扑与控制技术，是促进新能源装备向高效低碳、高可靠性和智能化等方面发展的有效途径。本分论坛围绕面向新能源的电机新拓扑结构、电机驱动器、电机先进控制算法、电机系统的故障诊断、AI技术在电机系统中的应用等主题，重点探讨高效高速电机拓扑设计、大功率电机驱动器设计、电机系统的参数失配控制、故障诊断与容错控制、无位置传感器控制、电机的高效散热、振动分析与抑制和电机系统智能化等前沿问题，为推动新能源领域电机与控制技术的发展提供有效解决方案。