个人简介
面向国家战略需求,从事控制理论领域、量子精密测量与传感领域技术研究,同时,结合控制理论与量子传感与精密测量理论,对通过激光操纵量子态原子及对其控制与应用进行了深入研究,开展小型化SERF原子磁强计、超高精度量子导航传感器核心器部件碱金属气室相关关键技术研究。
研究方向
(1) 应用于量子精密测量与传感的核心器部件碱金属原子源气室标准化成型技术研究
(2) 应用于提高SERF原子磁强计测量精度的碱金属原子源气室抗弛豫镀膜技术研究
(3) 应用于超高精度量子导航传感器的碱金属原子源气室增透膜镀膜技术研究
教学工作
(1) 教授本科生课程《智能控制基础》
学术成果
(1) Shun Li*, et. al. A Novel Initial Rotor Position Estimation Method at Standstill for Doubly Salient Permanent Magnet Motor, IEEE Transactions on Industrial Informatics, 2018,14(7): 2914-2924.
(2) Shun Li*, et. al. High-Precision Parameter Identification of High-Speed Magnetic Suspension Motor, IEEE Transactions on Energy Conversion, 2018,33(1): 20-31.
(3) Shun Li*, et. al. Sensorless Energy Conservation Control for Permanent Magnet Synchronous Motors Based on a Novel Hybrid Observer Applied in Coal Conveyer Systems,ENERGIES,2018,11(10).
(4) Shun Li*, et. al. A Parameter Identification Method Based on Forgetting Factor Dynamic Adjustment for PMSM Applied to the Rapid Control of Satellite Attitude, JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY, 2019,14(1): 287-299.