Short Biography
Haifeng Zhang a researcher specializing in medical engineering and precision mechatronic systems, with substantial experience leading national research initiatives including projects from the National Natural Science Foundation of China and the National Key R&D Program. His work in magnetic shielding technology has resulted in the development of advanced active compensation systems now used in neuromagnetic imaging equipment at over 30 hospitals nationwide, significantly improving diagnostic capabilities. In motor control, he created innovative solutions for high-speed magnetic levitation systems that have been successfully implemented in satellite platform verification for China Aerospace Science and Technology Corporation. As an educator, he has mentored numerous graduates who now work at leading institutions such as Huawei and aerospace research centers. His research output includes over 30 SCI publications in IEEE journals, multiple patents, and contributions to technical standards in servo motor control, demonstrating consistent innovation in both academic research and practical engineering applications.
Research Area
Magnetic Shielding Technology and Applications
Precision Mechatronic Control Technology
Courses
《Embedded System Design and Applications》
《Magnetic Shielding and Zero-Magnetic Field Medical Equipment》
Papers & Books
Zhang H., Deng L., Li H., et al. Commutation Point Optimization Method for Sensorless BLDC Motor Control Using Vector Phase Difference of Back EMF and Current[J]. IEEE/ASME Transactions on Mechatronics, 2024,29(1): 423-433
Zhang H., Wu H., Jin H., et al. High-Dynamic and Low-Cost Sensorless Control Method of High-Speed Brushless DC Motor[J]. IEEE Transactions on Industrial Informatics, 2023,19(4): 5576-5584
Zhang H., Shi Z., Zhao F., et al. Disturbance Suppression Based High-Precision Magnetic Field Compensation Method for Magnetic Shielding Cylinder[J]. IEEE Transactions on Industrial Electronics, 2025,72(1): 857-866
Tian P., Le Y., Zhang H., et al. Composite Suppression Method of Magnetic Interference in Magnetic Shielding Cylinder Based on Adaptive Frequency Estimator[J]. IEEE Transactions on Industrial Informatics, 2025: 1-9
Tian G., Cui P., Li H., et al. Adaptive Decoupling Control of Three-Axis Active Magnetic Compensation System Based on MSG Identification[J]. IEEE Transactions on Instrumentation and Measurement, 2025: 1-1
