Yifei Zhang | Engineering and Technology | Best Researcher Award

Yifei Zhang | Engineering and Technology | Best Researcher Award

Mr Yifei Zhang, University of Leeds, China

Yifei Zhang appears to be a strong candidate for the Research for Best Researcher Award based on the provided details.

Publication profile

Orcid

Education

University of Leeds: School of Electronic & Electrical Engineering (10/2023-Present), Harbin Institute of Technology: School of Electrical Engineering and Automation (09/2021-07/2023) – GPA: 89.968/100, Zhejiang Sci-Tech University: Qixin College (09/2017-06/2021) – GPA: 4.04/5 (Top 1/37).

Publications

Hybrid ANPC Grid-Tied Inverter Design with Passivity-Based Sliding Mode Control Strategy (07/2024) Summary: This publication explores an advanced inverter design integrating a passivity-based sliding mode control strategy, enhancing grid-tied inverter performance and reliability.Analysis and Error Separation of Capacitive Potential in the Inductosyn (09/2022) Summary: This work focuses on capacitive potential errors in inductosyn devices, providing a detailed analysis and separation methods to improve measurement accuracy.

Honors

Honorable Mention, American College Students Mathematical Contest in Modeling (04/2020). Provincial Third Prize, National Mathematical Contest in Modeling for College Students (12/2019). Third Prize, Zhejiang University Student Robot Creative Competition (12/2019). Provincial Third Prize, National Electronic Design Competition for College Students (09/2019).

Research Statement

Harmonic Cancellation Design of Circular Induction Synchronizer (03/2022-09/2022): Developed a system for measuring angles in circular induction synchronizers, focusing on error analysis and optimization for harmonic elimination. Optimal Design of Finite Angle Driven Flux Switching Arc Permanent Magnet Motor (01/2022-07/2022): Conducted finite element simulations to optimize motor parameters and reduce torque ripple. Brushless DC Motor Drive Controller Design (09/2020-06/2021): Designed and assembled a control board for brushless DC motors, implementing both sensorless and sensor-based control.

Publication top notes

Hybrid ANPC Grid-Tied Inverter Design with Passivity-Based Sliding Mode Control Strategy

 

 

 

Ming-Yen Wei | Engineering and Technology | Best Researcher Award

Ming-Yen Wei | Engineering and Technology | Best Researcher Award

Assist Prof Dr Ming-Yen, Wei National Formosa University, Department of Electrical Engineering, Taiwan

Assist. Prof. Dr. Ming-Yen was born in Taichung City, Taiwan ๐Ÿ‡น๐Ÿ‡ผ on April 20, 1983. He earned his Bachelor’s and Master’s degrees in Electrical Engineering from National Formosa University in 2005 and 2007, and his Ph.D. from National Taiwan University of Science and Technology in 2012 ๐ŸŽ“. After a decade in industrial technical roles, he joined National Formosa University as an Assistant Professor in early 2023 ๐Ÿ‘จโ€๐Ÿซ. His research interests include motor drive control, embedded systems, control theory applications, mechatronics, and robotics ๐Ÿค–โš™๏ธ.

Publication profile

Scopus

Research focus

Dr. Ming-Yen Wei’s research primarily focuses on the design, control, and implementation of advanced motion control systems and platforms. His work encompasses the development of servo control systems, multi-axis motion chairs, and flight simulators, utilizing CAN bus and microcontroller technologies. Additionally, he has contributed to the creation of motion-cueing algorithms and inverse kinematics for six degrees of freedom (6DoF) platforms. His research has significant applications in robotics, aerospace, and virtual reality simulations, showcasing innovations in precision motion control and system integration.

Publication top notes

Design and Control of a Three-Axis Motion Servo Control System Based on a CAN Bus

Design and Implementation of a New Training Flight Simulator System

Design and Control of a Multi-Axis Servo Motion Chair System Based on a Microcontroller

Design of a DSP-Based Motion-Cueing Algorithm Using the Kinematic Solution for the 6-DoF Motion Platform

Design and implementation of inverse kinematics and motion monitoring system for 6dof platform

Optimal Control-based Motion Cueing Algorithm Design for 6DOF Motion Platform

Design and Implementation of the Inverse Kinematics and Monitoring Module for Six-axis Crank Arm Platform

Design, Analysis, and Implementation of a Four-DoF Chair Motion Mechanism