Buk District, Gwangju, South Korea
I am currently seeking a challenging research or engineering position where I can apply my extensive expertise in electromagnetic systems, medical imaging technology, and magnetic hyperthermia. I am a Ph.D. candidate at the Gwangju Institute of Science and Technology (GIST) in South Korea, specializing in the design and development of intelligent medical nanorobotics systems. My core research focuses on Magnetic Particle Imaging (MPI) and Magnetic Particle Hyperthermia (MPH) for advanced medical diagnosis and therapy. While current MPI systems are primarily limited to small-animal experiments, my work addresses the critical need for human-scale platforms. I am specifically focused on the optimized design of a human-scale, single-sided MPI system that allows for localized thermal therapy and precise nanoparticle navigation. Technical Expertise & Experience: Engineering Foundation: I bring 14 years of experience as an electrical engineer and 5 years as a vocational college instructor. My background spans the full spectrum of electrical systems, from civil electricity to large-scale power grids. Research & Implementation: Throughout my PhD, I have led and contributed to four major projects, designing and controlling complex electromagnetic systems. Software Proficiency: I utilize COMSOL for coil optimization, LabVIEW/PXI for system control, and MATLAB for signal processing and image reconstruction. These tools are essential for mastering magnetic control and noise reduction in medical devices. I hold a Bachelor’s degree from Can Tho University (Vietnam) and a Master’s degree in Electrical Engineering from the National Taiwan University of Science and Technology (Taiwan). My rigorous background in power systems and magnetic field analysis provides a strong foundation for solving the most complex challenges in modern medical imaging. I am confident and ready to contribute to the development of next-generation healthcare technologies.
As a 14-year electrical and electronic engineer as well as a 5-year practical teacher in a vocational college, I strongly have a significant knowledge and experience in designing and operating electrical circuits and electrical systems from civil electricity to electric power system. With much practical experience in joining various projects in my current PhD study, I can design, implement and control electromagnetic systems, specifically magnetic particle imaging, magnetic hyperthermia and navigation. Besides of technical skills, software skills of optimizing coils in electromagnetic systems using COMSOL, signal processing and system controlling using LABVIEW, PXI instruments and image reconstruction method for MPI using MATLAB are extremely powerful and allows for magnetic control, signal filter, noise reduction and reconstructed image. These skills are extremely indispensable in designing, implementing medical imaging devices.