Technically driven engineer with a research background in simulation, system validation, and tool-based design seeking to contribute as an E-CAD Application Engineer at Accton. Eager to apply analytical skills, Python readiness, and hands-on experience in CAD-integrated workflows while growing into advanced EDA tool environments to support engineering innovation and product reliability.
Proficient in optical and energy simulation tools (LightTools, PSPICE)
Completed a twinning program between Malaysia and Ritsumeikan University in Japan, building both strong technical foundations and cross-cultural adaptability. For my bachelor thesis, I designed and fabricated a solar waveguide device using CAD tools, LightTools simulation, and CNC machining, gaining early exposure to simulation and manufacturing technologies.
In my master's at the University of Miyazaki, I analyzed two years of field data to evaluate the performance of a 14MW CPV system. This work provided practical experience in solar cell technology, environmental data acquisition, and system-level energy yield validation.
At CREST (UK), I contributed to IEC standardization efforts through the development of PV testing methods. I participated in the ENG55 PhotoClass project with Fraunhofer, PTB, JRC, and SUPSI, working on inter-laboratory validation of energy rating procedures. I operated specialized equipment including PASAN solar simulators, IV tracers, and spectroradiometers, and developed test protocols that remain relevant in current PV evaluation.
At OptoComb in Japan, I worked on 3D optical inspection systems using optical frequency comb technology. My role included operating Keyence VL/VR systems, configuring servo-controlled precision stages, and conducting GD&T analysis of large-scale point cloud data. I gained exposure to robotic integration (JAKA) and supported the development of internal software tools to improve measurement workflows.
Collaborating closely with IT and hardware teams, I helped optimize data acquisition, validation, and reporting processes. This experience strengthened my skills in system integration, automation, quality analysis, and technical communication.
Analytical, detail-oriented, and open-minded. I enjoy bridging software and hardware, exploring system behavior through testing and simulation, and adapting quickly to new tools and environments. I thrive in multicultural teams and enjoy solving engineering challenges with practical, data-driven approaches.
I value meaningful, technically challenging work in an environment that encourages collaboration, continuous learning, and cross-functional growth. Work content and team dynamics are the most important drivers of long-term satisfaction for me.
Having recently relocated to Taiwan, I'm eager to embark on a new chapter where I can contribute my international experience and technical skillset to a forward-thinking team. I see this opportunity as a critical step in building a sustainable career as a researcher and engineer while balancing long-term personal and family goals.