Dr. Jong Hyun Choi | Robotics and Automation | Best Researcher Award Posted on 30/07/202430/07/2024 by sciencefather Dr. Jong Hyun Choi | Robotics and Automation | Best Researcher Award Dr. Jong Hyun Choi, Principal Researcher, Korea Electronics Technology Institute, South Korea π Dr. Jong Hyun Choi, a distinguished Principal Researcher at the Korea Electronics Technology Institute in South Korea, is a leading figure in robotics and automation π€. His groundbreaking work in this field has garnered him international acclaim, earning him the prestigious Best Researcher Award π. Dr. Choi’s innovative research focuses on developing cutting-edge robotic systems and automation technologies that enhance efficiency and precision in various industries. His dedication to advancing technology and his impressive contributions to the field make him a prominent name in robotics and automation research ππ. Profile ποΈ Orcid Academic and Professional Background ππ π Dr. Jong Hyun Choi earned his M.S. and Ph.D. degrees in Electrical Engineering from POSTECH, Pohang, Republic of Korea, in 2009 and 2014, respectively. π’ Since 2020, he has been working at the Korea Electronics Technology Institute (KETI), serving as the Principal Researcher of the Smart Manufacturing Research Center. π Before joining KETI, he worked at Samsung Electronics from 2014 to 2020. π‘ His current research focuses on Manufacturing AI and Equipment Prognostic Health Management (PHM) systems, contributing to advancements in smart manufacturing. ππ€ Research and Innovations π¬π‘ π¬ Dr. Jong Hyun Choi has made significant contributions to the field with 32 completed and ongoing research projects π. His work has garnered an impressive citation index of 16 π. He has also been involved in 7 consultancy and industry projects πΌ, demonstrating a strong connection with the practical applications of his research. Dr. Choi has published several books π and holds 20 patents, either published or under process π. He has also contributed to 4 journals in reputable databases like SCI and Scopus π, reflecting the high quality and impact of his research. Collaborations π€π ππ Dr. Jong Hyun Choi is leading a cutting-edge R&D project at the Global Industrial Technology Cooperation Center, collaborating with Purdue University, Argonne National Lab, and ACT-ion Battery Technologies. The project focuses on developing AI-powered in-line production of cobalt-free single crystal cathodes with advanced performance through atomic layer deposition (ALD). This innovative approach aims to enhance battery efficiency and sustainability. The collaboration promises to push the boundaries of energy storage technology, leveraging the strengths of top institutions and industry leaders. ππ‘π¬ Professional Memberships π π₯ Dr. Jong Hyun Choi is a dedicated regular member of The Korean Institute of Electrical Engineers (KIEE) π°π·β‘. With a passion for advancing electrical engineering, he actively contributes to the institute’s initiatives and professional development programs π. His involvement with KIEE underscores his commitment to innovation and excellence in the field of electrical engineering π οΈπ. Dr. Choi’s work and contributions help foster a collaborative environment within the institute, promoting cutting-edge research and technological advancements π. His dedication and expertise make him a valued member of the KIEE community π¨βπ¬π. Areas of Research ππ Dr. Jong Hyun Choi specializes in Equipment Prognostics and Health Management (PHM) π οΈ, Smart Manufacturing π, and Data Analysis π. His expertise includes Feature Extraction, Signal Processing ποΈ, and Control & Optimization βοΈ. He leverages Machine Learning π€ to enhance predictive maintenance and operational efficiency. Dr. Choi’s work focuses on integrating advanced technologies to improve the reliability and performance of manufacturing systems, ensuring streamlined processes and reduced downtime. His research in these areas contributes significantly to the development of intelligent, data-driven manufacturing solutions. Publication Top Notes πβ¨ Conformational Control of DNA Origami by DNA Oligomers, Intercalators and UV Light Elucidating the Mechanical Energy for Cyclization of a DNA Origami Tile