Young-Hui Chang is a professor in the School of Biological Sciences, Associate Dean of Faculty for College of Sciences, and director of research in the Georgia Tech Comparative Neuromechanics Lab where he studies the neuromechanics of movement in humans and other animals. Chang’s aim is to understand fundamental principles by which we control our movements as we move through our physical environment. This requires knowledge of the neural control of movement, the biomechanics of our musculoskeletal system, and the physics of our environmental interactions. The team also studies how our body adapts to acute and chronic changes. This involves processes of motor learning that are involved in everything from clinical rehabilitation to elite sports performance.

Dr. Leslie Chan is an Assistant Professor in the Wallace H. Coulter Department of Biomedical Engineering at the Georgia Tech School of Engineering and Emory School of Medicine. Her research program integrates core and emerging principles from drug delivery, biomaterials development, and chemical biology to engineer diagnostic and therapeutic solutions for infectious disease, microbiome dysbiosis, and inflammatory diseases. Dr. Chan earned her B.S. in Biomedical Engineering from Georgia Tech and her Ph.D. in Bioengineering from the University of Washington with Professor Suzie Pun. She completed her postdoctoral training at Massachusetts Institute of Technology with Professor Sangeeta Bhatia. Dr. Chan is the recipient of an NIH K99/R00 Pathway to Independence Award.

Julie Champion is the William R. McLain Endowed Term Professor in the School of Chemical and Biomolecular Engineering at Georgia Institute of Technology. She earned her B.S.E. in chemical engineering from the University of Michigan and Ph.D. in chemical engineering at the University of California Santa Barbara. She was an NIH postdoctoral fellow at the California Institute of Technology. Champion is a fellow of the American Institute for Medical and Biological Engineering and has received awards including American Chemical Society Women Chemists Committee Rising Star, NSF BRIGE Award, Georgia Tech Women in Engineering Faculty Award for Excellence in Teaching, Georgia Tech BioEngineering Program Outstanding Advisor Award. Professor Champion’s current research focuses on design and self-assembly of functional nanomaterials made from engineered proteins for applications in immunology, cancer, and biocatalysis.

Christopher E. Carr is an engineer/scientist with training in aero/astro, electrical engineering, medical physics, and molecular biology. At Georgia Tech he is an Assistant Professor in the Daniel Guggenheim School of Aerospace Engineering with a secondary appointment in the School of Earth and Atmospheric Sciences. He is a member of the Space Systems Design Lab (SSDL) and runs the Planetary eXploration Lab (PXL). He serves as the Principal Investigator (PI) or Science PI for several life detection instrument and/or astrobiology/space biology projects, and is broadly interested in searching for and expanding the presence of life beyond Earth while enabling a sustainable human future. He previously served as a Research Scientist at MIT in the Department of Earth, Atmospheric and Planetary Sciences and a Research Fellow at the Massachusetts General Hospital in the Department of Molecular Biology. He serves as a Scott M. Johnson Fellow in the U.S. Japan Leadership Program.

Vince Calhoun, Ph.D., is the founding director of the tri-institutional Center for Translational Research in Neuroimaging and Data Science (TReNDS) where he holds appointments at Georgia State, Georgia Tech and Emory. He is the author of more than 900 full journal articles. His work includes the development of flexible methods to analyze neuroimaging data including blind source separation, deep learning, multimodal fusion and genomics, neuroinformatics tools. Calhoun is a fellow of the Institute of Electrical and Electronic Engineers, The American Association for the Advancement of Science, The American Institute of Biomedical and Medical Engineers, The American College of Neuropsychopharmacology, The Organization for Human Brain Mapping (OHBM) and the International Society of Magnetic Resonance in Medicine. He currently serves on the IEEE BISP Technical Committee and is also a member of IEEE Data Science Initiative Steering Committee as well as the IEEE Brain Technical Committee.

Education

Masters of Science, Computer Science, Georgia Institute of Technology, 2022

Bachelors of Science, Mechanical Engineering, Georgia Institute of Technology, 2020

Research Expertise

Robot Planning and Control, Embodied Artificial Intelligence, Laboratory Automation, Software Engineering

Selected Publications

Bowles-Welch, A., Byrnes, W., Kanwar, B., Wang, B., Joffe, B., Casteleiro Costa, P., Armenta, M., Xu, J., Damen, N., Zhang, C., Mazumdar, A., Robles, F., Yeago, C., Roy, K., Balakirsky, S. (2021). Artificial Intelligence Enabled Biomanufacturing of Cell Therapies. Georgia Tech Research Institute Internal Research and Development (IRAD) Journal

Byrnes, W., Ahlin, K., Rains, G., & McMurray, G. (2019). Methodology for Stress Identification in Crop Fields Using 4D Height Data. IFAC-PapersOnLine, 52(30), 336–341. https://doi.org/10.1016/j.ifacol.2019.12.562

Byrnes, W., Kanwar, B., Damen, N., Wang, B., Bowles-Welch, A. C., Roy, K., & Balakirsky, S. (2023). Process Development and Manufacturing: A NEEDLE-BASED AUTOSAMPLER FOR BIOREACTOR CELL MEDIA COLLECTION. Cytotherapy, 25(6), S172.

Wang, B., Kanwar, B., Byrnes, W., Costa, P. C., Filan, C., Bowles-Welch, A. C., ... & Roy, K. (2023). Process Development and Manufacturing: DIGITAL TWIN-ENABLED FEEDBACK-CONTROLLED AUTOMATION WITH INTEGRATED PROCESS ANALYTICS FOR BIOMANUFACTURING OF CELL THERAPIES. Cytotherapy, 25(6), S206-S207.

Professional Activities

STEM@GTRI Program Mentor

IEEE Member

Sam Brown's lab studies the multi-scale dynamics of infectious disease. Their goal is to improve the treatment and control of infectious diseases through a multi-scale understanding of microbial interactions. Their approach is highly interdisciplinary, combining theory and experiment, evolution, ecology and molecular microbiology in order to understand and control the multi-scale dynamics of bacteria pathogens.

Dr. Brewster's clinical practice is focused on general vascular surgery and peripheral arterial disease, and his affiliations include Emory University Hospital and serving as section chief of vascular surgery at the Atlanta VA Healthcare System.

As a surgeon-scientist, his joint affiliations with the Atlanta Clinical and Translational Science Institute and the Wallace Coulter Department of Biomedical Engineering at Georgia Tech/Emory have given him access to an exceptional pool of collaborators, and he has received a steady stream of various federal, foundation, and industry grants.

Dr. Brewster's laboratory focuses on investigations of the biomechanical mechanisms that contribute to pathologic vessel remodeling in peripheral vascular disease, develops regenerative strategies for use in ischemic tissue, and works to improve the function of patients who succumb to major amputation.