Rabindra Tirouvanziam obtained an engineering degree from Agro Paris-Tech, a masters in lung physiology from Université Paris XII and a Ph.D. in development biology also from Agro Paris-Tech, for his work on human xenografts in SCID mice conducted at the Institut d’Embryologie du CNRS et College de France in Nogent-sur-Marne.

He then pursued postdoctoral studies in physiology, genetics, immunology and psychiatry at Stanford University, developing a decade-long translational program focused on collection and deep analysis of patient samples and culminating in phase 2 clinical trials in cystic fibrosis and autism spectrum disorder.

Tirouvanziam moved to Atlanta in 2011, where his translational research group of 10+ members focuses on engineering of the human innate immune system and immunometabolic disease. Main diseases of interest affecting the lung (such as cystic fibrosis, bronchiectasis, COVID-19, and tuberculosis), and other organ systems (diabetes, cold tumors, malaria).

The Lind lab studies microbes that live in the gut of humans and other animals, focusing on single-celled protists and how they interact with the host and other microbes. We use approaches from computational genomics, evolutionary biology, and microbiology.
 

Haonan Lin is an Assistant Professor in the Wallace H. Coulter Department of Biomedical Engineering at Georgia Institute of Technology and Emory University. He leads the Computational Chemical Imaging Group, which focuses on (1) developing vibrational imaging platforms beyond conventional physical limits through computation-driven system design and image reconstruction, and (2) discovering previously unknown biochemical mechanisms and disease biomarkers using high-content chemical imaging data integrated with artificial intelligence and machine learning. Prior to joining Georgia Tech, Dr. Lin was a postdoctoral researcher and later a Research Assistant Professor at Boston University from 2021 to 2025. Dr. Lin received his Ph.D. in Biomedical Engineering from Boston University in 2021 and his B.S. in Engineering Physics from Tsinghua University in 2015.

Dr. Aidun joined the Woodruff School as a Professor in 2003 after completion of a two-year period as program director at the National Science Foundation. He began at Tech in 1988 as an Assistant Professor at the Institute of Paper Science and Technology. Prior, he was a research Scientist at Battelle Research Laboratories, Postdoctoral Associate at Cornell University and Senior Research Consultant at the National Science Foundation's Supercomputer Center at Cornell. 

Dr. Aidun's research is at the intersection between fundamentals of the physics of complex fluids/thermal transport and applications to engineering and biotransport. He has a diverse research portfolio in fluid mechanics, bioengineering, renewable bioproducts and decarbonization of industrial processes. 

A major focus has been to understand the physics of blood cell transport and interaction with glycoproteins (e.g., vWF) with applications to cardiovascular diseases.

Prof. AlRegib is currently the John and Marilu McCarty Chair Professor in the School of Electrical and Computer Engineering at the Georgia Institute of Technology. His group is the Omni Lab for Intelligent Visual Engineering and Science (OLIVES) at Georgia Tech. In 2012, he was named the Director of Georgia Tech’s Center for Energy and Geo Processing (CeGP). He is the director of the Center for Signal and Information Processing (CSIP). He also served as the Director of Georgia Tech’s Initiatives and Programs in MENA between 2015 and 2018. He has authored and co-authored more than 300 articles in international journals and conference proceedings. He has been issued several U.S. patents and invention disclosures. He is a Fellow of the IEEE.

Prof. AlRegib received the ECE Outstanding Graduate Teaching Award in 2001 and both the CSIP Research and the CSIP Service Awards in 2003. In 2008, he received the ECE Outstanding Junior Faculty Member Award. In 2017, he received the 2017 Denning Faculty Award for Global Engagement. He and his students received the Beat Paper Award in ICIP 2019. He received the 2024 ECE Distinguished Faculty Achievement Award at Georgia Tech. He and his students received the Best Paper Award in ICIP 2019 and the 2023 EURASIP Best Paper Award for Image communication Journal.

Prof. AlRegib participated in a number of activities. He has served as Technical Program co-Chair for ICIP 2020 and ICIP 2024. He served two terms as a member of the IEEE SPS Technical Committees on Multimedia Signal Processing (MMSP) and Image, Video, and Multidimensional Signal Processing (IVMSP), 2015-2017 and 2018-2020. He was a member of the Editorial Boards of both the IEEE Transactions on Image Processing (TIP), 2009-2022, and the Elsevier Journal Signal Processing: Image Communications, 2014-2022. He was a member of the editorial board of the Wireless Networks Journal (WiNET), 2009-2016 and the IEEE Transaction on Circuits and Systems for Video Technology (CSVT), 2014-2016. He was an Area Chair for ICME 2016/17 and the Tutorial Chair for ICIP 2016. He served as the chair of the Special Sessions Program at ICIP’06, the area editor for Columns and Forums in the IEEE Signal Processing Magazine (SPM), 2009–12, the associate editor for IEEE SPM, 2007-09, the Tutorials co-chair in ICIP’09, a guest editor for IEEE J-STSP, 2012, a track chair in ICME’11, the co-chair of the IEEE MMTC Interest Group on 3D Rendering, Processing, and Communications, 2010-12, the chair of the Speech and Video Processing Track at Asilomar 2012, and the Technical Program co-Chair of IEEE GlobalSIP, 2014. He lead a team that organized the IEEE VIP Cup, 2017 and the 2023 IEEEE VIP Cup. He delivered short courses and several tutorials at international events such as BigData, NeurIPS, ICIP, ICME, CVPR, AAAI, and WACV.

In the Omni Lab for Intelligent Visual Engineering and Science (OLIVES), he and his group work on robust and interpretable machine learning algorithms, uncertainty and trust, and human in the loop algorithms. The group studies interventions into AI systems to enhance their trustworthiness. The group has demonstrated their work on a wide range of applications such as Autonomous Systems, Medical Imaging, and Subsurface Imaging. The group is interested in advancing the fundamentals as well as the deployment of such systems in real-world scenarios. His research group is working on projects related to machine learning, image and video processing, image and video understanding, subsurface imaging, perception in visual data processing, healthcare intelligence, and video analytics. The primary applications of the research span from Autonomous Vehicles to Portable AI-based Ophthalmology and Eye Exam and from Microscopic Imaging to Seismic Interpretation. The group was the first to introduce modern machine learning to seismic interpretation.

In 2024, and after more than three years of continuous work, he co-founded Georgia Tech’s AI Makerspace. The AI Makerspace is a resource for the entire campus community to access AI. Its purpose is to democratize access to AI. Together with his team, they are developing tools and services for the AI Makerspace via a VIP Team called AI Makerspace Nexus. In addition, he created two AI classes from scratch with innovative hands-on exercises using the AI Makerspace. One class is the ECE4252/8803 FunML class (Fundamentals of Machine Learning) where students learn the basics of Machine Learning as well as eight weeks of Deep learning both mathematically and using hands-on exercises on real-world data. The second class is a sophomore-level AI Foundations class (AI First) that teaches any student from any college the basics of AI such as data literacy, learning, decision, planning, and ethics using theory and hands-on exercises on the AI Makerspace. Prof. AlRegib wrote two textbooks for both classes.

Prof. AlRegib has provided services and consultation to several firms, companies, and international educational and R&D organizations. He has been a witness expert in a number of patents infringement cases and Inter Partes Review (IRP) cases.

Shucong Li is an Assistant Professor in the School of Materials Science and Engineering and School of Physics at the Georgia Institute of Technology. She obtained her PhD in chemistry at Harvard University in 2022 and conducted postdoc research at MIT from 2022 to 2024. She is the recipient of the PMSE Future Leader Award, Caltech Young Investigator Award, and the Foresight Fellowship. Her research interests include the design and fabrication of soft intelligent materials by harnessing dynamic molecular switches, molecular assemblies, and their coupling to mesoscale architectures and macroscale material properties. Her work focuses on developing innovative soft materials with self-regulating capabilities across length and time scales, aiming to create next-generation multifunctional materials with enhanced autonomy to address critical challenges in healthcare, energy, and sustainability.

The Curtis lab is primarily focused on the physics of cell-cell and cell-extracellular matrix interactions, in particular within the context of glycobiology and immunobiology. Our newest projects focus on questions of collective and single cell migration in vitro and in vivo; immunophage therapy "an immunoengineering approach - that uses combined defense of immune cells plus viruses (phage) to overcome bacterial infections"; and the study of the molecular biophysics and biomaterials applications of the incredible enzyme, hyaluronan synthase. A few common scientific themes emerge frequently in our projects: biophysics at interfaces, the use of quantitative modeling, collective interactions of cells and/or molecules, cell mechanics, cell motility and adhesion, and in many cases, the role of bulky sugars in facilitating cell integration and rearrangements in tissues.

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.