Dr. Subgranon’s research involves the general area of structural engineering with emphasis on performance-based design, structural optimization, natural-hazard mitigation, and multicriteria decision analysis. She aims to expand her research efforts to areas that contribute to the resilience and sustainability of the built environment, such as life-cycle engineering, post-hazard recovery, and data-informed optimal design and maintenance of infrastructure systems.
Applied AI and data analytics,Energy,Materials Under Extreme Environments,Soft matter/biomaterials/tissue engineering,Lifelong workforce development,Building a culture of inclusion and innovation
Foundational AI,Soft matter/biomaterials/tissue engineering,Immunological engineering,Neuroengineering,Personalized medicine,Health care operations and manufacturing,Regenerative Medicine,Personalized learning,Lifelong workforce development,Experiential learning
Dr. Curtis R. Taylor is the Associate Dean for Student Affairs for the Herbert Wertheim College of Engineering and Associate Professor of Mechanical and Aerospace Engineering at the University of Florida (UF). He received his B.S. degree (1998) in mechanical engineering from the University of Maryland, and his M.S. (2002) and Ph.D. (2005) as a National Science Foundation (NSF) Integrated Graduate Education, Research, and Training (IGERT) Fellow in physics (microelectronics-photonics) from the University of Arkansas.…
Requirements engineering, testing and reliability, software engineering education and technology transfer.
Wave mechanics, coastal hydrodynamics, surf zone processes.
Foundational AI,Applied AI and data analytics,Cybersecurity,Internet of Things,Humans and technology,Personalized learning,Invention faculty track
Geotechnical centrifugal testing, construction, construction
management, public works, civil engineering materials.
Solid state electronics and nanotechnology.
Concrete and asphalt materials, concrete and asphalt pavements,
Applied AI and data analytics,Resource management
Applied AI and data analytics,Semiconductor,Energy,Space,Materials Under Extreme Environments,Lifelong workforce development,Building a culture of inclusion and innovation,Experiential learning
Laboratory testing, centrifugal modeling, soil mechanics and
Professor Trainham’s research interests are in renewable energy. Before joining UF, Trainham spent most of his professional career in industry: four years as chief technology officer JDC Phosphate, four years as vice president, distinguished fellow and director of the Research Triangle Solar Fuels Institute at RTI International, senior vice president of Sundrop Fuels (a solar fuel company), served as global vice president of Science and Technology at PPG Industries, and had a 25-year career at the DuPont Company.…
Biomedical engineering, rheology, fluid mechanics.
I am an Associate Professor in the Department of Computer and Information Science and Engineering (CISE) at the University of Florida. My research focuses on the security of mobile systems, with a concentration on telecommunications infrastructure and mobile devices. My research has uncovered critical vulnerabilities in cellular networks, made the first characterization of mobile malware in provider networks and offers a robust approach to detecting and combatting Caller-ID scams.…
Nuclear fuel cycle, radioactive wastes, reactor analysis, engineering application of radioisotopes, robotics, intelligent databases, system analysis.
Fluid dynamics, turbulence, low-order modeling and aeroacoustics.
Applied AI and data analytics,Transportation,National Security,Diverse talent pipeline
Algorithms, computational geometry, mesh generation, scientific computing, and computational biology.
His research and teaching interests are in the areas of stochastic optimization, risk management, financial engineering and military operations research.
Physical oceanography, observations and numerical modeling of estuarine and coastal hydrodynamic processes, estuary-ocean exchange, competition between buoyancy and mixing.
Foundational AI,Internet of Things,Personalized learning,Lifelong workforce development,Experiential learning
Influence of microdomains on diffusion in biomembranes, transport in porous materials with hierarchy of pore sizes, transport-optimized catalysis and separations.
Medical imaging, computer vision & image processing, computer graphics and visualization, statistical learning and applied mathematics.