Applied AI and data analytics,Semiconductor,Energy,Space,Materials Under Extreme Environments
Foundational AI,Applied AI and data analytics,Internet of Things,Information storage and processing,Sensors,Automated construction,Hazards engineering,Energy,Nuclear detection,Materials Under Extreme Environments,Soft matter/biomaterials/tissue engineering,Public Health,Personalized learning
Design optimization, design sensitivity analysis, computational mechanics, computational acoustics, mesh-free method.
Applied AI and data analytics,Sensors
Software engineering; internet technologies, real-time control, industrial applications of microcontrollers.
Molecular and multi-scale modeling, nanoscale transport phenomena, and non-equilibrium statistical mechanics.
Structural behavior under severe dynamic loads, survivability and fragility of critical
facilities subject to blast, shock,
impact and vibrations.
Computer aided design, rapid prototyping, design optimization and finite element methods.
Applied AI and data analytics,Internet of Things
Numerical simulations of statistical mechanical problems, colloidal suspensions, flow in heterogeneous media.
Computer engineering, database management, computer
architecture.
Information technology planning and support, networking, integration, database development.
Design and modeling of IC fabrication process, computer modeling of semiconductor process and device behavior, numerical solution of partial differential equations.
Precision agriculture, variable rate application, machine systems design, sensor development, instrumentation, machine vision/image processing, farm automation.
Applied AI and data analytics,Internet of Things,Sensors
Statistical signal and array processing, spectral estimation, and signal processing applications in radar, acoustics, and communications.
Radio frequency integrated circuits, microwave/millimeter-wave electronics, wireless system engineering, electromagnetic waves.
Robust control, uncertainty modeling, aeroservoelasticity, nonlinear limit cycle oscillations, flight test techniques, time-frequency wavelet analysis.
Applied AI and data analytics,Space,Personalized learning,Experiential learning
Angela S. Lindner received a B.S. degree in chemistry from the College of Charleston in South Carolina in 1983 and an M.S. degree in chemical engineering from Texas A&M University in 1987. Her Master’s thesis work, funded by the Texas Transportation Institute, involved use of phosphogypsum, a byproduct of phosphoric acid production, in road construction, and this work began her environmentally focused career path.…
Research interests include high-dimensional learning, stochastic optimization, algorithms and their applications to medical decision-making & traffic modeling.
Foundational AI,Applied AI and data analytics,Transportation,Personalized medicine,Health care operations and manufacturing