Engineering and numerical analysis, reactor analysis, computer
Microstructure-processing relationships and phase evolution in intermetallics and composites, materials chemistry, electron microscopy and related materials characterization techniques.
Advanced space power and propulsion reactor systems, energy
conversion, advanced terrestrial nuclear power reactors, reactor
operations and safety.
Cellular and molecular bioengineering, biomolecular cell mechanics, mathematical biology.
Neural mechanisms of perception and motor behavior (using both experimental and modeling approaches), neuronal oscillations and attentional control, information processing in the brain, development of advanced signal processing methods for the analysis of nonstationary, multivariate neurobiological data, mathematical analysis of oscillatory neural networks, behavior and brain analysis of sensorimotor coordination, first passage time problems in stochastic processes, theory of nonlinear dynamical systems
Adaptive nonlinear control, robotics, human-machine interactions, biomedical, visual servo control
Databases, Data-mining, Machine Learning, Approximate Query Processing, Randomized Algorithms, Classification and Regression.
Structure-property-processing relationships of multiphase polymers, liquid crystalline polymers and thermosets, magnetic field processing of polymers, ionomers.
Irrigation efficiency and water quantity, irrigation and drainage impact on water quality.
Embedded test of mixed-signal/RF ICs, microwave ICs, mixed-mode s- parameters, interconnect, high-frequency characterization, analog ICs, power amplifiers.
Traffic operations, signal control optimization, highway capacity analysis, and traffic simulation.
Steel structures, cold-formed steel, pre-engineered metal
Activation analysis, radiation and radioisotope applications,
nuclear spectrometry and instrumentation, plasma kinetics,
fission and fusion systematics.
Assistant Professor of Nuclear Engineering at the University of Florida (Current focus is to build a nuclear detection lab with accompanying research in neutron detection, fission physics and detector system development. Research areas include: neutronics in deuterated environments, Deuterium based recoil detectors, correlated fission neutron investigations.)
Computer graphics and visualization, (multivariate) spline interpolation and approximation algorithms, signal processing, reconstruction of volumetric data.