Nonlinear systems and control; modeling and control of partial differential equations described systems; stochastic control and optimization; statistical and machine learning estimation and forecasting
I study how gene expression is spatio-temporally orchestrated during cell growth, division and differentiation; by global mechanisms based on feedback between metabolism and chromatin.
Current Research: Experiential Engineering Education via Innovation and Invention. Focus on the Technical Design, Energy System, and Medical Engineering (MedEng) Design Innovations via Prototyping and Proof of Concept.
Past Research: High-Temperature Superconductors, Two-Dimensional Electron Gas, and Engineering Physics Education.
Image and signal processing as applied to biophysical data designed to answer fundamental questions about the molecular basis of living systems, and progression of Alzheimer's Disease
Spectrum policy to encourage technical innovation
Terahertz spectrum technology and spectrum policy
technology for spectrum monitoring and spectrum enforcement
Theoretical and applied electromagnetics, theoretical and applied optics, scattering theory, wave inverse problems, noniterative inverse scattering, physics-based signal processing and imaging, change detection theory and applications, compressive sensing, electromagnetic information theory, analysis and design of optical and quantum holographic detectors
Devices, circuits and sensing; antenna analysis, modeling, design, and optimization; subsurface scattering analysis; computational methods of electromagnetics; novel radar system specification and design; explosives detection