Areas of Research

Research areas in the VLSI laboratory include high speed, real time computation using analog processor elements; low-voltage, high-performance analog circuit design; analog mixed-mode fault diagnosis of integrated circuits, including parametric fault extraction and hierarchical fault modeling; rapid prototyping of ICs with special emphasis on modular arrays; and integrated circuit design for quality and manufacturability.

Analog & Mixed Signal Labs

• Analog and Mixed-Signal Laboratory

The Biomedical Imaging group brings together faculty members from a number of different disciplines within Electrical Engineering to focus on the acquisition and analysis of biomedical images. A set of core courses provides the student with a background in both medical imaging instrumentation and image processing and analysis, and elective courses are available in both areas. Laboratories have been established in computer-assisted diagnostics, magnetic resonance imaging and optical imaging.

Biomedical Imaging Labs

• Genomic Signal Processing Laboratory
• Magnetic Resonance Systems Lab (MRSL)
• NanoBio Systems Laboratory

Computer Engineering offers research opportunities in the areas of Computer Communications and Networks, multimedia, storage systems, parallel and distributed computing and architecture, fault-tolerant computing and design for testing, computer aided design and testing tools, VLSI design and technologies, high-speed networks and architecture, intelligent systems and controls, and real-time systems and their architecture.

Computer Engineering Labs

• Computer Engineering Laboratory
• Multimedia Communication and Networking Laboratory
• Networking And Information Systems Laboratory
• Parallel & High Performance Laboratory
• Reliability and Testing Laboratory
• Storage Systems Laboratory
• VLSI Computer-Aided Design (CAD) Laboratory

The Control Engineering group conducts research in the areas of linear multivariable systems, robust control and computer aided design, adaptive control, optimization and classical control, non-linear systems, power systems and parallel computation, learning control, knowledge-based systems and fuzzy control.

Research activities in electromagnetics and microwaves span a broad spectrum of applications. In particular the theoretical and experimental aspects of antennas, electromagnetic theory, electromagnetic wave scattering, active and passive microwave and millimeter wave circuits, linear and non-linear optical or microwave guiding systems, and microstrip antennas.

Electro-Magnetics and Microwaves Labs

• Electro-Magnetics and Microwaves Laboratory
• Sensing, Imaging and Communications Systems Laboratory

The energy systems and power electronics program actively pursues research in the areas of system reliability and performance modeling and prediction, system protection and automation, system control and stability, large-scale system computational methodologies and power electronics.

Electric Power Systems and Power Electronics Labs

• Advanced Electric Machines and Power Electronics (EMPE) Laboratory
• Downed Conductor Test facility
• Fuel Cell Power Conditioning Laboratory
• Power Electronics and Clean Power Research Laboratory
• Power Electronics, Motor Drives and Advanced Vehicle Systems Laboratory
• Power Engineering Laboratory
• Power System Automation Laboratory
• Power System Control and Protection Laboratory