Grady Thompson
Student
Master of Applied Science in Electrical and Computer Engineering (MASc)
Electrical and Computer Engineering provides advanced study and research for graduates of electrical or computer engineering, engineering physics, physics, computer science or other related subjects. Facilities are provided for research in: communications and signal processing; computers and computer applications; digital system design, VLSI design and software engineering; electromagnetics; power systems and power electronics; solid state devices; microelectronics, nanoelectronics and optoelectronics; robotics and telerobotics; and systems and control.
| Name | Research Interests |
|---|---|
| Marti, Jose | Computer modelling of response to disasters, Infrastructures Interdependencies Simulation (I2Sim) project, electric power, Energy systems |
| Mesbah, Ali | Computer and Software Systems; software engineering |
| Michelson, David | wireless communications, Propagation and channel modeling, low profile antenna design, wireless communication system performance, EMI/EMC |
| Mirabbasi, Shahriar | Analog and mixed-signal intergrated circuits and systems design, intergrated circuit design with an emphasis on high-speed data communication and signal processing applications |
| Nair, Prashant | Reliability, security, and performance-power efficient memory systems; System-level and architecture-level optimization to enable efficient and practical quantum computers; Reliability, security, and performance-power efficient memory systems, System-level and architecture-level optimization to enable efficient and practical quantum computers |
| Nasiopoulos, Panos | Interactive multimedia (eg, iDTV, DVD), video broadcasting and streaming, multimedia middleware, video indexing and retrieval, digital video watermarking, next generation video and audio processing and compression |
| Neary, Cyrus | Artificial Intelligence; Robotics; Autonomous Systems; Reinforcement learning; Physics-Aware Machine Learning; Artificial Intelligence, Robotics, Autonomous Systems, Reinforcement Learning, Physics-Aware Machine Learning |
| Nojeh, Alireza | Nanostructures (esp based on carbon nanotubes), controlled nanofabrication, electron emission phenomena, electron microscopy, modeling and simulation of nanoscale systems |
| Ordonez, Martin | Energy systems, renewable energy, wind power, solar power, battery systems, fuel cells, electric vehicles, smart grid. |
| Oya, Simon | Privacy; Computer Security; Anonymous communications; Machine learning security and privacy; Searchable encryption; Statistical analysis; Privacy, Computer Security, Anonymous communications, Machine learning security and privacy, Searchable encryption, Statistical analysis |
| Padoan, Alberto | Dynamical systems and control theory; modelling, approximation and robustness of nonlinear systems; biological and data-driven applications; Dynamical systems and control theory, modelling, approximation and robustness of nonlinear systems, biological and data-driven applications |
| Pattabiraman, Karthik | Software Reliability, Computer Security, Fault-tolerant computing, Software Security, Computer System Reliability, Computer Failures, Safety-critical computer systems, software failures, software faults, hardware faults, hardware failures |
| Ripeanu, Matei | Computer Systems; Data Analytics; distributed systems; Graph Analytics; High performance computing; Social Networks; Storage Systems; Computer Systems, Data Analytics, Distributed Systems, Graph Analytics, High Performance Computing, Social Networks, Storage Systems |
| Rohling, Robert | ultrasound; Robotics; Cardiology; ultrasound, robotics, cardiology |
| Rubin, Julia | Computer Systems; software engineering; Software quality, security, and robustness; program analysis; Adversarial robustness, explainability, and interpretability of ML-based systems; Mobile and cloud software; Computer systems, Software engineering, Software quality, security, and robustness, Program analysis, Adversarial robustness, explainability, and interpretability of ML-based systems, Mobile and cloud software |
| Salcudean, Tim | Biomedical technologies, Haptic interfaces, teleoperation and simulators, medical robotics, imaging and interfaces, optimization-based design, prostate cancer |
| Salfi, Joseph | Quantum Physics; Quantum Information; Solid State Physics; Electronic Transport; Mesoscopic Physics; Nanoelectronicx; Micro Technologies; Nano Technologies; Quantum information science and technology; Quantum computers; Quantum Simulators; Machine Learning; Information security; Electronic Transport, Information security, Machine learning, Mesoscopic Physics, Micro Technologies, Nano Technologies, Nanoelectronicx, Quantum Information, Quantum Physics, Quantum Simulators, Quantum computers, Quantum information science and technology, Solid State Physics |
| Servati, Peyman | Energy Systems, Emerging Micro/Nano Technologies |
| Shahrad, Mohammad | cloud computing; serverless computing; Resource Management; Sustainable computing; data center efficiency; Cloud computing, Serverless computing, Resource management, Sustainable computing, Data center efficiency |
| Shekhar, Sudip | Chip design, radio communication, mobile communication, data links, integrated circuits, photonics, CMOS, wireless, electronics, Internet of Things. |
| Stoeber, Boris | Microelectromechanical Systems, MEMS, Microfluidics, Sensor Technology, Biomedical Microdevices, Microelectromechanical Systems (MEMS), Microflow Phenomena, Sensor technology, Integrated microsystems for biomedical applications and for environmental control |
| Takahata, Kenichi | Biomedical Technologies, Emerging Micro/Nano Technologies |
| Tang, Shuo | biophotonics; Biomedical imaging; Biophotonics, Biomedical imaging |
| Thrampoulidis, Christos | |
| Walus, Konrad | Nanoelectronic devices and circuits, quantum-dot cellular automata, single-electron transistors, quantum mechanical simulations |