Research: Smart and Resilient Cyber-Infrastructure
Designing systems that ensure security, efficiency, and resilience.
- Manufacturing technologies for security printing, artificial electromagnetic materials, adaptive optics, photovoltaic cells, microwave frequencies, and chemical sensing
- 2D nanomaterials for quantum computing and quantum communications technologies
- Sensors for autonomous cyber-physical systems
- Adaptive and real-time physical attack detection and recovery in autonomous cyber-physical systems
- Vehicle swarms for autonomous mining operations
Research Projects:
Adaptive and Real-time Physical Attack Detection and Recovery in Autonomous Cyber-physical
Systems
Algorithm design and implementation for Bayes Inference Engine
Algorithm migration of analysis of radiographic data for density to GPU with ray tracing
cores
Antennas & Microwave Sensing: Designing microwave systems for rescue missions, infrastructure
inspections, and electronic warfare
CDECM - An Open-Source Co-Design Ecosystem for Circular Manufacturing
Decentralized Cyber-Physical Systems for Resilient Wildfire Management Using Satisficing
Strategies
Developing and maintaining a software system for worldwide accessible remote control
of LZ detector operations underground with secure protocol
Electron scattering in nanoscale Metal-Oxide-Semiconductor Field-Effect Transistors
Ferroelectric Ordering and Polarization-Coupled Transport Properties in 2D Van der
Waals Materials
Quantum Materials Institute: 2D Materials, heterostructures and metasurfaces for compact,
efficient entangled photon-pair generation for quantum communications
Quantum Transport: Studying electron behaviors in semiconductor devices for designing
smaller integrated chips
Realization of a Cyber-Physical System with Satisficing Strategies to Enhance Robustness
in Intelligent Circular Manufacturing