Homogeneous and heterogeneous catalysis,
quantum chemical calculations,
Applied AI and data analytics,Semiconductor,Energy
Matthew Hale received his BSE summa cum laude from the University of Pennsylvania and received his MS and Ph.D. from Georgia Tech. His work is driven by designing and analyzing multi-agent coordination algorithms that function well under challenging conditions, such as asynchronous information sharing, noisy communications, and user privacy requirements. His work deploys these algorithms on teams of flying and ground robots, providing both validation of the underlying theory and further research directions.…
Research Interests: Monte Carlo methods; neutron transport; nuclear safeguards and nonproliferation
Applied AI and data analytics,Sensors,Energy,Space,Nuclear detection,National Security,Materials Under Extreme Environments,Personalized learning,Experiential learning,Diverse talent pipeline,Public policy
Surface and groundwater quality modeling, applications of operations research to water resources, environmental systems.
Structures, non-linear analysis, computer methods, finite
analysis of bridges.
Wireless networks, mobile computing, pervasive computing, mobile databases, internet computing, E-services and E-commerce.
Foundational AI,Applied AI and data analytics,Information storage and processing,Semiconductor,Energy,Materials Under Extreme Environments,Lifelong workforce development,Building a culture of inclusion and innovation,Experiential learning,Diverse talent pipeline
Construction management, computer applications, estimating,
scheduling and planning.
kinetic and isotopic experiments with state-of-the-art density functional theory calculations to achieve an atomic level understanding of heterogeneous catalysis.
Geotechnical engineering, soil and foundation dynamics, site characterization, engineering geophysics, nondestructive testing, instrumentation and data acquisition.
Applied AI and data analytics,Internet of Things,Sensors,Experiential learning
Surface reactions, characterization of surfaces and interfaces, Auger spectroscopy, electronic and optoelectronic materials, thin films, gas/solid reactions.
Applied AI and data analytics,Internet of Things,Humans and technology,Resource management
Applied AI and data analytics,Internet of Things,Humans and technology,Automated construction,Hazards engineering
Research Interests: Advanced human tissue fabrication, 3D laser- and inkjet- based printing, precision machining, intelligent manufacturing.