Dr. Hubbard is known internationally for his work in aeroacoustics for noise control, adaptive structures, spatially distributed transducers, and the extension of modem time domain control methodologies into the spatial domain for the real-time control of distributed systems. He is a member of the National Academy of Engineering, and AIAA and ASME Fellow and a member of The Academy of Medicine, Engineering, and Science of Texas (TAMEST).
A Quantum Approach to Human Cognition and the Autonomy Conundrum in Self Driving Vehicles
– Balas, Chaspari, Freer Logic, Hubbard
Adaptive Responsive Environment for Autism (AREA)
– Chaspari, Ganz, Hipwell, Hubbard, Muliana
An Ethological Approach to Autonomy: Horse Mode Control
– Hasnain, Hubbard, Saripalli
Connecting for a better life: Exploring the human-horse interaction in equine assisted activity
– Hubbard, Hur, Leatherwood, Zoller
Distributed AR/VR Infrastructure for Robotic Experimentation and Simulation (DARES)
– Hubbard, Saripalli
Engaged Learning: Using Neurotechnology to Assess and Improve STEM Outcomes
– Freer Logic, Hong, Hubbard
Real Time Determination of Patient Cognition during Equine-Assisted Therapy
– Hubbard, Hur, Krenek, Lightsey
The Aerial K9: An Ethological Approach to First Response
– Hasnain, Hubbard, Saripalli