"Sleep and Electroencephalography Biomarkers of Alzheimer's Disease,"
NIH National Institute of Aging (NIA), (PI with Neurology, Washington University in St. Louis), 09/15/2018 to 5/31/2023.
PI of multi-university grant
"Advanced Machine Learning Techniques for Adaptive Radars in Nonstationary Environments," AFOSR, (Co-PI's are with University of Pittsburgh and Oak Ridge National Research Lab), 9/2016 to 9/2020.
"Modeling And Tracking Of Freezing Of Gait In Parkinson Disease,"
Clinical and Translational Research Funding Program (CTRFP) through the Institute of Clinical and Translational Sciences (ICTS), WUSTL, (Co-Investigator's are with Washington University in St. Louis, Program in Physical Therapy and Department of Neurology), 3/2018 to 2/2019.
"Targeting Slow Wave Sleep to Control Neuronal Activity and Amyloid-Beta Dynamics,"
NIH, (PI with Neurology, Washington University in St. Louis), 10/2015 to 12/2016, and 1/2018 to 12/2018.
"Metamorphic Cities: A Computational Approach to Sustainability,"
I-CARES, (PI with Washington University in St. Louis, Architecture), 5/2016 to 5/2019.
"Quantifying Benefits of Vacant Land Utilization in Shrinking Cities,"
University Research Strategic Alliance (URSA) Program,
(PI is C. Freixas, School of Architecture, Sam Fox School of Design & Visual Arts, Washington University in St. Louis), 9/2014 to 8/2015.
(with multi-PIs: Drs. Hari Eswaran and Curtis L. Lowery of UAMS)
"Tracking Labor with Uterine Electrophysiological Recordings and Multi-Scale Model,"
NIH National Institute of Biomedical Imaging and Bioengineering
9/2013 to 8/2015.
"Energy Consumption Profiling and Occupant Behavior Learning for Efficient Energy Use in Buildings ,"
I-CARES, (Co-PI's are with Washington University in St. Louis, and Emerson Climate Technologies),
5/2013 to 4/2014.
"Co-Prime Sensor Array Signal Processing ,"
1/2013 to 3/2018.
"Radar Methods in Urban Environments,"
8/2011 to 7/2016.
"MIMO Radar Processing with Realistic Clutter Modeling,"
4/2008 to 12/2011.
Adaptive Waveform Design for Full Spectral Dominance,"
DoD through AFOSR,
(funded co-PI's are with
Arizona State University,
University of Illinois at Chicago,
University of Maryland,
and Purdue University.
Independently funded co-PI's are with Raytheon Missile
Systems and University of Melbourne, Australia), 7/2005 to 12/2010.
"Acoustic Vector-Sensor Array Processing in Strong Interference and Flow Noise,"
3/2009 to 9/2010.
"Biologically Inspired Coupled Antenna System,"
5/2009 to 5/2010.
"Biologically Inspired Sensor Arrays with Enhanced Localization and
6/2007 to 5/2008.