- I obtained my PhD in Electrical and Computer Engineering from the University of Arizona in May 2022. My dissertation work provides a workflow of controller design, synthesis, and their real-world deployment for societal-scale systems such as connected-and-autonomous vehicles, and traffic control. + I am Assistant Professor in Electrical and Computer Engineering (ECE) at The University of Alabama in Huntsville. I obtained my Ph.D. (2022), MS(2017) in ECE, MS(2022) in Statistics and MS(2020) in Optical Sciences from the University of Arizona. My dissertation work provides a workflow of controller design, synthesis, and their real-world deployment for societal-scale systems such as connected-and-autonomous vehicles, and traffic control. I am also directing AARC lab where I am investigating problems in data-driven and learning-enabled control for cyber-physical systems. I contributed to several projects including (1) Domain-Specific Modeling Techniques for Cyber-Physical Systems, (2) Cyber-Physical Systems Virtual Organization: Active Resources, (3) Control of Vehicular Traffic Flow via Low Density Autonomous Vehicles, (4) REU Site: Cognitive and Autonomous Test Vehicles.
My most recent project is Lagrangian Traffic smoothing using Connected-and-Autonomous Vehicles that concluded on Nov 2022. Visit project's website https://circles-consortium.github.io/ for upto date information. I also worked on FHWA-funded project on model-based desig of traffic signal controller for interfacing with SUMO.
-Some of my research at the University of Arizona were done in free-space optical communication to improve channel capacity and bit-error rate using quantum information-theoretic phenomena such as squeezin and quantum-entanglement.
Research Interests: Intelligent Transportation, Cyber-physical Systems, Machine Learning, Quantum Information Science
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