Venkat Shastri, PhD

Venkat Shastri
Phone: (619) 260-2797
Office: Belanich Engineering Center 218

Associate Dean of Graduate Programs, De Sanctis Professor of Engineering and Entrepreneurship, and Director of Industry Partnership

  • PhD, University of Massachusetts

Venkat Shastri is currently Associate Dean of Graduate Programs, De Sanctis Professor of Engineering and Entrepreneurship, and Director of Industry Partnerships at the Shiley-Marcos School of Engineering. Prior to joining USD, he served as Chief Industry Advisor of PCN Technology, Inc., a position he assumed in December 2013 to strengthen the company’s strategic positioning in the market. In the preceding eight years, as President and CEO, he grew PCN into a market leader in communication, industrial networking and energy management solutions.

Between 2002 and 2004, Venkat was VP of Engineering at Palomar Technologies, a packaging equipment and process solutions company serving the semiconductor, telecom and medical industry. At Palomar, he led engineering, and was responsible for all product releases and product roadmaps. Before this, he was Senior Director of Engineering and Product Development at KLA-Tencor, where he managed its automation products and solutions, and was a key customer interface to Intel.

From 1988 - 2000, at JPL and then at SRI International, Venkat conducted research in robotic manipulation, legged locomotion, adaptive control and nonlinear systems. He grew the latter into a center of excellence in bio-automation. At JPL, he worked in the Space Telerobotics, Mars Pathfinder and Sample Return programs.

Venkat received his PhD in Electrical and Computer Engineering from the University of Massachusetts in 1988. He is the author of a book entitled, “Dexterous Robot Hands,'' (Springer-Verlag, 1990), and has published over 30 scientific articles in journals, magazines and conferences. He was Research Scientist at Yale University (1994 – 1996) and Consulting Professor at Stanford (1998 – 2000).

He has served on the Editorial Boards of IEEE Computer Society and IEEE Control Society, and led the publication of two special issues, in the IEEE Robotics and Automation Transactions and International Journal of Robotics Research. He holds patents in controls, robotics, Bio-MEMS, and electro-active polymers, and has served as Principal or Co-Principal Investigator on large multi-center research grants and contracts.

His passion, current research and commercial endeavors are focused on Sustainability. Venkat is a San Diego resident, and enjoys hiking trails all over the State of California.

Scholarly Work

  • With Codd, D., Stewart, E., Gil, P., and Calvet, N., Alternative Energy Systems: Engineering Principles and Applications. 2020.
  • With Narendra, K., "Analysis and Control of Fractional Order Derivative Systems with Arbitrary Initial Conditions." 19th Yale Workshop on Adaptive and Learning Systems, New Haven, CT, Submitted.
  • With Stewart, E. and Ciaran, R., "Transformer Monitoring Using Kalman Filtering." IEEE Conference on Control Technology and Applications, , 2017.
  • "Implementing Energy Efficient Building Networks with IP-485® Technology." Proc. IEEE Online Conference on Green Communications, , 2012.
  • With Kornbluh, R., "Engineering a Muscle: An Approach to Artificial Muscle Based on Field-activated Electroactive Polymers" in Neurotechnology for Biomimetic Robots. 2002.
  • With Pelrine, R., "Programmable Biosystems using Levitated Bead Arrays" in High Throughput Combinatorial Methods. 2002.
  • With Eckerle, J., "A Biologically Inspired Hexapedal Robot Using Field-Effect Electroactive Artificial Muscles." Proc. SPIE Smart Structures and Materials, , 2001, p. 4332.
  • With Pelrine, R., "Applications of Dielectric Elastomer Artificial Muscles." Proc. SPIE Smart Structures and Materials: Electroactive Polymer Actuators and Devices (EAPAD), , 2001, pp. 335-349.
  • With Meijer K. and Full, R., "Evaluating the muscle-like properties of an Electroactive Polymer actuator." Advanced Tech. for Commercial Development of Novel Applications, Coronado, CA, 1999.
  • "A Biologically Consistent Model of Legged Locomotion Gaits," Biological Cybernetics, vol. 76, no. 6, pp. 429-440, 1997.
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