374 B Agricultural Engr Sciences Bld
For more information
- BEng, Royal Melbourne Institute of Technology, 2003, Melbourne, Australia
- M.S., Georgia Institute of Technology, 2008, Atlanta, GA
- Ph.D., Georgia Institute of Technology, 2010, Atlanta, GA
- Assistant Professor, Agricultural and Biological Engineering, University of Illinois Urbana-Champaign, 2016-current
- Assistant Professor, Oklahoma State University Mechanical and Aerospace Engineering, 2013-2016
- Postdoctoral associate, Massachusetts Institute of Technology, Laboratory for Information and Decision Systems, 2011-2013
Other Professional Employment
- Research Engineer, German Aerospace Center, Braunschweig, Germany, 2004-2006
Major Consulting Activities
- IMS consulting, expert witness for patent litigation,
Other Professional Activities
- Girish's ongoing research interest is in theoretical insights and practical algorithms for adaptive autonomy, with a particular application focus on field-robotics and Unmanned Aerial Systems (UAS). He has authored over 90 peer reviewed publications in adaptive and fault tolerant control, sequential decision making and mission planning, aircraft system identification, distributed sensing and inference, Bayesian nonparametric learning for control, and vision aided navigation and control. His recent research is focused on the immediate need to create software capable of adapting and learning from experience in various domains where distributed operation is essential, including agriculture, road-networks, energy, and defense.
- On the practical side, Girish has led the development and flight-testing of over 10 research UAS platform. UAS autopilots based on Girish’s work have been designed and flight-tested on six UASs, including by independent international institutions. Girish is a Primary Investigator on NSF, AFOSR, NASA, and DOE grants. He is the winner of the Air Force Young Investigator Award, and the Aerospace Guidance and Controls Systems Committee Dave Ward Memorial award.
- Machine Learning for machine vision
- Adaptive Control and Reinforcement Learning
- Autonomous Systems and Artificial Intelligence
- Autonomous vehicular technology, UAVs
- Bioelectronics and Bioinformatics
- Cyberphysical systems and internet of things
- Data science and analytics
- Data/Information Science and Systems
- Decision science
- Distributed computing and storage systems
- Game theory
- Human computer interactions
- Machine learning
- Machine vision
- Sensing systems
- Smart infrastructures
- Speech, language, and audio processing
- Wearable and mobile computing
Chapters in Books
- Nonlinear flight control techniques for unmanned aerial vehicles Girish, C. V., Emilio, F., Jonathan, H. P. & Hugh, L. Jan 1 2015 Handbook of Unmanned Aerial Vehicles. Springer Netherlands, p. 577-612 36 p.
- Linear flight control techniques for unmanned aerial vehicles How, J. P., Frazzoli, E. & Chowdhary, G. V. Jan 1 2015 Handbook of Unmanned Aerial Vehicles. Springer Netherlands, p. 529-576 48 p.
- Adaptive control of unmanned aerial vehicles: Theory and flight tests Kannan, S. K., Chowdhary, G. V. & Johnson, E. N. Jan 1 2015 Handbook of Unmanned Aerial Vehicles. Springer Netherlands, p. 613-673 61 p.
Selected Articles in Journals
- Geramifard A., Walsh T. J., Tellex S., Chowdhary G., Roy N., How J. P., A Tutorial on Linear Function Approximators for Dynamic Programming and Reinforcement Learning, Foundations and Trends in Machine Learning (FTML), vol. 6, No. 4, December 2013.
- Chowdhary G., Johnson E., Magree D., Wu D., Shein A., GPS-Denied Indoor and Outdoor Monocular Vision Aided Navigation and Control of Unmanned Aircraft, Journal of Field Robotics (JFR), Vol 30, No. 3, pp 415-438, March 2013.
- Chowdhary G., MÃ¼hlegg M., Johnson E., Exponential Stability Guarantees for Adaptive Systems using Online Recorded Data, Internatinal Jounral of Control (IJC), Vol 87, No. 8,pp 1583-1603, Dec 2013.
- Chowdhary G., Jategaonkar R.., Parameter Estimation from Flight Data Applying Extended and Unscented Kalman Filter, Aerospace Science and Technology (AST), Vol. 14, no. 2, pp. 106-117, March 2010.
- McAllister, W., Osipychev, D., Davis, A., & Chowdhary, G. (2019). Agbots: Weeding a field with a team of autonomous robots. Computers and Electronics in Agriculture, 163, 104827.
- Higuti Vitor A. H., Velasquez A. E. B., Magalhaes D. V., Becker M., Chowdhary G., Under canopy light detection and ranging-based autonomous navigation, Journal of Field Robotics (JFR), Vol. 36, no. 3, pp. 547-567, May 2019.
- Distributed learning for planning under uncertainty problems with heterogeneous teams: Scaling up the multiagent planning with distributed learning and approximate representations Ure, N. K., Chowdhary, G., Chen, Y. F., How, J. P. & Vian, J. Apr 2014 In : Journal of Intelligent and Robotic Systems: Theory and Applications. 74, 1-2, p. 529-544 16 p.
- Concurrent learning adaptive control for systems with unknown sign of control effectiveness Reish, B. & Chowdhary, G. 2014 In : Proceedings of the IEEE Conference on Decision and Control. 2015-February, February, p. 4131-4136 6 p., 7040032
- Bayesian nonparametric adaptive control using Gaussian processes Chowdhary, G., Kingravi, H. A., How, J. P. & Vela, P. A. Mar 1 2015 In : IEEE Transactions on Neural Networks and Learning Systems. 26, 3, p. 537-550 14 p., 6823109
- An automated battery management system to enable persistent missions with multiple aerial vehicles Ure, N. K., Chowdhary, G., Toksoz, T., How, J. P., Vavrina, M. A. & Vian, J. 2015 In : IEEE/ASME Transactions on Mechatronics. 20, 1, p. 275-286 12 p., 6701199
- Online Regression for Data With Changepoints Using Gaussian Processes and Reusable Models Grande, R. C., Walsh, T. J., Chowdhary, G., Ferguson, S. & How, J. P. Jun 14 2016 In : IEEE Transactions on Neural Networks and Learning Systems.
Articles in Conference Proceedings
- Kayacan E., Zhongzhong Z., Chowdhary G., Embedded High Precision Control and Corn Stand Counting Algorithms for an Ultra-Compact 3D Printed Field Robot, Robotics Science and Systems (RSS), Pittsburg, PA, June 2018, acceptance rate 31%. Winner of best systems paper award.
- Whitman J., Chowdhary G., Learning Dynamics Across Similar Spatiotemporally Evolving Systems, Conference on Robot Learning (CORL), San Jose, CA, Nov 2017, accepted for long-talk, long-talk acceptance rate 10%.
- Kingravi H., Maske H., Chowdhary G., Kernel Observers: Systems-Theoretic Modeling and Inference of Spatiotemporally Varying Processes, Neural Information Processing Systems (NIPS), Barcelona, Spain Dec 2016, acceptance rate 22.5%.
- Ãœre N. K., Geramifard A., Chowdhary G., How J., Adaptive Planning for Markov Decision Processes with Uncertain Transition Models via Incremental Feature Dependency Discovery, European Conference on Machine Learning (ECML), Bristol, UK 2012. Acceptance rate < 25%.
- Joshi G., Chowdhary G., Deep Model Reference Adaptive Control, IEEE Conference on Decision and Control (CDC), Nice FR, Dec 2018.
- Madhusudhan. M., Chowdhary G., Deep SRGM, Sequence Classification and Ranking in Indian Classical Music via Deep Learning, International Society of Music Information Retrieval (ISMIR), Delft, Nethelands, Sept 2019.
- Joshi G., Chowdhary G., Adaptive Control using Gaussian-Process with Model Reference Generative Network, IEEE Conference on Decision and Control (CDC), Miami, FL, Dec 2018.
- IEEE Transactions of Neural Networks and Learning Systems, Associate Editor
- ASABE, member
- AIAA, Associate Fellow
- IEEE, Senior Member
- Best paper award at the 2012 AIAA Guidance Navigation and Control Conference, out of over 600 papers
- Best paper award at the 2018 Robotics Science and Systems conference under the best systems paper category
- Air Force Office of Scientific Research (AFOSR) Young Investigator Research Program (YIP) award (AFOSRâ€™s most prestigious young faculty grant), 2015
- Dave Ward Memorial award by Aerospace Control Guidance and Systems Group (ACGSC) for outstanding contributions to Aerospace GNC, 2015
- ABE 424 - Prnpl Mobile Robotics
- ABE 498 - Intro to Field Robotics
- ABE 594 - Graduate Seminar
- ABE 598 - Autonomous Decision Making
- ECE 498 - Principles of Mobile Robotics
- TSM 594 - Graduate Seminar