Sabiha A. Wadoo specializes in the area of feedback control of nonlinear control systems, intelligent transportation systems and robotics. She received the B.E. degree in electrical engineering from the Regional Engineering College, Kashmir, India, in 2001 and the M.S. degree in electrical engineering, the M.S. degree in mathematics, and the Ph.D. degree in electrical engineering from Virginia Polytechnic Institute and State University (Virginia Tech), Blacksburg, in 2003, 2005, and 2007, respectively. Since 2007, she has been with the New York Institute of Technology where she is an associate professor with the department of Electrical and Computer Engineering. She is the author of numerous journal and conference papers and two books. She is the associate editor for the journal IEEE transactions on Intelligent Transportation Systems.
- Traffic Prediction using Wireless Cellular Networks, University Transportation Research Center (UTRC), 2015
- NYSED - Science and Technology Entry Program (STEP) - 2015-2020. Research Liaison, collaboration with New York Institute of Technology College of Osteopathic Medicine
- Control of Freeway Traffic using Wireless Cellular Networks, IRSC, 2013
- V. Sood, S. Wadoo "Establishing a Cost Effective Control and Robotics Program: Delay based wireless feedback control using LEGO’s", IEEE Integrated STEM Education Conference, Princeton University, NJ, 2015.
- Y. Andrabi, S. Ali, S. Wadoo, M. Patino, D. V. Sahani, “Can a simple CTDI and body weight based estimation serve as a reliable alternative for body diameter based approach for size specific dose estimation (SSDE)?”, Radiological Society of North America (RSNA) 2014 Scientific Assembly and Annual Meeting, November 30 - December 5, 2014, Chicago IL (in collaboration with Harvard University/Massachusetts General Hospital)
- Sabiha Wadoo, “Sliding Mode Control of Crowd Dynamics”, IEEE Transactions on Control Systems Technology, Vol. 21, Issue. 3, 2013
- Hrushikesh Nanal, Sabiha Wadoo, “Establishing a Cost Effective Embedded Control and Robotics Engineering Program: Optimal control of a two wheeled robot”, IEEE LISAT conference, May 2013.
- Rahul Jain, Rajkumar Sugumaran, Sabiha Wadoo, “Establishing a Cost Effective Embedded Control and Robotics Engineering Program: Observer based state feedback control using LEGO's” IEEE Integrated STEM Education Conference, Princeton University, NJ, March 2013.
Honors and Awards
- Associate Editor of IEEE Transactions on Intelligent Transportation Systems (T-ITS)
Courses Taught at New York Tech
- EENG 720: Modern Control Theory
- EENG 715: Multivariable Control
- EENG 270: Introduction to Electronic Circuits
- EENG 425: Principles of Robotics
- EENG 212: Electrical Circuits I
- EENG 341: Signals & Systems
- EENG 665: Linear Systems
- EENG 360: Electronics Laboratory III
- EENG 275: Electronics Laboratory I