Professor, Electrical, Computer, and Systems Engineering
John's research focuses on control theory and applications: hard problems at the intersection of multiple disciplines, characterized by complex, nonlinear, and imprecise models and multiple design objectives.
Jin, Q., Wen, J.T., Narayan, S. (2022) Effect of Oscillatory Heat Load on Pressure Drop Oscillation, International Journal of Heat and Mass Transfer, 194
He, H., Saunders, G., Wen, J.T. (2022) Robotic Fabric Fusing using a Novel Electroadhesion Gripper, IEEE International Conference on Automation Science and Engineering, 2022-August, pp.2407-2414.
Inyang-Udoh, U., Hu, R., Mishra, S., Wen, J.T., Maniatty, A.M. (2022) Model-free Multi-Objective Iterative Learning Control for Selective Laser Melting, Proceedings of the American Control Conference, June, 2022, pp.2879-2885.
Jin, Q., Okaeme, C.C., Wen, J.T., Narayanan, S. (2021) A Comparison of Finite Element and Lumped Modeling Techniques to Analyze Flow Boiling in Microchannels, IEEE Transactions on Components, Packaging and Manufacturing Technology, 11, pp.1655-1667.
Peng, Y.C., Chen, S., Jivani, D., Wason, J., Lawler, W., Saunders, G., Radke, R.J., Trinkle, J., Nath, S., Wen, J.T. (2021) Sensor-guided assembly of segmented structures with industrial robots, Applied Sciences (Switzerland), 11, 2021.