Automotive & Off-Road Equipment

  1. 1.Rule-Base Reduction for a Fuzzy Human Operator Performance Model, W.R. Norris, Q. Zhang and R.S. Sreenivas, Applied Engineering in Agriculture, Vol. 22(4), 611-618, 2006. (paper)

  2. 2.A Design Tool for Operator-Adaptive Steering Controllers, W.R. Norris, Q. Zhang, R.S. Sreenivas and J.C. Lopez-Dominguez, Transactions of the ASAE, Vol. 46, No. 3, May/June, 2003.(paper)

  3. 3.A Novel Real-Time Human Operator Performance Model  for Performing Adaptive System Design, W. R. Norris, R.S. Sreenivas, Q. Zhang,  Automation Technology for Off-Road Equipment, Chicago, IL, 2002.  (paper)

  4. 4.An Experimental Assessment of the Feasibility of the Online Tuning of Active Suspension Controller Gains, B.A. Clark and R.S. Sreenivas, “,” Session: Suspension Development & Testing, Document Number: 2002-01-1598, SAE Automotive Dynamics & Stability Conference and Exhibition, May 2002, Detroit, MI, USA. (paper)

  5. 5.Hierarchical Rule-Base Reduction for a Fuzzy Logic Based Human Operator Performance Model,  Q. Zhang, J. Lopez-Dominguez, R. Sreenivas and W.R. Norris, Artificial Neural Networks in Engineering (ANNIE 2001), St. Louis, MO, USA, November.

  6. 6.Virtual Design Tools: A Technique for Performing Qualitative Human-in-the-Loop System Design, W.R. Norris, R.S. Sreenivas, Q. Zhang and J.C Lopez-Dominguez,  Annual Meeting of the American Society of Agricultural Engineers, Sacramento, CA, July-August, 2001. (paper)