- S.R. Pandian, Y. Hayakawa, Y.Kamoyama, and S. Kawamura, 1997, “Practical design of adaptive model-based sliding mode control of pneumatic actuators”, Proc. Advanced Intelligent Mechatronics, AIM'97, Tokyo, Japan.
- S.R. Pandian, Y. Hayakawa, Y.Kanazawa, and S. Kawamura, 1996, “Practical design of a sliding mode controller for pneumatic actuators”, Proc. Japan-USA Symp. on Flexible Automation, Boston, MA, pp. 181 – 188.
- S. Kawamura, W.Choe, S.Tanaka, and S.R. Pandian, 1995, “Development of an ultra-high speed robot FALCON using wire drive system”, Proc. IEEE Int. Conf. Robotics and Automation, Nagoya, Japan, pp. 215 – 220.
- S.R. Pandian and S. Kawamura, 1994, “Force/position learning control of multiple robot manipulators”, Proc. Japan-USA Symp. on Flexible Automation, Kobe, Japan, pp. 955-962.
- M. Hanmandlu and S.R. Pandian, 1993, “A model-based sliding mode controller for robot manipulators”, Proc. IEEE Conf. on Decision and Control, San Antonio, TX, pp. 2155-2156.
- S.R. Pandian and S. Kawamura, 1993, “Hybrid force/position control for robot manipulators based on a D-type learning law”, Proc. IEEE/Nagoya University WWW on Learning and Adaptive Systems, Nagoya, Japan, pp. 61-68.
- S.R. Pandian and M.Hanmandlu, 1991, “Decentralised model-based control of a class of large-scale, interconnected systems”, Presented at the IEEE Asia-Pacific Region 10 International Conference on EC3-Energy, Computer, Communication and Control Systems, New Delhi, India.
- S.R. Pandian and M.Hanmandlu, 1991, “Stability of generalised model-based control of robot manipulators”, Proc. Int. Conf. on Intelligent Robotics, Bangalore, India, pp. 566-575.
- S.R. Pandian, M.Hanmandlu and M.Gopal, 1988, “A decentralised variable structure model following controller for robot manipulators”, Proc. IEEE Int. Conf. on Robotics and Automation, Philadelphia, PA, pp. 1324-1328.
- S.R. Pandian, M.Hanmandlu, and M.Gopal, 1988, “A decentralised high gain controller for trajectory control of robot manipulators”, Proc. IEE Int. Workshop on Robot Control: Theory and Applications, University of Oxford, UK, pp. 90-100.