This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
G. Sen Gupta, S.C.Mukhopadhyay and J. R. French, Wireless Communications and Control Module of a Web-Enabled Robot for Distributed Sensing Applications, Proceedings of IEEE International Instrumentation and Measurement Technology Conference, Victoria, Canada, May 12-15, 2008, pp. 393-398.10.1109/IMTC.2008.4547067Search in Google Scholar
Hanazawa Y, Yamakita M., “Limit cycle running based on flat-footed passive dynamic walking with mechanical impedance at ankles”, Advanced Intelligent Mechatronics (AIM), 2012 IEEE/ASME International Conference on. IEEE, 2012: 15-20.10.1109/AIM.2012.6265998Search in Google Scholar
Wisse M, Feliksdal G, Van Frankkenhuyzen J, et al., “Passive-based walking robot, Robotics& Automation Magazine, IEEE, Vol.14, No.2, 2007, pp. 52-62.10.1109/MRA.2007.380639Search in Google Scholar
Shin H K, Kim B K. “Energy-Efficient Gait Planning and Control for Biped Robots Utilizing the Allowable ZMP Region”, IEEE Transactions on Robotics, Vol. 30, No.4, 2014, pp. 986-993.10.1109/TRO.2014.2305792Search in Google Scholar
Fujimoto Y. et a1, “Trajectory Generation of Biped Running Robot with Minimum Energy Consumption”, Proceedings of the IEEE International Conference on Robotics and Automation, 2004, pp.3803~3808.10.1109/ROBOT.2004.1308861Search in Google Scholar
Hu L, Zhou C, Sun Z., “Estimating biped gait using spline-based probability distribution function with Q-learning”, Industrial Electronics, IEEE Transactions on, Vol.55, No.3, 2008, pp. 1444-1452.10.1109/TIE.2007.908526Search in Google Scholar
Liu Z, Wang L, Chen C L P, et al., “Energy-efficiency-based gait control system architecture and algorithm for biped robots”, Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on, Vol.42, No.6, 2012,pp. 926-933.10.1109/TSMCC.2011.2173191Search in Google Scholar
A. Dasgupta and Y. Nakamura, Making feasible walking motion of humanoid robots from human motion capture data, in Proc. IEEE ICRA, Detroit, 1999, pp. 1044–1049.Search in Google Scholar
Vukobratovic M, Borovac B. “Zero-moment point—thirty five years of its life”, International Journal of Humanoid Robotics, Vol. 1, No.01, 2004,pp. 157-173.10.1142/S0219843604000083Search in Google Scholar
Vukobratovic M, Borovac B, Potkonjak V. “ZMP: A review of some basic misunderstandings”, International Journal of Humanoid Robotics, Vol.3, No. 02, 2006, pp. 153175.10.1142/S0219843606000710Search in Google Scholar
Ugurlu B, Saglia J A, Tsagarakis N G, et al. “Yaw moment compensation for bipedal robots via intrinsic angular momentum constraint”, International Journal of Humanoid Robotics, Vol.9, No.04, 2012, 1250033.1-1250033.2710.1142/S0219843612500338Search in Google Scholar
Fu G P, Chen J P, Yang Y M. “A Yaw Moment Counteracting Method for Humanoid Robot Based on Arms Swinging”, Robot, Vol. 34,No.4, 2012, pp. 498-504.10.3724/SP.J.1218.2012.00498Search in Google Scholar
Fu G P. “Research on Gait Planning and Walking Control for Humanoid Robot”, Guangdong University of technology, 2013.Search in Google Scholar
G. Sen Gupta, S.C. Mukhopadhyay and M Finnie, Wi-Fi Based Control of a Robotic Arm with Remote Vision, Proceedings of 2009 IEEE I2MTC Conference, Singapore, May 5-7, 2009, pp. 557-562.10.1109/IMTC.2009.5168512Search in Google Scholar
Rahnamayan S, Tizhoosh H R, Salama M M A. “Opposition-based differential evolution”, Evolutionary Computation, IEEE Transactions on, Vol.12, No.1, 2008, pp. 64-79.10.1109/TEVC.2007.894200Search in Google Scholar
Mark Seelye, Gourab Sen Gupta, John Seelye, S. C. Mukhopadhyay, Camera-in-hand Robotic System for Remote Monitoring of Plant Growth in a Laboratory, Proceedings of 2010 IEEE I2MTC Conference, Austin, Texas, USA, May 4-6, 2010, pp. 809-814.10.1109/IMTC.2010.5488064Search in Google Scholar
Tan KC, Yang YJ, Goh CK., “A distributed cooperative co-evolutionary algorithm for multiobjective optimization”, IEEE Trans. On Evolutionary Computation, Vol.10, No.5, 2006, pp. 527-549.10.1109/TEVC.2005.860762Search in Google Scholar
I. Emerson, W.L.Xu, S.C.Mukhopadhyay, J.C. Chang and O. Diegol, “Robotic Rehabilitation System for Stroke in Combination with Mirror Therapy: A Research Proposal”, Proceedings of the 25th International Conference of CAD/CAM, Robotics and Factories of the Future, ISBN 978-0-620-46582-3, July 13-16, 2010, Pretoria, South Africa, 12 pages.Search in Google Scholar
Li QH, Yang SD, Ruan YL, “Improving optimization for genetic algorithms based on level set” Journal of Computer Research and Development, Vol.43, No.9, 2006, pp.1624-1629.10.1360/crad20060920Search in Google Scholar
Liu Q, Wang X Y, Fu Q M, et al. “Double Elite Co-evolutionary Genetic Algorithm”, Journal of Software, Vol.23, No.4, 2012, pp.765-775.10.3724/SP.J.1001.2012.04040Search in Google Scholar
G. Sen Gupta, S.C.Mukhopadhyay, S. Demidenko and C.H. Messom, “Master-slave Control of a Tele-operated Anthropomorphic Robotic Arm with Gripping Force Sensing”, IEEE Transactions on Instrumentation and Measurement, Vol. 55, No. 6, pp. 2136-2145, December 2006.Search in Google Scholar
Mandal M, Mukhopadhyay A. “A novel PSO-based graph-theoretic approach for identifying most relevant and non-redundant gene markers from gene expression data”, International Journal of Parallel, Emergent and Distributed Systems, 2014 (ahead-of-print), pp. 1-18.10.1080/17445760.2014.889138Search in Google Scholar
