Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Gong, Daoxiong
Yan, Jie
and
Zuo, Guoyu
2010.
A Review of Gait Optimization Based on Evolutionary Computation.
Applied Computational Intelligence and Soft Computing,
Vol. 2010,
Issue. ,
p.
1.
XIE, Lun
WANG, Zhiliang
WANG, Chong
and
XU, Jiaming
2010.
A Robust Walking Control System of Humanoid Robot.
ROBOT,
Vol. 32,
Issue. 4,
p.
484.
Dip, Goswami
and
Prahlad, Vadakkepat
2011.
Rotational Stability Index (RSI) point: postural stability in planar bipeds.
Robotica,
Vol. 29,
Issue. 5,
p.
705.
Cardenas-Maciel, Selene L.
Castillo, Oscar
and
Aguilar, Luis T.
2011.
Generation of walking periodic motions for a biped robot via genetic algorithms.
Applied Soft Computing,
Vol. 11,
Issue. 8,
p.
5306.
Khorsandi, Milad Taher
Miripour-Fard, Behnam
and
Bagheri, Ahmad
2011.
Optimal tracking control of a biped robot walking in the lateral plane.
p.
560.
Sanders, David
Tewkesbury, Giles
Stott, Ian J.
and
Robinson, David
2011.
Simple expert systems to improve an ultrasonic sensor‐system for a tele‐operated mobile‐robot.
Sensor Review,
Vol. 31,
Issue. 3,
p.
246.
Mansouri, S.
Sadigh, M. J.
and
Farizeh, T.
2011.
A real time path generator for fast motion of a biped carrying different payloads.
p.
74.
Zhi Liu
Liyang Wang
Chen, C. C. L.
Xiaojie Zeng
Yun Zhang
and
Yaonan Wang
2012.
Energy-Efficiency-Based Gait Control System Architecture and Algorithm for Biped Robots.
IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews),
Vol. 42,
Issue. 6,
p.
926.
ALGHOONEH, MANSOOR
and
WU, QIONG
2012.
A SYSTEMATIC GAIT-PLANNING FRAMEWORK NEGOTIATING BIOMECHANICALLY MOTIVATED CHARACTERISTICS OF A PLANAR BIPEDAL ROBOT.
International Journal of Humanoid Robotics,
Vol. 09,
Issue. 04,
p.
1250031.
Alitavoli, M.
Taherkhorsandi, M.
Mahmoodabadi, M. J.
Bagheri, A.
and
Miripour-Fard, B.
2012.
Pareto design of sliding-mode tracking control of a biped robot with aid of an innovative particle swarm optimization.
p.
1.
Cai, Chaohong
and
Jiang, Hong
2013.
Performance Comparisons of Evolutionary Algorithms for Walking Gait Optimization.
p.
129.
Daut, Mohamad Noraffandi
Azyze, Nur Latif
Sanhoury, Ibrahim M. H.
Nafis, Mohamad Lukman
and
Amin, Shamsudin H. M.
2013.
Intelligent Robotics Systems: Inspiring the NEXT.
Vol. 376,
Issue. ,
p.
427.
Sadigh, Mohammad Jafar
and
Mansouri, Saeed
2013.
Application of phase-plane method in generating minimum time solution for stable walking of biped robot with specified pattern of motion.
Robotica,
Vol. 31,
Issue. 6,
p.
837.
Ferreira, Joao P.
Crisostomo, Manuel M.
and
Coimbra, A. Paulo
2013.
Adaptive PD Controller Modeled via Support Vector Regression for a Biped Robot.
IEEE Transactions on Control Systems Technology,
Vol. 21,
Issue. 3,
p.
941.
Luo, Qinan
and
Duan, Haibin
2014.
Chaotic artificial bee colony approach to step planning of maintaining balance for quadruped robot.
International Journal of Intelligent Computing and Cybernetics,
Vol. 7,
Issue. 2,
p.
175.
Mahmoodabadi, M.J.
Taherkhorsandi, M.
and
Bagheri, A.
2014.
Optimal robust sliding mode tracking control of a biped robot based on ingenious multi-objective PSO.
Neurocomputing,
Vol. 124,
Issue. ,
p.
194.
Shin, Hyeok-Ki
and
Kim, Byung Kook
2014.
Energy-Efficient Gait Planning and Control for Biped Robots Utilizing the Allowable ZMP Region.
IEEE Transactions on Robotics,
Vol. 30,
Issue. 4,
p.
986.
Sarkar, Abhishek
and
Dutta, Ashish
2015.
8-DoF biped robot with compliant-links.
Robotics and Autonomous Systems,
Vol. 63,
Issue. ,
p.
57.
KhazeniFard, AmirHosein
Bahrami, Fariba
Andani, Mehran Emadi
and
Ahmadabadi, Majid Nili
2015.
An energy efficient gait trajectory planning algorithm for a seven linked biped robot using movement elements.
p.
1006.
Liu, Qi
Zhao, Jie
Schutz, Steffen
and
Berns, Karsten
2015.
Adaptive motor patterns and reflexes for bipedal locomotion on rough terrain.
p.
3856.