Energy saving passive-dynamic gait for a one-legged hopping robot

Nicholas Cherouvim; Evangelos Papadopoulos

doi:10.1017/S026357470500250X

Abstract

Increasing the energy autonomy of a hopping one-legged robot is studied in this paper. For a particular passive gait, of all those possible, the energy dissipated per unit length of travel is shown to be less than for any other gait. This optimal gait is identified analytically, by exploiting the commonly used SLIP model to simplify real robot dynamics. Both mechanical and electrical losses are considered. The accuracy of the optimal gait analytical prediction is evaluated by a numerical analysis of a realistic robot model. Finally, restrictions imposed on executing the optimal gait due to motor limitations are studied.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Chatzakos, Panagiotis and Papadopoulos, Evangelos 2007. Parametric analysis and design guidelines for a quadruped bounding robot. p. 1.

He, Guang-Ping Tan, Xiao-Lan Zhang, Xiang-Hui and Lu, Zhen 2008. Modeling, motion planning, and control of one-legged hopping robot actuated by two arms. Mechanism and Machine Theory, Vol. 43, Issue. 1, p. 33.

Cherouvim, Nicholas and Papadopoulos, Evangelos 2009. Control of hopping speed and height over unknown rough terrain using a single actuator. p. 2743.

Chatzakos, Panagiotis and Papadopoulos, Evangelos 2009. Bio-inspired design of electrically-driven bounding quadrupeds via parametric analysis. Mechanism and Machine Theory, Vol. 44, Issue. 3, p. 559.

He, Guangping and Geng, Zhiyong 2009. Exponentially stabilizing an one-legged hopping robot with non-SLIP model in flight phase. Mechatronics, Vol. 19, Issue. 3, p. 364.

Carlési, Nicolas and Chemori, Ahmed 2010. Nonlinear model predictive running control of Kangaroo robot: A one-leg planar underactuated hopping robot. p. 3634.

Yuan, De-hu Jin, Hui-liang and Meng, Guo-xiang 2011. Nonlinear optimal control for robotic yoyo playing. Journal of Central South University, Vol. 18, Issue. 2, p. 429.

Reis, Murat and Iida, Fumiya 2011. Hopping robot based on free vibration of an elastic curved beam. p. 892.

Aoyama, Tadayoshi Miura, Takumi Harada, Yuji Takaki, Takeshi and Ishii, Idaku 2012. Deflection sensing via high speed vision system for robotic motion control. p. 342.

Iida, Fumiya Reis, Murat Maheshwari, Nandan Gunura, Keith and Hauser, Simon 2012. Legged robot locomotion based on free vibration. p. 1.

Reis, Murat and Iida, Fumiya 2014. An Energy-Efficient Hopping Robot Based on Free Vibration of a Curved Beam. IEEE/ASME Transactions on Mechatronics, Vol. 19, Issue. 1, p. 300.

Han, Bin Luo, Xin Liu, Qingyu Zhou, Bo and Chen, Xuedong 2014. Hybrid control for SLIP-based robots running on unknown rough terrain. Robotica, Vol. 32, Issue. 7, p. 1065.

Han, Bin Luo, Xin Liu, Qingyu Zhang, Tao and Chen, Xuedong 2015. A control strategy for SLIP-based locomotion under lateral impact in 3D space. p. 517.

Liu, Ming Zhong, Xingneng Wang, Xin Chen, Fei Zha, Fusheng and Guo, Wei 2016. Motion control for a single-legged robot. p. 336.

Smyrli, Aikaterini Bertos, Georgios A. and Papadopoulos, Evangelos 2018. Efficient Stabilization of Zero-Slope Walking for Bipedal Robots Following Their Passive Fixed-Point Trajectories. p. 5733.

Borovin, Gennady Konstantinovich and Lapshin, Vladimir Vladimirovich 2018. Self-oscillation when controlling the movement of a hopping vehicle. Keldysh Institute Preprints, p. 1.

Habib, Maki K. and Nagata, Fusaomi 2018. Handbook of Research on Biomimetics and Biomedical Robotics. p. 1.

Chen, Jie Liang, Zhongchao Zhu, Yanhe and Zhao, Jie 2019. Improving Kinematic Flexibility and Walking Performance of a Six-legged Robot by Rationally Designing Leg Morphology. Journal of Bionic Engineering, Vol. 16, Issue. 4, p. 608.

Smyrli, Aikaterini Bertos, Georgios A. and Papadopoulos, Evangelos 2021. A Generalized Model for Compliant Passive Bipedal Walking: Sensitivity Analysis and Implications on Bionic Leg Design. Journal of Biomechanical Engineering, Vol. 143, Issue. 10,

Sadeghi, Sahand Allison, Samuel R Bestill, Blake and Li, Suyi 2021. TMP origami jumping mechanism with nonlinear stiffness. Smart Materials and Structures, Vol. 30, Issue. 6, p. 065002.

Download full list

Article contents

Energy saving passive-dynamic gait for a one-legged hopping robot

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Energy saving passive-dynamic gait for a one-legged hopping robot

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests