Animals exhibit remarkable locomotion capabilities across land, sea, and air in every corner of the world. On land, legged morphologies have evolved to manifest magnificent mobility over a wide range of surfaces. From the ability to use footholds for navigating a challenging mountain pass, to the capacity for running on a sandy beach, the adaptability afforded through legs motivates their prominence as the biologically preferred method of ground transportation. Inspired by these achievements in nature, robotics engineers have strived for decades to achieve similar dynamic locomotion capabilities in legged machines. Learning from animals’ compliant structures and ways of utilizing them, engineers developed numerous novel mechanisms that allow for more dynamic, more efficient legged systems. These newly emerging robotic systems possess distinguishing mechanical characteristics in contrast to manufacturing robots in factories and pave the way for a new era of mobile robots to serve our society. Realizing the full capabilities of these new legged robots is a multi-factorial research problem, requiring coordinated advances in design, control, perception, state estimation, navigation and other areas. This review article concentrates particularly on the mechanical design of legged robots, with the aim to inform both future advances in novel mechanisms as well as the coupled problems described above. Essential technological components considered in mechanical design are discussed through historical review. Emerging design paradigms are then presented, followed by perspectives on their future applications.
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20 March 2017
Research Article|
March 20 2017
Design of Dynamic Legged Robots
Sangbae Kim;
Sangbae Kim
Massachusetts Institute of Technology
, United States
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Patrick M. Wensing
Patrick M. Wensing
Massachusetts Institute of Technology
, United States
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Online ISSN: 1935-8261
Print ISSN: 1935-8253
© 2017 S. Kim and P. M. Wensing
2017
S. Kim and P. M. Wensing
Licensed re-use rights only
Foundations and Trends in Robotics (2017) 5 (2): 117–190.
Citation
Kim S, Wensing PM (2017), "Design of Dynamic Legged Robots". Foundations and Trends in Robotics, Vol. 5 No. 2 pp. 117–190, doi: https://doi.org/10.1561/2300000044
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