Adapting stiffness and attack angle through trial and error to increase self-stability in locomotion

Biological systems are outperforming machines in legged locomoting under almost any conditions. This is partly due to their capability of learning from failure and adapting their control approach and morphological features. This paper proposes an approach that extends the spring-loaded inverted pend...

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Published in	Journal of biomechanics Vol. 87; pp. 28 - 36
Main Authors	Walker, Kathryn, Hauser, Helmut
Format	Journal Article
Language	English
Published	United States Elsevier Ltd 18.04.2019 Elsevier Limited
Subjects	Adaptation Angle of attack Biomechanical Phenomena Control Energy efficiency Humans Learning Legged locomotion Locomotion Models, Biological Morphology Pendulums Robotics Robots Slip SLIP model Stiffness Success Trial and error Learning Legged locomotion SLIP model Trial and error Control Morphology
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Abstract	Biological systems are outperforming machines in legged locomoting under almost any conditions. This is partly due to their capability of learning from failure and adapting their control approach and morphological features. This paper proposes an approach that extends the spring-loaded inverted pendulum (SLIP) model with the capability to adapt its attack angle (control) and stiffness (morphology) based on previous locomotion attempts. A set of different update rules, i.e., how this experience is used to adapt, are systematically investigated. The results suggest that modifying either attack angle, or stiffness, or both is beneficial with respect to achieve stable locomotion. Particularly, if the current system configuration (control and morphology) outperforms the previous one, the results suggest that increasing the angle and decreasing the stiffness of the system leads to more stable solutions. Consequently, the basic SLIP model extended by the proposed learning capabilities is able to reach stable locomotion over a much wider range of parameter combinations simply through trial and error.
AbstractList	Biological systems are outperforming machines in legged locomoting under almost any conditions. This is partly due to their capability of learning from failure and adapting their control approach and morphological features. This paper proposes an approach that extends the spring-loaded inverted pendulum (SLIP) model with the capability to adapt its attack angle (control) and stiffness (morphology) based on previous locomotion attempts. A set of different update rules, i.e., how this experience is used to adapt, are systematically investigated. The results suggest that modifying either attack angle, or stiffness, or both is beneficial with respect to achieve stable locomotion. Particularly, if the current system configuration (control and morphology) outperforms the previous one, the results suggest that increasing the angle and decreasing the stiffness of the system leads to more stable solutions. Consequently, the basic SLIP model extended by the proposed learning capabilities is able to reach stable locomotion over a much wider range of parameter combinations simply through trial and error.
Author	Walker, Kathryn Hauser, Helmut
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CitedBy_id	crossref_primary_10_1088_1757_899X_1292_1_012004 crossref_primary_10_1177_1729881419885701 crossref_primary_10_1016_j_shpsa_2023_05_002
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Keywords	Learning Legged locomotion SLIP model Trial and error Control Morphology
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Snippet	Biological systems are outperforming machines in legged locomoting under almost any conditions. This is partly due to their capability of learning from failure...
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StartPage	28
SubjectTerms	Adaptation Angle of attack Biomechanical Phenomena Control Energy efficiency Humans Learning Legged locomotion Locomotion Models, Biological Morphology Pendulums Robotics Robots Slip SLIP model Stiffness Success Trial and error
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Title	Adapting stiffness and attack angle through trial and error to increase self-stability in locomotion
URI	https://dx.doi.org/10.1016/j.jbiomech.2019.02.009 https://www.ncbi.nlm.nih.gov/pubmed/30876737 https://www.proquest.com/docview/2200185514 https://search.proquest.com/docview/2193163886
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