A terradynamics of legged locomotion on granular media
- PMID: 23520106
- DOI: 10.1126/science.1229163
A terradynamics of legged locomotion on granular media
Abstract
The theories of aero- and hydrodynamics predict animal movement and device design in air and water through the computation of lift, drag, and thrust forces. Although models of terrestrial legged locomotion have focused on interactions with solid ground, many animals move on substrates that flow in response to intrusion. However, locomotor-ground interaction models on such flowable ground are often unavailable. We developed a force model for arbitrarily-shaped legs and bodies moving freely in granular media, and used this "terradynamics" to predict a small legged robot's locomotion on granular media using various leg shapes and stride frequencies. Our study reveals a complex but generic dependence of stresses in granular media on intruder depth, orientation, and movement direction and gives insight into the effects of leg morphology and kinematics on movement.
Comment in
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Applied physics. Robotic walking in the real world.Science. 2013 Mar 22;339(6126):1389-90. doi: 10.1126/science.1235276. Science. 2013. PMID: 23520098 No abstract available.
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