Add to ORKGRobots capable of dynamic locomotion behaviors and high-bandwidth sensing with their limbs have a high cost of transport, especially when locomoting over highly dissipative substrates such as sand. We formulate the problem of reducing the energetic cost of locomotion by a Minitaur robot on sand, reacting to robot state variables in the inertial world frame without modeling the ground online. Using a bulk-behavior model of high-velocity intrusions into dry granular media, we simulated single jumps by a one-legged hopper using a Raibert-style compression-extension virtual leg spring. We compose this controller with a controller that added damping to the leg spring in proportion to the intrusion velocity of the robot\u27s foot into the simulat...
We empirically investigate the implications of applying Raibert’s Scissor algorithm to the Spring Lo...
Natural substrates like sand, soil, leaf litter and snow vary widely in penetration resistance. To s...
This work demonstrates fast motion planning for robot locomotion that is optimized for terrain with ...
Robots capable of dynamic locomotion behaviors and high-bandwidth sensing with their limbs have a hi...
Robots capable of dynamic locomotion behaviors and high-bandwidth sensing with their limbs have a hi...
We work with geoscientists studying erosion and desertification to improve the spatial and temporal ...
Most models of legged locomotion assume a rigid ground contact, but this is not a reasonable assumpt...
All-terrain robot locomotion is an active topic of research. Search and rescue maneuvers and explora...
Legged locomotion on flowing ground (e.g., granular media) is unlike locomotion on hard ground becau...
© 2010 Society for Experimental MechanicsDOI:10.1007/s11340-010-9347-1.Achieving effective locomotio...
We empirically investigate the implications of applying Raibert’s Scissor algorithm to the Spring Lo...
Various animals exhibit locomotive behaviors (like sprinting and hopping) involving transient bursts...
Legged locomotion on flowing ground (e.g., granular media) is unlike locomotion on hard ground becau...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
Leg dynamics and control have been widely studied using mass-spring systems such as the Spring Loade...
We empirically investigate the implications of applying Raibert’s Scissor algorithm to the Spring Lo...
Natural substrates like sand, soil, leaf litter and snow vary widely in penetration resistance. To s...
This work demonstrates fast motion planning for robot locomotion that is optimized for terrain with ...
Robots capable of dynamic locomotion behaviors and high-bandwidth sensing with their limbs have a hi...
Robots capable of dynamic locomotion behaviors and high-bandwidth sensing with their limbs have a hi...
We work with geoscientists studying erosion and desertification to improve the spatial and temporal ...
Most models of legged locomotion assume a rigid ground contact, but this is not a reasonable assumpt...
All-terrain robot locomotion is an active topic of research. Search and rescue maneuvers and explora...
Legged locomotion on flowing ground (e.g., granular media) is unlike locomotion on hard ground becau...
© 2010 Society for Experimental MechanicsDOI:10.1007/s11340-010-9347-1.Achieving effective locomotio...
We empirically investigate the implications of applying Raibert’s Scissor algorithm to the Spring Lo...
Various animals exhibit locomotive behaviors (like sprinting and hopping) involving transient bursts...
Legged locomotion on flowing ground (e.g., granular media) is unlike locomotion on hard ground becau...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
Leg dynamics and control have been widely studied using mass-spring systems such as the Spring Loade...
We empirically investigate the implications of applying Raibert’s Scissor algorithm to the Spring Lo...
Natural substrates like sand, soil, leaf litter and snow vary widely in penetration resistance. To s...
This work demonstrates fast motion planning for robot locomotion that is optimized for terrain with ...