Add to ORKGHumans and animals adapt their leg impedance during running for both internal (e.g., loading) and external (e.g., surface) changes. To date, the mechanical complexity of designing usefully robust tunable passive compliance into legs has precluded their implementation on practical running robots. This work describes the design of novel, structure-controlled stiffness legs for a hexapedal running robot to enable runtime modification of leg stiffness in a small, lightweight, and rugged package. As part of this investigation, we also study the effect of varying leg stiffness on the performance of a dynamical running robot. For more information: Kod*La
Recent developments in dynamic legged locomotion have focused on encoding a substantial component of...
Of the recent developments in legged robotics, compliance control of legs has potential to make a hu...
Poulakakis, IoannisLegged robots have the potential to extend our reach to terrains that challenge ...
Passively compliant legs have been instrumental in the development of dynamically running legged rob...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
Biomechanical studies suggest that animals’ abilities to tune their effective leg compliance in resp...
Passively compliant legs have been instrumental in the de-velopment of dynamically running legged ro...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Recent developments in dynamic legged locomotion have focused on encoding a substantial component of...
Abstract—Humans and animals adapt their leg impedance during running for both internal(e.g. loading)...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Research has shown that leg stiffness of animals is an important characteristic in their locomotion....
One of the key features that enables animals and humans to perform agile, robust, adaptive yet effici...
Abstract — The ability of biological locomotors to rapidly and stably traverse unstructured environm...
Recent developments in dynamic legged locomotion have focused on encoding a substantial component of...
Of the recent developments in legged robotics, compliance control of legs has potential to make a hu...
Poulakakis, IoannisLegged robots have the potential to extend our reach to terrains that challenge ...
Passively compliant legs have been instrumental in the development of dynamically running legged rob...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
Biomechanical studies suggest that animals’ abilities to tune their effective leg compliance in resp...
Passively compliant legs have been instrumental in the de-velopment of dynamically running legged ro...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Recent developments in dynamic legged locomotion have focused on encoding a substantial component of...
Abstract—Humans and animals adapt their leg impedance during running for both internal(e.g. loading)...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Research has shown that leg stiffness of animals is an important characteristic in their locomotion....
One of the key features that enables animals and humans to perform agile, robust, adaptive yet effici...
Abstract — The ability of biological locomotors to rapidly and stably traverse unstructured environm...
Recent developments in dynamic legged locomotion have focused on encoding a substantial component of...
Of the recent developments in legged robotics, compliance control of legs has potential to make a hu...
Poulakakis, IoannisLegged robots have the potential to extend our reach to terrains that challenge ...