Add to ORKGResearch has shown that being able to vary the effective limb stiffness of legged robotics can aid in efficient locomotion. This is especially true when considering a variety of terrains and payloads. Recent developments have lead to multiple solutions for implementing variable compliance mechanisms, including mechanically actuated methods as well as smart materials. These methods have typically been directed toward moderately large, dynamic running platforms. Less work has been performed on small scale robotics. This work presents the design of a a new robotic leg mechanism for a variable stiffness application. The design utilizes dielectric elastomer (3M VHB 4910) pre-stretched into a diaphragm to rapidly control stiffness changes for enh...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
Over the recent few decades, the evolving research-field of legged robotics has seen various mechani...
Since animals can adjust the stiffness of their bodies and/or appendages to adapt to changing enviro...
Passively compliant legs have been instrumental in the de-velopment of dynamically running legged ro...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
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....
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
In rough and highly unstructured terrain, legged locomotion exhibits remarkable capabilities when co...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Abstract — The ability of biological locomotors to rapidly and stably traverse unstructured environm...
Legged and gait-assistance robots can walk more efficiently if their actuators are compliant. The ad...
Passively compliant legs have been instrumental in the development of dynamically running legged rob...
Biomechanical studies suggest that animals’ abilities to tune their effective leg compliance in resp...
Existing legged robots lack energy-inefficiency, performance and adaptivity when confronted with sit...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
Over the recent few decades, the evolving research-field of legged robotics has seen various mechani...
Since animals can adjust the stiffness of their bodies and/or appendages to adapt to changing enviro...
Passively compliant legs have been instrumental in the de-velopment of dynamically running legged ro...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
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....
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
In rough and highly unstructured terrain, legged locomotion exhibits remarkable capabilities when co...
Recent developments in legged robotics have found that constant stiffness passive compliant legs are...
Abstract — The ability of biological locomotors to rapidly and stably traverse unstructured environm...
Legged and gait-assistance robots can walk more efficiently if their actuators are compliant. The ad...
Passively compliant legs have been instrumental in the development of dynamically running legged rob...
Biomechanical studies suggest that animals’ abilities to tune their effective leg compliance in resp...
Existing legged robots lack energy-inefficiency, performance and adaptivity when confronted with sit...
Humans and animals adapt their leg impedance during running for both internal (e.g., loading) and ex...
Over the recent few decades, the evolving research-field of legged robotics has seen various mechani...
Since animals can adjust the stiffness of their bodies and/or appendages to adapt to changing enviro...