Add to ORKGDespite intensive investigations in the past, energetic efficiency is still one of the most important unsolved challenges in legged robot locomotion. This paper presents an unconventional approach to the problem of energetically efficient legged locomotion by applying actuation for spring mass running. This approach makes use of mechanical springs incorporated in parallel with relatively low-Torque actuation, which is capable of both accommodating large payload and locomotion with low power input by exploiting self-excited vibration. For a systematic analysis, this paper employs both simulation models and physical platforms. The experiments show that the proposed approach is scalable across different payload between 0 and 150 kg, and is abl...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
This paper examines the design of a parallel spring-loaded actuated linkage intended for dynamically...
Open-loop control strategies for legged robot locomotion have been investigated by many researchers ...
Despite the intensive investigations in the past, energetic efficiency is still one of the most impo...
represent a novel way for introducing compliant elements in legged robots. This paper investigates t...
Abstract—Inspired by biological systems, compliant elements are introduced in the driving train of l...
We have built a planar one-legged robot (the ARL Monopod) to study the design, control and energetic...
To study the design, control and energetics of autonomous dynamically stable legged machines we have...
Energy efficient locomotion with the amazing agility of humans and other animals remains a challenge...
The development of legged robots can serve two purposes. The first is to enable more mobility for ro...
This paper investigates the use of discrete couplings in series elastic actuation in order to increa...
Behavioral performances of our legged robots are still far behind those of biological systems. Energ...
Animal locomotion results from a combination of power modulation and cyclic appendage trajectories, ...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
Despite enhancements in the development of robotic systems, the energy economy of today’s robots lag...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
This paper examines the design of a parallel spring-loaded actuated linkage intended for dynamically...
Open-loop control strategies for legged robot locomotion have been investigated by many researchers ...
Despite the intensive investigations in the past, energetic efficiency is still one of the most impo...
represent a novel way for introducing compliant elements in legged robots. This paper investigates t...
Abstract—Inspired by biological systems, compliant elements are introduced in the driving train of l...
We have built a planar one-legged robot (the ARL Monopod) to study the design, control and energetic...
To study the design, control and energetics of autonomous dynamically stable legged machines we have...
Energy efficient locomotion with the amazing agility of humans and other animals remains a challenge...
The development of legged robots can serve two purposes. The first is to enable more mobility for ro...
This paper investigates the use of discrete couplings in series elastic actuation in order to increa...
Behavioral performances of our legged robots are still far behind those of biological systems. Energ...
Animal locomotion results from a combination of power modulation and cyclic appendage trajectories, ...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
Despite enhancements in the development of robotic systems, the energy economy of today’s robots lag...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
This paper examines the design of a parallel spring-loaded actuated linkage intended for dynamically...
Open-loop control strategies for legged robot locomotion have been investigated by many researchers ...