Add to ORKGThis paper investigates the use of discrete couplings in series elastic actuation in order to increase variability of dynamic legged robot locomotion. The couplings are capable of engaging and disengaging the connection between an actuation element and a mechanical spring in real time such that the series elasticity could be used to load, store, and retain energy, and release it in the necessary timings. Such a mechanism is particularly beneficial for hopping or running locomotion, because it allows preloading of spring in flight phase. Through a series of simulated and physical robot experiments, this paper explains how such variability of actuation dynamics can improve performance of hopping locomotion under the limitation of actuator for...
This paper presents the actuation system of the robotic leg ScarlETH. It was developed specifically ...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
Energy efficient locomotion with the amazing agility of humans and other animals remains a challenge...
For more dexterous and agile legged robot locomotion, alternative actuation has been one of the most...
The interaction between the motor control and the morphological design of the human leg is critical ...
We report progress towards model based, dynamically stable legged locomotion with energy efficient, ...
This paper explores a design strategy of hopping robots, which makes use of free vibration of an ela...
To investigate the design and the applications of elastic underactuated mechanisms for improving the...
Animal locomotion results from a combination of power modulation and cyclic appendage trajectories, ...
Open-loop control strategies for legged robot locomotion have been investigated by many researchers ...
Drawing inspiration from nature, this paper introduces and compares two compliant robotic legs that ...
This study presents a novel approach to the design of low-cost and energy-efficient hopping robots, ...
We investigated control concepts for hopping motions of an articulated leg that is driven by series ...
Abstract — In this paper, we describe modeling and control techniques for a real-world series-elasti...
Running and hopping follow similar patterns for different animals, independent of the number of legs...
This paper presents the actuation system of the robotic leg ScarlETH. It was developed specifically ...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
Energy efficient locomotion with the amazing agility of humans and other animals remains a challenge...
For more dexterous and agile legged robot locomotion, alternative actuation has been one of the most...
The interaction between the motor control and the morphological design of the human leg is critical ...
We report progress towards model based, dynamically stable legged locomotion with energy efficient, ...
This paper explores a design strategy of hopping robots, which makes use of free vibration of an ela...
To investigate the design and the applications of elastic underactuated mechanisms for improving the...
Animal locomotion results from a combination of power modulation and cyclic appendage trajectories, ...
Open-loop control strategies for legged robot locomotion have been investigated by many researchers ...
Drawing inspiration from nature, this paper introduces and compares two compliant robotic legs that ...
This study presents a novel approach to the design of low-cost and energy-efficient hopping robots, ...
We investigated control concepts for hopping motions of an articulated leg that is driven by series ...
Abstract — In this paper, we describe modeling and control techniques for a real-world series-elasti...
Running and hopping follow similar patterns for different animals, independent of the number of legs...
This paper presents the actuation system of the robotic leg ScarlETH. It was developed specifically ...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
Energy efficient locomotion with the amazing agility of humans and other animals remains a challenge...