We present a control strategy for a simplified model of a one-legged running robot which features compliant elements in series with hip and leg actuators. For this model, proper spring selection and initial conditions result in "passive dynamic" operation close to the desired motion, without any actuation. However, this motion is not stable. Our controller is based on online calculations of the desired passive dynamic motion which is then parametrized in terms of a normalized "locomotion time." We show in simulation that the proposed controller stabilizes a wide range of velocities and is robust to modelling errors. It also tracks changes in desired robot velocity and remains largely passive despite a fixed set of spring...
Stable locomotion that tolerates parameter variations is an important feature for legged robots. In ...
Abstract—Humans and animals adapt their leg impedance during running for both internal(e.g. loading)...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
This paper presents a new strategy to control an one-legged robot aiming to reduce the energy expend...
Poulakakis, IoannisLegged robots have the potential to extend our reach to terrains that challenge ...
This work focuses on the locomotion of one-legged robots, with focus on approaches that stabilize pa...
There is an increasing attention of exploiting compliant materials for the purpose of legged locomot...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
at McGill University and the Director of the Ambulatory Robotics Lab when this work was performed. 2...
Abstract. There is an increasing attention of exploiting compliant materials for the purpose of legg...
Abstract – In this paper we explore the mechanism of energy transfer between the single actuated DOF...
Copyright © 2011 Cambridge University Press. The design, control, and actuation of legged robots tha...
We have built a planar one-legged robot (the ARL Monopod) to study the design, control and energetic...
Passive dynamics plays an important role in legged locomotion of the biological systems. The use of ...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
Stable locomotion that tolerates parameter variations is an important feature for legged robots. In ...
Abstract—Humans and animals adapt their leg impedance during running for both internal(e.g. loading)...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...
This paper presents a new strategy to control an one-legged robot aiming to reduce the energy expend...
Poulakakis, IoannisLegged robots have the potential to extend our reach to terrains that challenge ...
This work focuses on the locomotion of one-legged robots, with focus on approaches that stabilize pa...
There is an increasing attention of exploiting compliant materials for the purpose of legged locomot...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
at McGill University and the Director of the Ambulatory Robotics Lab when this work was performed. 2...
Abstract. There is an increasing attention of exploiting compliant materials for the purpose of legg...
Abstract – In this paper we explore the mechanism of energy transfer between the single actuated DOF...
Copyright © 2011 Cambridge University Press. The design, control, and actuation of legged robots tha...
We have built a planar one-legged robot (the ARL Monopod) to study the design, control and energetic...
Passive dynamics plays an important role in legged locomotion of the biological systems. The use of ...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
Stable locomotion that tolerates parameter variations is an important feature for legged robots. In ...
Abstract—Humans and animals adapt their leg impedance during running for both internal(e.g. loading)...
Despite enhancements in the development of robotic systems, the energy economy of today's robots lag...