Add to ORKGThe paper considers the feedback stabilization of periodic orbits in a planar juggler. The juggler is "blind," i.e, he has no other sensing capabilities than the detection of impact times. The robustness analysis of the proposed control suggests that the arms acceleration at impact is a crucial design parameter even though it plays no role in the stability analysis. Analytical results and convergence proofs are provided for a simplified model of the juggler. The control law is then adapted to a more accurate model and validated in an experimental setup. © 2007 IEEE
This paper investigates how the efficiency and robustness of a skilled rhythmic task compete against...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2D impact...
Abstract: The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for...
The paper considers the feedback stabilization of periodic orbits in a planar juggler. The juggler i...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2-D bounc...
This paper addresses the question relative to the role of sensory feedback in rhythmic tasks. We stu...
peer reviewedThis paper addresses the question relative to the role of sensory feedback in rhythmic...
International audienceThis paper studies the feedback control of a class of complementary-slackness ...
International audienceThis paper is devoted to the feedback control of a one degree-of-freedom (dof)...
From a hybrid systems point of view, we provide a modeling framework and a trajectory tracking contr...
At the crossing between motor control neuroscience and robotics system theory, the paper presents a ...
At the crossing between motor control neuroscience and robotics system theory, the paper presents a ...
A novel solution to the problem of controlling a one degree-of-freedom ball juggling system that exp...
peer reviewedThe paper studies the properties of a sinusoidally vibrating wedge billiard as a model...
This paper investigates how the efficiency and robustness of a skilled rhythmic task compete against...
This paper investigates how the efficiency and robustness of a skilled rhythmic task compete against...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2D impact...
Abstract: The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for...
The paper considers the feedback stabilization of periodic orbits in a planar juggler. The juggler i...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2-D bounc...
This paper addresses the question relative to the role of sensory feedback in rhythmic tasks. We stu...
peer reviewedThis paper addresses the question relative to the role of sensory feedback in rhythmic...
International audienceThis paper studies the feedback control of a class of complementary-slackness ...
International audienceThis paper is devoted to the feedback control of a one degree-of-freedom (dof)...
From a hybrid systems point of view, we provide a modeling framework and a trajectory tracking contr...
At the crossing between motor control neuroscience and robotics system theory, the paper presents a ...
At the crossing between motor control neuroscience and robotics system theory, the paper presents a ...
A novel solution to the problem of controlling a one degree-of-freedom ball juggling system that exp...
peer reviewedThe paper studies the properties of a sinusoidally vibrating wedge billiard as a model...
This paper investigates how the efficiency and robustness of a skilled rhythmic task compete against...
This paper investigates how the efficiency and robustness of a skilled rhythmic task compete against...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2D impact...
Abstract: The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for...