Add to ORKGThe paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2-D bounce juggling. It is shown that some periodic orbits that are unstable in the elastic fixed wedge become exponentially stable in the nonelastic vibrating wedge. These orbits are linked with certain classical juggling patterns, providing an interesting benchmark for the study of the frequency-locking properties in human rhythmic tasks. Experimental results on sensorless stabilization of juggling patterns are described. © 2006 IEEE
A natural-physical approach is pursued in uncovering basic timing and phase relations in human rhyth...
A novel solution to the problem of controlling a one degree-of-freedom ball juggling system that exp...
Biological systems like humans or animals have remarkable stability properties allowing them to perf...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2-D bounc...
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...
peer reviewedThe paper studies the properties of a sinusoidally vibrating wedge billiard as a model...
This paper addresses the question relative to the role of sensory feedback in rhythmic tasks. We stu...
This paper addresses the question relative to the role of sensory feedback in rhythmic tasks. We stu...
peer reviewedThis paper introduces a stabilization problem for an elementary impact control system ...
The paper addresses the rhythmic stabilization of periodic orbits in a wedge billiard with actuated ...
peer reviewedThe paper addresses the stabilization of periodic orbits in a wedge billiard with actu...
In this paper we demonstrate that a passive vibration strategy can bring a one-degree-of-freedom bal...
We describe simple one-dimensional models of passive (no energy input, no control), generally dissip...
The paper considers the feedback stabilization of periodic orbits in a planar juggler. The juggler i...
A natural-physical approach is pursued in uncovering basic timing and phase relations in human rhyth...
A novel solution to the problem of controlling a one degree-of-freedom ball juggling system that exp...
Biological systems like humans or animals have remarkable stability properties allowing them to perf...
The paper studies the properties of a sinusoidally vibrating wedge billiard as a model for 2-D bounc...
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...
peer reviewedThe paper studies the properties of a sinusoidally vibrating wedge billiard as a model...
This paper addresses the question relative to the role of sensory feedback in rhythmic tasks. We stu...
This paper addresses the question relative to the role of sensory feedback in rhythmic tasks. We stu...
peer reviewedThis paper introduces a stabilization problem for an elementary impact control system ...
The paper addresses the rhythmic stabilization of periodic orbits in a wedge billiard with actuated ...
peer reviewedThe paper addresses the stabilization of periodic orbits in a wedge billiard with actu...
In this paper we demonstrate that a passive vibration strategy can bring a one-degree-of-freedom bal...
We describe simple one-dimensional models of passive (no energy input, no control), generally dissip...
The paper considers the feedback stabilization of periodic orbits in a planar juggler. The juggler i...
A natural-physical approach is pursued in uncovering basic timing and phase relations in human rhyth...
A novel solution to the problem of controlling a one degree-of-freedom ball juggling system that exp...
Biological systems like humans or animals have remarkable stability properties allowing them to perf...