The control of aerial gymnastic maneuvers is challenging because these maneuvers frequently involve complex rotational motion and because the performer has limited control of the maneuver during flight. A performer can influence a maneuver using a sequence of limb movements during flight. However, the same sequence may not produce reliable performances in the presence of off-nominal conditions. How do people compensate for variations in performance to reliably produce aerial maneuvers? In this report I explore the role that passive dynamic stability may play in making the performance of aerial maneuvers simple and reliable. I present a control strategy comprised of active and passive components for performing robot front somersaults in the...
Every movement has a goal. For reaching, the goal is to move the hand to a specific location. For lo...
INTRODUCTION:Teaching acrobatic skills with a minimal amount of repetition is a major challenge for ...
In this paper we demonstrate that a passive vibration strategy can bring a 1 degree of freedom ball ...
The control of aerial gymnastic maneuvers is challenging because these maneuvers frequently involve ...
Theoretical analyses have shown that rotations of a rigid body about the principal axis cor- respond...
In the takeoff and early flight phase of a twisting somersault, joint coordination is based on feed-...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1994....
Tumbling is a dynamic movement requiring control of the linear and angular momenta generated during ...
A computerized method based on optimal dynamic synthesis was developedfor generating the flight phas...
Many studies were dedicated to the analysis of backward giant circles prior to release, releases its...
The contribution of release state, change in inertia moment, and angular momentum transfer to the p...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
This paper focuses on simulations of a dynamically stable mobile robot (Ballbot) with arms. The simu...
Background: When humans are faced with an unstable task, two different stabilization mechanisms are ...
At the 1996 Atlanta Olympic Games, 18 single somersaults with one twist in the women’s compulsory fl...
Every movement has a goal. For reaching, the goal is to move the hand to a specific location. For lo...
INTRODUCTION:Teaching acrobatic skills with a minimal amount of repetition is a major challenge for ...
In this paper we demonstrate that a passive vibration strategy can bring a 1 degree of freedom ball ...
The control of aerial gymnastic maneuvers is challenging because these maneuvers frequently involve ...
Theoretical analyses have shown that rotations of a rigid body about the principal axis cor- respond...
In the takeoff and early flight phase of a twisting somersault, joint coordination is based on feed-...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1994....
Tumbling is a dynamic movement requiring control of the linear and angular momenta generated during ...
A computerized method based on optimal dynamic synthesis was developedfor generating the flight phas...
Many studies were dedicated to the analysis of backward giant circles prior to release, releases its...
The contribution of release state, change in inertia moment, and angular momentum transfer to the p...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
This paper focuses on simulations of a dynamically stable mobile robot (Ballbot) with arms. The simu...
Background: When humans are faced with an unstable task, two different stabilization mechanisms are ...
At the 1996 Atlanta Olympic Games, 18 single somersaults with one twist in the women’s compulsory fl...
Every movement has a goal. For reaching, the goal is to move the hand to a specific location. For lo...
INTRODUCTION:Teaching acrobatic skills with a minimal amount of repetition is a major challenge for ...
In this paper we demonstrate that a passive vibration strategy can bring a 1 degree of freedom ball ...