Stick balancing on the fingertip is a complex voluntary motor task that requires the stabilization of an unstable system. For seated expert stick balancers, the time delay is 0.23 s, the shortest stick that can be balanced for 240 s is 0.32 m and there is a Embedded Image° dead zone for the estimation of the vertical displacement angle in the saggital plane. These observations motivate a switching-type, pendulum–cart model for balance control which uses an internal model to compensate for the time delay by predicting the sensory consequences of the stick's movements. Numerical simulations using the semi-discretization method suggest that the feedback gains are tuned near the edge of stability. For these choices of the feedback gains, the co...
Despite its apparent simplicity, the nature of the control mechanisms that allow humans to stand up ...
A central question to our understanding of postural control is the overall goal of standing balance....
Human upright stance is inherently unstable without a balance control scheme. Many biological behavi...
Stick balancing on the fingertip is a complex voluntary motor task that requires the stabilization o...
Stick balancing on the fingertip is a complex voluntary motor task that requires the stabilization o...
State-dependent, or parametric, noise is an essential component of the neural control mechanism for ...
Abstract The effects of sensory input uncertainty, ε, on the stability of time-delayed human motor c...
Abstract: The question posed in this study is whether optimal control and state estimation can expla...
Stabilization of the CIP (Cart Inverted Pendulum) is an analogy to stick balancing on a finger and i...
This thesis provides insight and novel tools for investigation into the neuromotor control of human ...
Stick balancing at the fingertip is a powerful paradigm for the study of the control of human balanc...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
Stick balancing at the fingertip is a powerful paradigm for the study of the control of human balanc...
Our ability to control unstable objects highlights the sophistication of voluntary motor behaviour. ...
In this study stick balancing serves as a role model for more demanding balancing tasks. The purpose...
Despite its apparent simplicity, the nature of the control mechanisms that allow humans to stand up ...
A central question to our understanding of postural control is the overall goal of standing balance....
Human upright stance is inherently unstable without a balance control scheme. Many biological behavi...
Stick balancing on the fingertip is a complex voluntary motor task that requires the stabilization o...
Stick balancing on the fingertip is a complex voluntary motor task that requires the stabilization o...
State-dependent, or parametric, noise is an essential component of the neural control mechanism for ...
Abstract The effects of sensory input uncertainty, ε, on the stability of time-delayed human motor c...
Abstract: The question posed in this study is whether optimal control and state estimation can expla...
Stabilization of the CIP (Cart Inverted Pendulum) is an analogy to stick balancing on a finger and i...
This thesis provides insight and novel tools for investigation into the neuromotor control of human ...
Stick balancing at the fingertip is a powerful paradigm for the study of the control of human balanc...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
Stick balancing at the fingertip is a powerful paradigm for the study of the control of human balanc...
Our ability to control unstable objects highlights the sophistication of voluntary motor behaviour. ...
In this study stick balancing serves as a role model for more demanding balancing tasks. The purpose...
Despite its apparent simplicity, the nature of the control mechanisms that allow humans to stand up ...
A central question to our understanding of postural control is the overall goal of standing balance....
Human upright stance is inherently unstable without a balance control scheme. Many biological behavi...