Contains fulltext : 50805_aut.pdf (author's version ) (Closed access) Contains fulltext : 50805_pub.pdf (publisher's version ) (Closed access)This study was aimed at examining the assumption that three-dimensional (3D) hand movements follow specific paths that are dictated by the operation of a Listing's law constraint at the intrinsic joint level of the arm. A kinematic model was used to simulate hand paths during 3D point-to-point movements. The model was based on the assumption that the shoulder obeys a 2D Listing's constraint and that rotations are about fixed single-axes. The elbow rotations were assumed to relate linearly to those of the shoulder. Both joints were ...
This study addressed the question of how the three-dimensional (3-D) control strategy for the upper ...
Abstract-A kinematic model has been developed for simulation and prediction of the prehensile capabi...
We examined the patterns of joint kinematics and torques in two kinds of sagittal plane reaching mov...
This study was aimed at examining the assumption that three-dimensional (3D) hand movements follow s...
In this paper data are presented concerning the kinematic and dynamic characteristics of point-to-po...
In order to examine path planning and the control of redundant degrees of freedom in the human arm, ...
Contains fulltext : 57096.pdf (author's version ) (Closed access) ...
Item does not contain fulltextA central problem in motor control relates to the coordination of the ...
of internal representations for arm trajectory planning: minimum com-manded torque change model. J. ...
Two possible sets of planning variables for human arm movement are point angles and hand position....
Human subjects (N = 13) made arm movements in a horizontal plane by using the shoulder, elbow, and w...
Due to the numerous degrees of freedom in the human motor system, there actually exist an infinite n...
Various models have been proposed in the literature to explain the control of human arm movements. T...
A kinematic model has been developed for prediction of joint angles during power grasp of objects th...
In this paper we show that staggered joint interpolation [7] with maximaRy smooth joint motion can a...
This study addressed the question of how the three-dimensional (3-D) control strategy for the upper ...
Abstract-A kinematic model has been developed for simulation and prediction of the prehensile capabi...
We examined the patterns of joint kinematics and torques in two kinds of sagittal plane reaching mov...
This study was aimed at examining the assumption that three-dimensional (3D) hand movements follow s...
In this paper data are presented concerning the kinematic and dynamic characteristics of point-to-po...
In order to examine path planning and the control of redundant degrees of freedom in the human arm, ...
Contains fulltext : 57096.pdf (author's version ) (Closed access) ...
Item does not contain fulltextA central problem in motor control relates to the coordination of the ...
of internal representations for arm trajectory planning: minimum com-manded torque change model. J. ...
Two possible sets of planning variables for human arm movement are point angles and hand position....
Human subjects (N = 13) made arm movements in a horizontal plane by using the shoulder, elbow, and w...
Due to the numerous degrees of freedom in the human motor system, there actually exist an infinite n...
Various models have been proposed in the literature to explain the control of human arm movements. T...
A kinematic model has been developed for prediction of joint angles during power grasp of objects th...
In this paper we show that staggered joint interpolation [7] with maximaRy smooth joint motion can a...
This study addressed the question of how the three-dimensional (3-D) control strategy for the upper ...
Abstract-A kinematic model has been developed for simulation and prediction of the prehensile capabi...
We examined the patterns of joint kinematics and torques in two kinds of sagittal plane reaching mov...