G L Gottlieb
Overview
Explore the profile of G L Gottlieb including associated specialties, affiliations and a list of published articles.
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108
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1551
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Recent Articles
21.
Almeida G, Hong D, Corcos D, Gottlieb G
J Neurophysiol
. 1995 Oct;
74(4):1374-81.
PMID: 8989378
1. Four subjects performed fast flexions of the elbow or shoulder over three different distances. Elbow flexions were performed both in a horizontal, single-degree-of-freedom manipulandum and in a sagittal plane...
22.
Goodman S, Gottlieb G
Biol Cybern
. 1995 Sep;
73(4):311-22.
PMID: 7578472
There is a no unique relationship between the trajectory of the hand, represented in cartesian or extrinsic space, and its trajectory in joint angle or intrinsic space in the general...
23.
Gottlieb G, Chen C, Corcos D
Ann Biomed Eng
. 1995 Jul;
23(4):388-98.
PMID: 7486346
The control of distance and speed during single-joint human elbow flexion is accomplished by different models of activating the motoneuron pools. Distance is controlled by modulating the duration of activation,...
24.
BURGESS P, Cooper T, Gottlieb G, Latash M
Somatosens Mot Res
. 1995 Jan;
12(3-4):343-58.
PMID: 8834307
Two sets of experiments were carried out. In the first set, human subjects were asked to make the same effort with the elbow flexors at different joint angles under isometric...
25.
Gottlieb G, Chen C, Corcos D
Exp Brain Res
. 1995 Jan;
103(1):164-7.
PMID: 7615031
Voluntary movements may be considered kinematic actions resulting from the neural control patterns that activate the motoneuron pools. One school of thought proposes that specific features of the intended kinematic...
26.
Robinson C, Flaherty B, Fehr L, Agarwal G, Harris G, Gottlieb G
Med Biol Eng Comput
. 1994 May;
32(3):261-72.
PMID: 7934249
A test device is developed to measure ankle joint compliance and muscle activity when the ankle is subjected to perturbations in angular position (or torque) from bias positions achieved volitionally...
27.
Hong D, Corcos D, Gottlieb G
J Neurophysiol
. 1994 Mar;
71(3):1261-5.
PMID: 8201418
1. Six subjects performed three series of pointing tasks with the unconstrained arm. Series one and two required subjects to move as fast as possible with different weights attached to...
28.
Gottlieb G
Exp Brain Res
. 1994 Jan;
97(3):545-50.
PMID: 8187865
We describe the effects of changing an elastic or inertial load on the trajectory and EMG patterns during fast, voluntary elbow flexions. These effects depend upon whether the load is...
29.
Jaric S, Corcos D, Gottlieb G, Ilic D, Latash M
Exp Brain Res
. 1994 Jan;
100(2):353-9.
PMID: 7813672
Predictions of two views on single-joint motor control, namely programming of muscle force patterns and equilibrium-point control, were compared with the results of experiments with reproduction of movement distance and...
30.
Gottlieb G
J Mot Behav
. 1993 Sep;
25(3):153-161.
PMID: 12581986
A computational procedure (program) is defined to generate control signals for the motoneuron pools of agonist and antagonist muscles that will move a limb segment from one stationary position to...