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Literature DB >> 6509120

Invariants in loaded goal directed movements.

Abstract

Goal directed movements, executed by means of a manipulator with various dynamics, were investigated in order to establish to what extent the loading affects the executed movement. The desired movement concept, together with a describing function model for goal directed movements, was applied to parameterize the movements. Analysis of the results showed that the position trajectories, when scaled by means of a fundamental scale property, with respect to the maximum velocity of the desired movements, were invariant under variation of the manipulator dynamics. From this invariance in the phasing of the movements, it was concluded that the subjects fully adapted to the applied loads.

Mesh：

Year: 1984 PMID： 6509120 DOI： 10.1007/bf00336183

Source DB: PubMed Journal: Biol Cybern ISSN： 0340-1200 Impact factor: 2.086

11 in total

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2. The role of internal models in motion planning and control: evidence from grip force adjustments during movements of hand-held loads.

Authors: J R Flanagan; A M Wing
Journal: J Neurosci Date: 1997-02-15 Impact factor: 6.167

Invariants in loaded goal directed movements.

1. MATHEMATICAL ANALYSIS OF AVERAGE RESPONSE VALUES FOR NONSTATIONARY DATA.

2. Evidence for generalized motor programs using gait pattern analysis.

3. The role of timing in motor program representation.

4. [Control of muscle length].

5. Organization and learning of visual-motor information during different orders of limb movement: step, velocity, acceleration.

6. Invariant characteristics of a pointing movement in man.

7. Spatial control of arm movements.

8. The role of proprioception in the perception and control of human movement: toward a theoretical reassessment.

9. A model for sensorimotor control and learning.

10. Human arm trajectory formation.

1. The spatiotemporal structure of control variables during catching.

2. The role of internal models in motion planning and control: evidence from grip force adjustments during movements of hand-held loads.

3. A kinematic comparison of single and multijoint pointing movements.

4. A kinematic theory of rapid human movements. Part II. Movement time and control.

5. A kinematic theory of rapid human movements. Part I. Movement representation and generation.

6. Disturbances in human arm movement trajectory due to mild cerebellar dysfunction.

7. Velocity curves of human arm and speech movements.