Journal ArticleDOI
Signal-dependent noise determines motor planning
Chris Harris,Daniel M. Wolpert +1 more
TLDR
This theory provides a simple and powerful unifying perspective for both eye and arm movement control and accurately predicts the trajectories of both saccades and arm movements and the speed–accuracy trade-off described by Fitt's law.Abstract:
When we make saccadic eye movements or goal-directed arm movements, there is an infinite number of possible trajectories that the eye or arm could take to reach the target1,2. However, humans show highly stereotyped trajectories in which velocity profiles of both the eye and hand are smooth and symmetric for brief movements3,4. Here we present a unifying theory of eye and arm movements based on the single physiological assumption that the neural control signals are corrupted by noise whose variance increases with the size of the control signal. We propose that in the presence of such signal-dependent noise, the shape of a trajectory is selected to minimize the variance of the final eye or arm position. This minimum-variance theory accurately predicts the trajectories of both saccades and arm movements and the speed–accuracy trade-off described by Fitt's law5. These profiles are robust to changes in the dynamics of the eye or arm, as found empirically6,7. Moreover, the relation between path curvature and hand velocity during drawing movements reproduces the empirical ‘two-thirds power law’8,9. This theory provides a simple and powerful unifying perspective for both eye and arm movement control.read more
Citations
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Journal ArticleDOI
Influences of premotoneuronal command statistics on the scaling of motor output variability during isometric plantar flexion
Renato Naville Watanabe,Fernando Henrique Magalhães,Leonardo Abdala Elias,Vitor Martins Chaud,Emanuele Moraes Mello,André Fabio Kohn +5 more
TL;DR: Computer simulations suggest that the experimentally found relations between torque-EMG variability as a function of mean plantar flexion torque level depend not only on the intrinsic properties of the motoneuron pools and the muscle units innervated, but also on the increasing variability of the premotoneuronal GI spike trains when their mean rates increase to command a higher plantarflexion torquelevel.
Journal ArticleDOI
Moving faster while preserving accuracy.
O. Missenard,L. Fernandez +1 more
TL;DR: It is shown that humans are in fact able to move faster while preserving movement accuracy, by using a strategy where muscles are cocontracted around the joint, and the existence of a previously unknown speed-energy-accuracy trade-off for goal-directed movements is suggested.
Journal ArticleDOI
Differences in Context and Feedback Result in Different Trajectories and Adaptation Strategies in Reaching
TL;DR: If subjects may instead select to make curved trajectories following adaptation to force fields and visuomotor rotations, the results suggest that trajectory shape is not always straight, but is also influenced by the calibration of available feedback signals for the state estimation required by the task.
Journal ArticleDOI
Predictive Simulation of Reaching Moving Targets Using Nonlinear Model Predictive Control.
TL;DR: The NMPC predictions of the hand trajectory to reach fixed and moving targets are in good agreement with the trajectories found by dynamic optimization and those from experiments, however, the hand velocity and muscle activations predicted by NMPC did not agree as well with experiments or with those found from dynamic optimization.
Journal ArticleDOI
Perceptual averaging governs antisaccade endpoint bias
Caitlin Gillen,Matthew Heath +1 more
TL;DR: Results indicate that the visual percept supporting antisaccades is based on the statistical summary of the range of target eccentricities within a stimulus-set (i.e., perceptual averaging), which represents a parsimonious basis by which the oculomotor system can specify sensorimotor transformations via non-veridical visual information.
References
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Journal ArticleDOI
The information capacity of the human motor system in controlling the amplitude of movement.
TL;DR: The motor system in the present case is defined as including the visual and proprioceptive feedback loops that permit S to monitor his own activity, and the information capacity of the motor system is specified by its ability to produce consistently one class of movement from among several alternative movement classes.
Journal ArticleDOI
The coordination of arm movements: an experimentally confirmed mathematical model.
Tamar Flash,Neville Hogan +1 more
TL;DR: A mathematical model is formulated which is shown to predict both the qualitative features and the quantitative details observed experimentally in planar, multijoint arm movements, and is successful only when formulated in terms of the motion of the hand in extracorporal space.
Journal ArticleDOI
An Internal Model for Sensorimotor Integration
TL;DR: A sensorimotor integration task was investigated in which participants estimated the location of one of their hands at the end of movements made in the dark and under externally imposed forces, providing direct support for the existence of an internal model.
Journal ArticleDOI
Adaptive representation of dynamics during learning of a motor task
TL;DR: The investigation of how the CNS learns to control movements in different dynamical conditions, and how this learned behavior is represented, suggests that the elements of the adaptive process represent dynamics of a motor task in terms of the intrinsic coordinate system of the sensors and actuators.
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Optimal feedback control as a theory of motor coordination.
The coordination of arm movements: an experimentally confirmed mathematical model.
Tamar Flash,Neville Hogan +1 more