scholarly article | Q13442814 |
P356 | DOI | 10.1007/BF00241505 |
P698 | PubMed publication ID | 7789452 |
P50 | author | Zoubin Ghahramani | Q8074621 |
Daniel M. Wolpert | Q15990373 | ||
P2093 | author name string | M I Jordan | |
P2860 | cites work | The coordination of arm movements: an experimentally confirmed mathematical model | Q28235524 |
Spatial control of arm movements | Q30458661 | ||
Roles of proprioceptive input in the programming of arm trajectories | Q30464715 | ||
Neural dynamics of planned arm movements: emergent invariants and speed-accuracy properties during trajectory formation | Q39634775 | ||
On the Nature of Human Interlimb Coordination | Q41466283 | ||
The control of hand equilibrium trajectories in multi-joint arm movements | Q41466965 | ||
Posture control and trajectory formation during arm movement. | Q41579315 | ||
Aiming error under transformed spatial mappings suggests a structure for visual-motor maps | Q43659201 | ||
Adaptive representation of dynamics during learning of a motor task | Q48126188 | ||
Perceptual distortion contributes to the curvature of human reaching movements | Q48216402 | ||
Time-varying stiffness of human elbow joint during cyclic voluntary movement | Q48564694 | ||
Human arm trajectory formation | Q48938657 | ||
Kinematic features of unrestrained vertical arm movements. | Q50803665 | ||
A model of the learning of arm trajectories from spatial deviations. | Q52213674 | ||
Virtual trajectory and stiffness ellipse during multijoint arm movement predicted by neural inverse models. | Q52228362 | ||
Mechanisms underlying achievement of final head position. | Q52309947 | ||
Formation and control of optimal trajectory in human multijoint arm movement. Minimum torque-change model. | Q52543622 | ||
Neural model of adaptive hand-eye coordination for single postures. | Q52569140 | ||
Deducing planning variables from experimental arm trajectories: pitfalls and possibilities. | Q52610416 | ||
Optimized movement trajectories and joint stiffness in unperturbed, inertially loaded movements. | Q52653151 | ||
An organizing principle for a class of voluntary movements. | Q52686002 | ||
Physical principles for economies of skilled movements. | Q52710252 | ||
Trajectories of reaches to prismatically-displaced targets: evidence for "automatic" visuomotor recalibration | Q69426529 | ||
Binocular distance perception | Q71314866 | ||
P433 | issue | 3 | |
P304 | page(s) | 460-470 | |
P577 | publication date | 1995-01-01 | |
P1433 | published in | Experimental Brain Research | Q13358841 |
P1476 | title | Are arm trajectories planned in kinematic or dynamic coordinates? An adaptation study | |
P478 | volume | 103 |
Q35960370 | A Sensorimotor Model for Computing Intended Reach Trajectories |
Q33806387 | A Simple and Accurate onset Detection Method for a Measured Bell-shaped Speed Profile |
Q48117101 | A blueprint for movement: functional and anatomical representations in the human motor system |
Q35158668 | A body-machine interface for the control of a 2D cursor. |
Q42131166 | A physiologically based hypothesis for learning proprioception and in approximating inverse kinematics |
Q35093834 | A vector-integration-to-endpoint model for performance of viapoint movements |
Q47137347 | Abstract spatial, but not body-related, visual information guides bimanual coordination |
Q48783920 | Adaptation to visuomotor rotation and force field perturbation is correlated to different brain areas in patients with cerebellar degeneration. |
Q30473957 | Adaptive auditory feedback control of the production of formant trajectories in the Mandarin triphthong /iau/ and its pattern of generalization |
Q37494127 | Adaptive use of interaction torque during arm reaching movement from the optimal control viewpoint. |
Q51929823 | Adjustment to a complex visuo-motor transformation at early and late working age. |
Q53418887 | An Inverse Optimal Control Approach to Explain Human Arm Reaching Control Based on Multiple Internal Models. |
Q48532477 | Analyzing the kinematics of hand movements in catching tasks-An online correction analysis of movement toward the target's trajectory. |
Q47616177 | Apparent and Actual Trajectory Control Depend on the Behavioral Context in Upper Limb Motor Tasks |
Q48568264 | Augmented Feedback Presented in a Virtual Environment Accelerates Learning of a Difficult Motor Task |
Q39080235 | Body-Machine Interfaces after Spinal Cord Injury: Rehabilitation and Brain Plasticity. |
Q41527096 | Capturing the Cranio-Caudal Signature of a Turn with Inertial Measurement Systems: Methods, Parameters Robustness and Reliability |
Q48859793 | Cerebellar regions involved in adaptation to force field and visuomotor perturbation. |
Q33893818 | Characteristics of Implicit Sensorimotor Adaptation Revealed by Task-irrelevant Clamped Feedback. |
Q33770552 | Cognitive neural prosthetics |
Q81462680 | Compensation for and adaptation to changes in the environment |
Q57398617 | Computational approaches to motor control |
Q57398618 | Computational models of sensorimotor integration |
Q36322660 | Consequences of increased neuromotor noise for reaching movements in persons with stroke. |
Q81388379 | Constraints on visuo-motor adaptation depend on the type of visual feedback during practice |
Q34169745 | Coordinated turn-and-reach movements. II. Planning in an external frame of reference |
Q41701600 | Cortical control of reaching movements |
Q35125034 | Cursor control by Kalman filter with a non-invasive body-machine interface. |
Q48901869 | Differential influence of the visual framework on end point accuracy and trajectory specification of arm movements |
Q48216311 | Dissociation of 'on-line' and 'off-line' visuomotor control of the arm by focal lesions in the cerebellum and brainstem |
Q30476499 | Effect of auditory feedback differs according to side of hemiparesis: a comparative pilot study. |
Q52055224 | Effect of compliance on haptic perception of curvature. |
Q54743292 | Energy-related optimal control accounts for gravitational load: comparing shoulder, elbow, and wrist rotations. |
Q48692158 | Enhanced mechanical transparency during practice impedes open-loop control of a complex tool |
Q73061640 | Error correction and the basal ganglia. Response to Lawrence (2000) |
Q27342270 | Eye-hand coordination during dynamic visuomotor rotations |
Q71558118 | Force path curvature and conserved features of muscle activation |
Q41580277 | Forward Prediction in the Posterior Parietal Cortex and Dynamic Brain-Machine Interface |
Q52165475 | Frames of reference for human perceptual-motor coordination: space-based versus joint-based adaptation. |
Q41189030 | From Intention to Action: Hierarchical Sensorimotor Transformation in the Posterior Parietal Cortex(12). |
Q34412756 | Functional stages in the formation of human long-term motor memory. |
Q50311510 | Further evidence of complex motor dysfunction in drug naive children with autism using automatic motion analysis of gait |
Q48884091 | Generalization to local remappings of the visuomotor coordinate transformation |
Q74313890 | Hand trajectory formation during whole body reaching movements in man |
Q88567724 | High-precision voluntary movements are largely independent of preceding vertex potentials elicited by sudden sensory events |
Q36115978 | How is a motor skill learned? Change and invariance at the levels of task success and trajectory control |
Q73387318 | Human arm movements described by a low-dimensional superposition of principal components |
Q57292106 | Human posterior parietal and dorsal premotor cortex encode the visual properties of an upcoming action |
Q30497036 | Human posterior parietal cortex plans where to reach and what to avoid |
Q51772270 | Illusions can warp visual space. |
Q30463896 | Independent learning of internal models for kinematic and dynamic control of reaching |
Q31120594 | Inner speech models of auditory verbal hallucinations: evidence from behavioural and neuroimaging studies |
Q30474056 | Interaction of Visual and Proprioceptive Feedback During Adaptation of Human Reaching Movements |
Q57717753 | Interlimb Generalization of Learned Bayesian Visuomotor Prior Occurs in Extrinsic Coordinates |
Q52091891 | Interlimb transfer of novel inertial dynamics is asymmetrical. |
Q28140970 | Internal models for motor control and trajectory planning |
Q81601694 | Intrinsic joint kinematic planning. II: hand-path predictions based on a Listing's plane constraint |
Q44640556 | Invariant geometric characteristics of spatial arm motion |
Q47343391 | Involvement of the autonomic nervous system in motor adaptation: acceleration or error reduction? |
Q48614491 | Kinematics of point-to-point finger movements |
Q48337033 | Lateralization of motor adaptation reveals independence in control of trajectory and steady-state position |
Q35778105 | Learning algorithms for human-machine interfaces |
Q46909407 | Learning and generalization in an isometric visuomotor task |
Q48860258 | Learning and recall of incremental kinematic and dynamic sensorimotor transformations |
Q36146399 | Learning feedback and feedforward control in a mirror-reversed visual environment |
Q48701148 | Learning the visuomotor transformation of virtual and real sliding levers: simple approximations of complex transformations |
Q104111195 | Leveraging the effector independent nature of motor imagery when it is paired with physical practice |
Q33910873 | Linking perception, cognition, and action: psychophysical observations and neural network modelling. |
Q36513473 | Load emphasizes muscle effort minimization during selection of arm movement direction |
Q61630242 | Local learning of inverse kinematics in human reaching movement |
Q58734861 | Lower limb sagittal kinematic and kinetic modeling of very slow walking for gait trajectory scaling |
Q48241413 | Maintaining internal representations: the role of the human superior parietal lobe |
Q36876542 | Modeling sensorimotor learning with linear dynamical systems |
Q48760548 | Modular decomposition in visuomotor learning |
Q36914999 | Motor disorder in Huntington's disease begins as a dysfunction in error feedback control. |
Q37621261 | Motor learning by field approximation |
Q44739543 | Movement curvature planning through force field internal models |
Q51825500 | Movement paths in operating hand-held tools: tests of distal-shift hypotheses. |
Q35599289 | Multijoint movement control: the importance of interactive torques |
Q34186629 | Multiple paired forward and inverse models for motor control |
Q41887475 | Neurocognitive mechanisms of error-based motor learning. |
Q50913102 | Nonlinear visuomotor transformations: locus and modularity. |
Q51904811 | Nonvisual motor learning improves visual motion perception: evidence from violating the two-thirds power law. |
Q48630038 | Obstacle avoidance and a perturbation sensitivity model for motor planning. |
Q50750264 | Optimal control of reaching includes kinematic constraints. |
Q34156556 | Optimal feedback control as a theory of motor coordination |
Q40823231 | Optimal feedback control successfully explains changes in neural modulations during experiments with brain-machine interfaces |
Q40691326 | Parallel cortico-basal ganglia mechanisms for acquisition and execution of visuomotor sequences - a computational approach. |
Q52075419 | Persistence of motor adaptation during constrained, multi-joint, arm movements. |
Q48830878 | Prism adaptation of reaching is dependent on the type of visual feedback of hand and target position |
Q37027540 | Probabilistic Movement Models Show that Postural Control Precedes and Predicts Volitional Motor Control. |
Q48214067 | Quantitative examinations of internal representations for arm trajectory planning: minimum commanded torque change model |
Q48433882 | Real-time error detection but not error correction drives automatic visuomotor adaptation. |
Q36274614 | Recovery of upper extremity sensorimotor system acuity in baseball athletes after a throwing-fatigue protocol |
Q77486473 | Reference frames and internal models for visuo-manual coordination: what can we learn from microgravity experiments? |
Q52039956 | Remapping hand movements in a novel geometrical environment. |
Q34502604 | Reorganization of finger coordination patterns during adaptation to rotation and scaling of a newly learned sensorimotor transformation. |
Q52003729 | Representations of graphomotor trajectories in the human parietal cortex: evidence for controlled processing and automatic performance. |
Q36712524 | Robotics and virtual reality: a perfect marriage for motor control research and rehabilitation |
Q51709994 | Schema generation in recurrent neural nets for intercepting a moving target. |
Q37349482 | Seeing versus believing: conflicting immediate and predicted feedback lead to suboptimal motor performance |
Q35976558 | Sensory Agreement Guides Kinetic Energy Optimization of Arm Movements during Object Manipulation |
Q90227462 | Separating Neural Influences from Peripheral Mechanics: The Speed-Curvature Relation in Mechanically-Constrained Actions |
Q51639538 | Serial processing in human movement production. |
Q36240243 | Short Term Motor-Skill Acquisition Improves with Size of Self-Controlled Virtual Hands |
Q52106992 | Spatial representation of predictive motor learning. |
Q42175187 | Static Versus Dynamic Decoding Algorithms in a Non-Invasive Body-Machine Interface |
Q52009694 | Stereotypical fingertip trajectories during grasp. |
Q89938806 | Stochastic optimal open-loop control as a theory of force and impedance planning via muscle co-contraction |
Q52039095 | Strategic calibration and spatial alignment: a model from prism adaptation. |
Q48460591 | Substituting auditory for visual feedback to adapt to altered dynamic and kinematic environments during reaching |
Q52187377 | Temporal and amplitude generalization in motor learning. |
Q36736104 | Temporal structure of variability decreases in upper extremity movements post stroke. |
Q48460529 | The acquisition and implementation of the smoothness maximization motion strategy is dependent on spatial accuracy demands |
Q34354035 | The cost of moving optimally: kinematic path selection |
Q48240170 | The curvature and variability of wrist and arm movements |
Q60465040 | The curvature of human arm movements in the absence of visual experience |
Q92149917 | The dynamics of motor learning through the formation of internal models |
Q48967025 | The effect of continuous, nonlinearly transformed visual feedback on rapid aiming movements |
Q48451771 | The effect of target modality on visual and proprioceptive contributions to the control of movement distance. |
Q37394724 | The influence of target sensory modality on motor planning may reflect errors in sensori-motor transformations. |
Q28690862 | The optic chiasm: a turning point in the evolution of eye/hand coordination |
Q48426959 | The role of inertial sensitivity in motor planning. |
Q57152982 | The role of intrinsic factors in control of arm movement direction: implications from directional preferences |
Q37396255 | The roles of vision and proprioception in the planning of reaching movements |
Q77486404 | The sensorimotor and cognitive integration of gravity |
Q48412174 | The trajectory of adaptation to the visuo-motor transformation of virtual and real sliding levers |
Q38081389 | Towards mastery of complex visuo-motor transformations |
Q51892769 | Type of visual feedback during practice influences the precision of the acquired internal model of a complex visuo-motor transformation. |
Q30431198 | Vestibular control of the head: possible functions of the vestibulocollic reflex |
Q35549255 | Virtual Reality Applications for Motor Rehabilitation After Stroke |
Q79851483 | Visual feedback control of hand movements |
Q57794227 | Visual feedback of hand and target location does not explain the tendency for straight adapted reaches |
Q39637315 | Visual gravity influences arm movement planning. |
Q34111092 | Visual, motor and attentional influences on proprioceptive contributions to perception of hand path rectilinearity during reaching |
Q38067148 | Visuomotor adaptation and proprioceptive recalibration. |
Q48821422 | Visuomotor adaptation does not recalibrate kinesthetic sense of felt hand path |
Q48413110 | Visuomotor adaptation to a visual rotation is gravity dependent. |
Q28730909 | Walking is not like reaching: evidence from periodic mechanical perturbations |
Q36223693 | When Optimal Feedback Control Is Not Enough: Feedforward Strategies Are Required for Optimal Control with Active Sensing |
Q49211254 | When practice leads to co-articulation: the evolution of geometrically defined movement primitives |
Q44257144 | When visuo-motor incongruence aids motor performance: the effect of perceiving motion structures during transformed visual feedback on bimanual coordination. |
Search more.