A real-time haptic/graphic demonstration of how error augmentation can enhance learning (original) (raw)

Visual Error Augmentation for Enhancing Motor Learning and Rehabilitative Relearning

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Arm control recovery enhanced by error augmentation

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Error Augmentation Enhancing Arm Recovery in Individuals With Chronic Stroke: A Randomized Crossover Design

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It Pays to Go Off-Track: Practicing with Error-Augmenting Haptic Feedback Facilitates Learning of a Curve-Tracing Task

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Volkan Patoglu

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Real-time error detection but not error correction drives automatic visuomotor adaptation

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Experimental Brain Research, 2010

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The Journal of Rehabilitation Research and Development, 2006

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Accelerating Motor Adaptation by Virtual Reality Based Modulation of Error Memories

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Neurocognitive mechanisms of error-based motor learning.

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Evaluation of robotic training forces that either enhance or reduce error in chronic hemiparetic stroke survivors

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Haptic Guidance Needs to Be Intuitive Not Just Informative to Improve Human Motor Accuracy

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Motor control and learning principles for rehabilitation of upper limb movements after brain injury

Carolee Winstein

2003

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Visual error augmentation enhances learning in three dimensions

Felix Huang

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Error augmentation as a possible technique for improving upper extremity motor performance after a stroke – a systematic review

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Topics in Stroke Rehabilitation, 2016

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Watering the flowers: virtual haptic environments for training of forearm rotation in persons with central nervous deficits

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Robotic guidance benefits the learning of dynamic, but not of spatial movement characteristics

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Effects of extrinsic feedback on the motor learning after stroke

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Both Movement-End and Task-End Are Critical for Error Feedback in Visuomotor Adaptation: A Behavioral Experiment

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Automatic processing of multiple errors information in visuomotor learning

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Computer Haptics for Neuromotor Rehabilitation

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Reward feedback accelerates motor learning

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Learning a locomotor task: with or without errors?

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Visual feedback distortion in a robotic environment for hand rehabilitation

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