Augmenting locomotor perception by remapping tactile foot sensation to the back
Atena Fadaei Jouybari, Nathanael Ferraroli, Mohammad Bouri, Selim Habiby Alaoui, Oliver Alan Kannape, Olaf Blanke

TL;DR
A wearable device remaps foot sensations to the back, showing how tactile feedback can influence movement awareness and gait.
Contribution
An untethered vibrotactile garment (FeetBack) is introduced to remap foot sensations to the back for neurorehabilitation.
Findings
Participants reported high motor awareness with real-time remapped feedback.
Motor awareness decreased with reversed or delayed feedback, following a sinusoidal pattern.
Stride-time was moderately modulated by temporal delays in tactile feedback.
Abstract
Sensory reafferents are crucial to correct our posture and movements, both reflexively and in a cognitively driven manner. They are also integral to developing and maintaining a sense of agency for our actions. In cases of compromised reafferents, such as for persons with amputated or congenitally missing limbs, or diseases of the peripheral and central nervous systems, augmented sensory feedback therefore has the potential for a strong, neurorehabilitative impact. We here developed an untethered vibrotactile garment that provides walking-related sensory feedback remapped non-invasively to the wearer’s back. Using the so-called FeetBack system, we investigated if healthy individuals perceive synchronous remapped feedback as corresponding to their own movement (motor awareness) and how temporal delays in tactile locomotor feedback affect both motor awareness and walking characteristics…
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Taxonomy
TopicsTactile and Sensory Interactions · Motor Control and Adaptation · Muscle activation and electromyography studies
