Task-selectivity in the sensory deprived brain and sensory substitution approaches for clinical practice: Evidence from blindness - ScienceDirect
A self-powered brain multi-perception receptor for sensory-substitution application - ScienceDirect
Frontiers | Neuroplastic Reorganization Induced by Sensory Augmentation for Self-Localization During Locomotion | Neuroergonomics
Speech-to-touch Sensory Substitution Device Could Improve Hearing | Technology Networks
Frontiers | Successful tactile based visual sensory substitution use functions independently of visual pathway integrity | Human Neuroscience
Sensory substitution: Closing the gap between basic research and widespread practical visual rehabilitation - ScienceDirect
Effect of Sensory Substitution Devices on Children
Functional MRI of Sensory Substitution in the Blind | Fox Center for Vision Restoration | University of Pittsburgh
Sensory Substitution
Sensory Substitution: an Augmented Human Technologies seminar paper:
Brain Mechanisms and Spatial Vision | SpringerLink
Applying a novel visual-to-touch sensory substitution for studying tactile reference frames | Scientific Reports
Sensory substitution: Closing the gap between basic research and widespread practical visual rehabilitation - ScienceDirect
Frontiers | Spatial Competence and Brain Plasticity in Congenital Blindness via Sensory Substitution Devices | Neuroscience
Sensory Substitution and the Neural Correlates of Navigation in Blindness | SpringerLink
PDF) Designing sensory-substitution devices: Principles, pitfalls and potential
PDF) Tactos: a sensory substitution device for an active perception | Charles Lenay - Academia.edu
Sensory Substitution: an Augmented Human Technologies seminar paper:
Adaptive Systems Ezequiel Di Paolo Informatics Sensorimotor substitution, perceptual plasticity. - ppt download
Frontiers | Are Supramodality and Cross-Modal Plasticity the Yin and Yang of Brain Development? From Blindness to Rehabilitation | Frontiers in Systems Neuroscience
PDF) Other ways of seeing: From behavior to neural mechanisms in the online "visual" control of action with sensory substitution