Biomimetic computer-to-brain communication enhancing naturalistic touch sensations via peripheral nerve stimulation

Abstract: Artificial communication with the brain through peripheral nerve stimulation shows promising results in individuals with sensorimotor deficits. However, these efforts lack an intuitive and natural sensory experience. In this study, we design and test a biomimetic neurostimulation framework inspired by nature, capable of “writing” physiologically plausible information back into the peripheral nervous system. Starting from an in-silico model of mechanoreceptors, we develop biomimetic stimulation policies. We the… Show more

“…It was observed that, to some extent, biomimetic neurostimulation could promote mobility (primary outcome) and reduce mental effort (secondary outcome) compared to traditional approaches. The outcomes of this neuroscience-driven technology, inspired by the human body, may serve as a model for advancing assistive neurotechnologies 186 (as shown in Fig. 17f).…”

Human somatosensory systems based on sensor-memory-integrated technology

“…It was observed that, to some extent, biomimetic neurostimulation could promote mobility (primary outcome) and reduce mental effort (secondary outcome) compared to traditional approaches. The outcomes of this neuroscience-driven technology, inspired by the human body, may serve as a model for advancing assistive neurotechnologies 186 (as shown in Fig. 17f).…”

Human somatosensory systems based on sensor-memory-integrated technology

Organ Neuroprosthetics: Connecting Transplanted and Artificial Organs with the Nervous System

Enhancing air stability and conductivity of cotton fabrics through dual-metal electroless deposition