Instructional Leadership, emphasis: K-12 School Leadership (MEd)
Molecular structure and liquids used in research labs

Integrated Epidermal Self-Selective Neuromorphic Functionable (ESSNF) Electronics


Description

Wearable flexible electronics that can transmit information from or to the human body are now beginning to transform mobile health and human-machine interfaces (HMI) in the artificial intelligence (AI) and Internet of things (IoT) era. This technology comprises properties that allow for the brain-inspired, low-power new computing configurations on flexible electronics to be easily developed for data-centric applications; these electronics make new applications possible and offer a deeper understanding of mechanical enhancement on flexibility by nanostructured materials at the nanoscale.

Additional information

Patent number and inventor

Patent pending

Yin-Chen Chen and John Gibbs.

Potential applications

This system provides a novel self-selective flexible electronic or neuromorphic functionality for artificial intelligence applications and in-memory computing configurations focusing on the nanostructured materials, self-selectivity, and neuromorphic functionality of low-power, wearable brain-inspired computational electronics.

Benefits and advantages

This technology tests and implements multiparametric, synchronous functionality of these flexible electronics with high sensitivity and accuracy, low error rate, and high reliability on neuromorphic functionality in a self-selective memory system.

Case number and licensing status

2021-033

This invention is available for licensing.