Low power electronics endowed with artificial intelligence and biological afferent characters
are beneficial to neuromorphic sensory network. Highly distributed synaptic sensory …

The neural system is a multifunctional perceptual learning system. Our brain can perceive
different kinds of information to form senses, including touch, sight, hearing, and so on …

Biological synapses were the basic structure for information transmit, which also perform key
computation functions in neural circuits. Such functionality inspires artificial intelligence to …

Inspired by information processing in biological systems, the data processing efficiency of
sensor systems combined with artificial neuromorphic devices has been significantly …

Artificial sensory memory, which is expected to collect, integrate, and refine massive sensory
data timely for dynamically training the bioinspired neural network, is a promising candidate …

Abstract Development of artificial mechanoreceptors capable of sensing and pre‐processing
external mechanical stimuli is a crucial step toward constructing neuromorphic perception …

Designing transparent flexible electronics with multi‐biological neuronal functions and
superior flexibility is a key step to establish wearable artificial intelligence equipment. Here …

An energy-efficient tactile-sensing element composed of a triboelectric nanogenerator
(TENG) and an electrolyte-gated synaptic transistor (EGT) is presented for biological tactile …

With the rapid development of intelligent robotics, the Internet of Things, and smart sensor
technologies, great enthusiasm has been devoted to developing next-generation intelligent …

Fabrication of human-like intelligent tactile sensors is an intriguing challenge for developing
human–machine interfaces. As inspired by somatosensory signal generation and …