Litcius/Paper detail

Neuromorphic antennal sensory system

Chengpeng Jiang, Honghuan Xu, Lu Yang, Jiaqi Liu, Yue Li, Kuniharu Takei, Wentao Xu

2024Nature Communications55 citationsDOIOpen Access PDF

Abstract

Abstract Insect antennae facilitate the nuanced detection of vibrations and deflections, and the non-contact perception of magnetic or chemical stimuli, capabilities not found in mammalian skin. Here, we report a neuromorphic antennal sensory system that emulates the structural, functional, and neuronal characteristics of ant antennae. Our system comprises electronic antennae sensor with three-dimensional flexible structures that detects tactile and magnetic stimuli. The integration of artificial synaptic devices adsorbed with solution-processable MoS 2 nanoflakes enables synaptic processing of sensory information. By emulating the architecture of receptor-neuron pathway, our system realizes hardware-level, spatiotemporal perception of tactile contact, surface pattern, and magnetic field (detection limits: 1.3 mN, 50 μm, 9.4 mT). Vibrotactile-perception tasks involving profile and texture classifications were accomplished with high accuracy (> 90%), surpassing human performance in “blind” tactile explorations. Magneto-perception tasks including magnetic navigation and touchless interaction were successfully completed. Our work represents a milestone for neuromorphic sensory systems and biomimetic perceptual intelligence.

Topics & Concepts

Neuromorphic engineeringPerceptionSensory systemComputer scienceTactile perceptionArtificial intelligenceNeuroscienceComputer visionArtificial neural networkBiologyTactile and Sensory InteractionsAdvanced Sensor and Energy Harvesting MaterialsAdvanced Memory and Neural Computing
Neuromorphic antennal sensory system | Litcius