Litcius/Paper detail

Super-resolution wearable electrotactile rendering system

Weikang Lin, Dongsheng Zhang, Wang Wei Lee, Xuelong Li, Ying Hong, Qiqi Pan, Ruirui Zhang, Guoxiang Peng, Hong Z. Tan, Zhengyou Zhang, Lei Wei, Zhengbao Yang

2022Science Advances136 citationsDOIOpen Access PDF

Abstract

The human somatosensory system is capable of extracting features with millimeter-scale spatial resolution and submillisecond temporal precision. Current technologies that can render tactile stimuli with such high definition are neither portable nor easily accessible. Here, we present a wearable electrotactile rendering system that elicits tactile stimuli with both high spatial resolution (76 dots/cm 2 ) and rapid refresh rates (4 kHz), because of a previously unexplored current-steering super-resolution stimulation technique. For user safety, we present a high-frequency modulation method to reduce the stimulation voltage to as low as 13 V. The utility of our high spatiotemporal tactile rendering system is highlighted in applications such as braille display, virtual reality shopping, and digital virtual experiences. Furthermore, we integrate our setup with tactile sensors to transmit fine tactile features through thick gloves used by firefighters, allowing tiny objects to be localized based on tactile sensing alone.

Topics & Concepts

Rendering (computer graphics)Computer scienceWearable computerHigh resolutionSomatosensory systemWearable technologyComputer visionArtificial intelligenceEmbedded systemNeuroscienceRemote sensingGeologyBiologyTactile and Sensory InteractionsAdvanced Sensor and Energy Harvesting MaterialsNeuroscience and Neural Engineering