Litcius/Paper detail

Z-Ring: Single-Point Bio-Impedance Sensing for Gesture, Touch, Object and User Recognition

Anandghan Waghmare, Youssef Ben Taleb, Ishan Chatterjee, Arjun Narendra, Shwetak Patel

202338 citationsDOIOpen Access PDF

Abstract

We present Z-Ring, a wearable ring that enables gesture input, object detection, user identification, and interaction with passive user interface (UI) elements using a single sensing modality and a single point of instrumentation on the finger. Z-Ring uses active electrical field sensing to detect changes in the hand’s electrical impedance caused by finger motions or contact with external surfaces. We develop a diverse set of interactions and evaluate them with 21 users. We demonstrate: (1) Single- and two-handed gesture recognition with up to 93% accuracy (2) Tangible input with a set of passive touch UI elements, including buttons, a continuous 1D slider, and a continuous 2D trackpad with 91.8% accuracy, <4.4 cm MAE, and <4.1cm MAE, respectively (3) Object recognition across six household objects with 94.5% accuracy (4) User identification among 14 users with 99% accuracy. Z-Ring’s sensing methodology uses only a single co-located electrode pair for both receiving and sensing, lending itself well to future miniaturization for use in on-the-go scenarios.

Topics & Concepts

Wearable computerComputer scienceGesture recognitionObject (grammar)GestureIdentification (biology)Interface (matter)Computer visionModality (human–computer interaction)Artificial intelligenceRing (chemistry)Set (abstract data type)Pattern recognition (psychology)Embedded systemBiologyParallel computingBotanyBubbleChemistryOrganic chemistryMaximum bubble pressure methodProgramming languageAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsInteractive and Immersive Displays