Title :
Dante vision: In-air and touch gesture sensing for natural surface interaction with combined depth and thermal cameras
Author :
Saba, Elliot N. ; Larson, Eric C. ; Patel, Shwetak N.
Author_Institution :
UbiComp Lab., Univ. of Washington, Seattle, WA, USA
Abstract :
Researchers have paid considerable attention to natural user interfaces, especially sensing gestures and touches upon an un-instrumented surface from an overhead camera. We present a system that combines depth sensing from a Microsoft Kinect and temperature sensing from a thermal imaging camera to infer a variety of gestures and touches for controlling a natural user interface. The system, coined Dante, is capable of (1) inferring multiple touch points from multiple users (92.6% accuracy), (2) detecting and classifying each user using their depth and thermal footprint (87.7% accuracy), and (3) detecting touches on objects placed upon the table top (91.7% accuracy). The system can also classify the pressure of chording motions. The system is real time, with an average processing delay of 40 ms.
Keywords :
cameras; infrared imaging; tactile sensors; temperature sensors; user interfaces; Dante vision; Microsoft Kinect; chording motions; depth sensing; natural surface interaction; natural user interfaces; overhead camera; temperature sensing; thermal cameras; thermal footprint; thermal imaging camera; time 40 ms; touch gesture sensing; un-instrumented surface; Cameras; Image segmentation; Real time systems; Sensors; Thumb; depth imaging; natural user interface; sensor fusion; thermal imaging;
Conference_Titel :
Emerging Signal Processing Applications (ESPA), 2012 IEEE International Conference on
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4673-0899-1
DOI :
10.1109/ESPA.2012.6152472
