Intelligent RF-based gesture input devices implemented using e-textiles - Robotics Institute Carnegie Mellon University

Intelligent RF-based gesture input devices implemented using e-textiles

Dana Hughes, Halley Profita, Sarah Radzihovsky, and Nikolaus Correll
Journal Article, Sensors, Vol. 17, No. 2, pp. 219 - 237, February, 2017

Abstract

We present an radio-frequency (RF)-based approach to gesture detection and recognition, using e-textile versions of common transmission lines used in microwave circuits. This approach allows for easy fabrication of input swatches that can detect a continuum of finger positions and similarly basic gestures, using a single measurement line. We demonstrate that the swatches can perform gesture detection when under thin layers of cloth or when weatherproofed, providing a high level of versatility not present with other types of approaches. Additionally, using small convolutional neural networks, low-level gestures can be identified with a high level of accuracy using a small, inexpensive microcontroller, allowing for an intelligent fabric that reports only gestures of interest, rather than a simple sensor requiring constant surveillance from an external computing device. The resulting e-textile smart composite has applications in controlling wearable devices by providing a simple, eyes-free mechanism to input simple gestures.

BibTeX

@article{Hughes-2017-126384,
author = {Dana Hughes and Halley Profita and Sarah Radzihovsky and Nikolaus Correll},
title = {Intelligent RF-based gesture input devices implemented using e-textiles},
journal = {Sensors},
year = {2017},
month = {February},
volume = {17},
number = {2},
pages = {219 - 237},
}