An Intuitive Textile Input Controller

Submitted by philipp on Thu, 08/20/2020 - 16:06
Abstract
When thinking of textile interfaces, these are often imagined as being integrated into clothing. While this is the most prominent use of fabric, we present a standalone interface that builds on the natural set of interactions a piece of fabric affords, and that is feasible for industrial production. By integrating stitched patterns made of conductive thread into a square piece of fabric, we are able to sense established connections within this pattern and map these to a model how the cloth is folded. An integrated microcontroller tracks these connections and communicates them as two-dimensional continuous value changes to a host application. We present the technical construction of our prototype, a particular clip- on technique to establish the connection between fabric and electronics, and first insights into recognizing different grip gestures.
Heller, F., Lee, H.-Y. (Kriz), Brauner, P., Gries, T., Ziefle, M., Borchers, J.: An Intuitive Textile Input Controller. In: MuC ’15: Mensch und Computer 2015 – Tagungsband. pp. 263–266. De Gruyter Oldenbourg Wissenschaftsverlag, Germany (2015).
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