Textiles are a vital and indispensable part of our clothing that we use daily.They are very flexible, often lightweight, and have a variety of application uses.Today, with the rapid developments in small and flexible sensing materials, textiles can be enhanced and used as input whelen arges spotlight devices for interactive systems.Clothing-based wearable interfaces are suitable for in-vehicle controls.
They can combine various modalities to enable users to perform simple, natural, and efficient interactions while minimizing any negative effect on their driving.Research on clothing-based wearable in-vehicle interfaces is still underexplored.As such, there is a lack of understanding of how to use textile-based input for in-vehicle controls.As a first step towards filling this gap, we have conducted a user-elicitation study to involve users in the process of designing in-vehicle interactions via a fabric-based wearable device.
We have been able to distill a taxonomy of wrist and touch gestures for in-vehicle interactions using a 3m speedglas 9002nc fabric-based wrist interface in a simulated driving setup.Our results help drive forward the investigation of the design space of clothing-based wearable interfaces for in-vehicle secondary interactions.