A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
CompositeGesture: Creating Custom Gesture Interfaces with Multiple Mobile or Wearable Devices
Abstract A growing need exists for gesture customization in mobile interaction design. However, two problems hinder gesture customization: (1) lack of sensors available in daily mobile life and (2) difficulty with defining three-dimensional gestures intuitively. In order to resolve these problems, we present CompositeGesture, a mobile application that allows users to customize gestures using the sensors of multiple mobile or wearable devices. Utilizing motion sensors in mobile devices, CompositeGesture allows a user to create personalized gestures. It provides an intuitive gesture creation scheme based on visual coherence of motion representation, definition, and recognition. Applying a glass box approach in gesture definition, users can clearly and intuitively understand how the system works. It allows a user to easily specify a function of mobile application to be executed with a defined gesture. An exploratory user study raised three issues in gesture for command, engaged experience, and social expression. This research proposes a novel way of customizing gestures and prototyping interactive products with complex, personalized gesture interfaces.
CompositeGesture: Creating Custom Gesture Interfaces with Multiple Mobile or Wearable Devices
Abstract A growing need exists for gesture customization in mobile interaction design. However, two problems hinder gesture customization: (1) lack of sensors available in daily mobile life and (2) difficulty with defining three-dimensional gestures intuitively. In order to resolve these problems, we present CompositeGesture, a mobile application that allows users to customize gestures using the sensors of multiple mobile or wearable devices. Utilizing motion sensors in mobile devices, CompositeGesture allows a user to create personalized gestures. It provides an intuitive gesture creation scheme based on visual coherence of motion representation, definition, and recognition. Applying a glass box approach in gesture definition, users can clearly and intuitively understand how the system works. It allows a user to easily specify a function of mobile application to be executed with a defined gesture. An exploratory user study raised three issues in gesture for command, engaged experience, and social expression. This research proposes a novel way of customizing gestures and prototyping interactive products with complex, personalized gesture interfaces.
CompositeGesture: Creating Custom Gesture Interfaces with Multiple Mobile or Wearable Devices
Kim, Ju-Whan (author) / Nam, Tek-Jin (author) / Park, Taiwoo (author)
2014-01-23
6 pages
Article (Journal)
Electronic Resource
English
Prototyping gesture interface , Mobile interaction , Gesture customization , Wearable computer , Prototyping mobile user experience Engineering , Engineering, general , Engineering Design , Mechanical Engineering , Computer-Aided Engineering (CAD, CAE) and Design , Electronics and Microelectronics, Instrumentation , Industrial Design
Concrete: custom solutions for mobile telecommunications
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