22,026 research outputs found
Resonating Experiences of Self and Others enabled by a Tangible Somaesthetic Design
Digitalization is penetrating every aspect of everyday life including a
human's heart beating, which can easily be sensed by wearable sensors and
displayed for others to see, feel, and potentially "bodily resonate" with.
Previous work in studying human interactions and interaction designs with
physiological data, such as a heart's pulse rate, have argued that feeding it
back to the users may, for example support users' mindfulness and
self-awareness during various everyday activities and ultimately support their
wellbeing. Inspired by Somaesthetics as a discipline, which focuses on an
appreciation of the living body's role in all our experiences, we designed and
explored mobile tangible heart beat displays, which enable rich forms of bodily
experiencing oneself and others in social proximity. In this paper, we first
report on the design process of tangible heart displays and then present
results of a field study with 30 pairs of participants. Participants were asked
to use the tangible heart displays during watching movies together and report
their experience in three different heart display conditions (i.e., displaying
their own heart beat, their partner's heart beat, and watching a movie without
a heart display). We found, for example that participants reported significant
effects in experiencing sensory immersion when they felt their own heart beats
compared to the condition without any heart beat display, and that feeling
their partner's heart beats resulted in significant effects on social
experience. We refer to resonance theory to discuss the results, highlighting
the potential of how ubiquitous technology could utilize physiological data to
provide resonance in a modern society facing social acceleration.Comment: 18 page
Dynamic Composite Data Physicalization Using Wheeled Micro-Robots
This paper introduces dynamic composite physicalizations, a new class of physical visualizations that use collections of self-propelled objects to represent data. Dynamic composite physicalizations can be used both to give physical form to well-known interactive visualization techniques, and to explore new visualizations and interaction paradigms. We first propose a design space characterizing composite physicalizations based on previous work in the fields of Information Visualization and Human Computer Interaction. We illustrate dynamic composite physicalizations in two scenarios demonstrating potential benefits for collaboration and decision making, as well as new opportunities for physical interaction. We then describe our implementation using wheeled micro-robots capable of locating themselves and sensing user input, before discussing limitations and opportunities for future work
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CreaTable Content and Tangible Interaction in Aphasia
Multimedia digital content (combining pictures, text and music) is ubiquitous. The process of creating such content using existing tools typically requires complex, language-laden interactions which pose a challenge for users with aphasia (a language impairment following brain injury). Tangible interactions offer a potential means to address this challenge, however, there has been little work exploring their potential for this purpose. In this paper, we present CreaTable – a platform that enables us to explore tangible interaction as a means of supporting digital content creation for people with aphasia. We report details of the co-design of CreaTable and findings from a digital creativity workshop. Workshop findings indicated that CreaTable enabled people with aphasia to create something they would not otherwise have been able to. We report how users’ aphasia profiles affected their experience, describe tensions in collaborative content creation and provide insight into more accessible content creation using tangibles
Emerging technologies for learning (volume 1)
Collection of 5 articles on emerging technologies and trend
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