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CHI
2007
ACM
2007
ACM
Exploring affective design for physical controls
Physical controls such as knobs, sliders, and buttons are experiencing a revival as many computing systems progress from personal computing architectures towards ubiquitous computing architectures. We demonstrate a process for measuring and comparing visceral emotional responses of a physical control to performance results of a target acquisition task. In our user study, participants experienced mechanical and rendered friction, inertia, and detent dynamics as they turned a haptic knob towards graphical targets of two different widths and amplitudes. Together, this process and user study provide novel affect- and performance-based design guidance to developers of physical controls for emerging ubiquitous computing environments. Our work bridges extensive human factors work in mechanical systems that peaked in the 1960's, to contemporary trends, with a goal of integrating mechatronic controls into emerging ubiquitous computing systems. Author Keywords Haptic display, physical cont...
Real-time TrafficCHI 2007 | Human Computer Interaction | Ubiquitous Computing Architectures | Ubiquitous Computing Environments | Ubiquitous Computing Systems |
| Added | 30 Nov 2009 |
| Updated | 30 Nov 2009 |
| Type | Conference |
| Year | 2007 |
| Where | CHI |
| Authors | Colin Swindells, Karon E. MacLean, Kellogg S. Booth, Michael J. Meitner |
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