Maintaining and modifying pace through tactile and multimodal feedback

► We developed a mobile application to monitor and modify walking habits. ► We examined the feasibility of the solution with older adults. ► Tactile signals presented could support participants in walking at a range of paces. ► We then compared the impact of different types of feedback on walking be...

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Bibliographic Details
Published in:Interacting with computers 2011-05, Vol.23 (3), p.214-225
Main Authors: Qian, Huimin, Kuber, Ravi, Sears, Andrew, Murphy, Emma
Format: Article
Language:English
Subjects:
Adults
Cues
Feedback
Habits
Mobile communication systems
Monitors
Multimodal
Tactile
Walking
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Summary:► We developed a mobile application to monitor and modify walking habits. ► We examined the feasibility of the solution with older adults. ► Tactile signals presented could support participants in walking at a range of paces. ► We then compared the impact of different types of feedback on walking behavior. ► Pace was maintained more consistently when audio was presented alongside tactile cues. Older adults are recommended to remain physically active to reduce the risk of chronic diseases and to maintain psychological well-being. At the same time, research also suggests that levels of fitness can be raised among this group. This paper describes the development and evaluation of a mobile technology, which enables older adults to monitor and modify their walking habits, with the long-term aim of sustaining appropriate levels of physical activity. An empirical study was conducted with twenty older adults to determine the feasibility of the proposed solution, with results indicating that tactile signals could be perceived while in motion and could support participants in walking at a range of paces. However, the effects were difficult to discern due to limitations of the hardware. In response, a novel low-cost prototype was developed to amplify vibrations, and effectiveness of redundant auditory information was investigated with the goal of enhancing the perception of the cues. A second study was conducted to determine the impact of multimodal feedback on walking behavior. Findings revealed that participants were able to maintain a desired level of pace more consistently when redundant auditory information was presented alongside the tactile feedback. When the visual channel is not available, these results suggest that tactile cues presented via a mobile device should be augmented with auditory feedback. Our research also suggests that mobile devices could be made more effective for alternative applications if they are designed to allow for stronger tactile feedback.
ISSN:0953-5438
1873-7951
DOI:10.1016/j.intcom.2011.02.007