NotiRing: A Comparative Study of Notification Channels for Wearable Interactive Rings

NotiRing: A Comparative Study of Notification Channels for Wearable Interactive Rings

Authors

Thijs Roumen, Simon T. Perrault, Shengdong Zhao

Paper

Video

Abstract

We conducted an empirical investigation of wearable interactive rings on the noticeability of four instantaneous notification channels (light, vibration, sound, poke) and a channel with gradually increased temperature (thermal) during five levels of physical activity (laying down, sitting, standing, walking, and running). Results showed that vibration was the most reliable and fastest channel to convey notification, followed by poke and sound which shared similar noticeability. The noticeability of these three channels was not affected by the level of physical activity. The other two channels, light and thermal, were less noticeable and were affected by the level of physical activity. Our post-experimental survey indicates that while noticeability has a significant influence on user preference, each channel has its own unique advantages that make it suitable for different notification scenarios.

Author Keywords

Notification; Wearable Computing; Poke; Vibration; Light; Sound; Heat; Ring; Activity.

ACM Classification Keywords

H.5.m. HCI: Miscellaneous.

Shen

Shen is an HCI professor at the National University of Singapore working on realizing his vision of HeadsUp Computing, a new Interaction paradigm that can transform the way we live and interact with computers. In his free time, Shen loves to read, run, spend time with family and friends, and explore nature.

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