Frederic Kerber
ABSTRACT
The ongoing development of smart, wearable devices opens up a new range of possibilities with respect to human-computer interaction. Recent research has confirmed that smartwatches are primarily used to visualize notifications. However, the limited screen size is at odds with the ever-growing amount of information. Often, explicit interaction is needed to get an overview on the currently available information. We provide an aggregation/filtering approach as well as several displaying concepts based on a self-built, power-efficient smartwatch prototype with twelve full-color LEDs around a low-resolution display. In a user study with twelve participants, we evaluated our concepts, and we conclude with guidelines that could easily be applied to today's smartwatches to provide more expressive notification systems.
- Daniel L. Ashbrook, James R. Clawson, Kent Lyons, Thad E. Starner, and Nirmal Patel. 2008. Quickdraw: The Impact of Mobility and On-Body Placement on Device Access Time. In Proc. CHI '08. 219--222. Google Scholar
Digital Library
- Jutta Fortmann, Heiko Müller, Susanne Boll, and Wilko Heuten. 2013. Illumee: Aesthetic Light Bracelet as a Wearable Information Display for Everyday Life. In Proc. UbiComp Adj. '13. 393--396. Google ScholarDigital Library
- Chris Harrison, John Horstman, Gary Hsieh, and Scott Hudson. 2012. Unlocking the Expressivity of Point Lights. In Proc. CHI '12. 1683--1692. Google ScholarDigital Library
- Chris Harrison, Brian Y. Lim, Aubrey Shick, and Scott E. Hudson. 2009. Where to Locate Wearable Displays? Reaction Time Performance of Visual Alerts from Tip to Toe. In Proc. CHI '09. 941--944. Google ScholarDigital Library
- Sungjae Hwang, John Song, and Junghyeon Gim. 2015. Harmonious Haptics: Enhanced Tactile Feedback Using a Mobile and a Wearable Device. In Proc. CHI EA '15. 295--298. Google ScholarDigital Library
- Frederic Kerber, Tobias Kiefer, and Markus Löchtefeld. 2016. Investigating Interaction Techniques for State-of-the-Art Smartwatches. In Proc. CHI EA '16. 2540--2547. Google ScholarDigital Library
- Frederic Kerber, Antonio Krüger, and Markus Löchtefeld. Investigating the Effectiveness of Peephole Interaction for Smartwatches in a Map Navigation Task. In Proc. MobileHCI '14. 291--294. Google ScholarDigital Library
- Frederic Kerber, Philipp Schardt, and Markus Löchtefeld. 2015. WristRotate: A Personalized Motion Gesture Delimiter for Wrist-Worn Devices. In Proc. MUM '14. 218--222. Google ScholarDigital Library
- Seungyon Claire Lee and Thad Starner. 2010. BuzzWear: Alert Perception in Wearable Tactile Displays on the Wrist. In Proc. CHI '10. 433--442. Google ScholarDigital Library
- Jess McIntosh, Charlie McNeill, Mike Fraser, Frederic Kerber, Markus Löchtefeld, and Antonio Krüger. 2016. EMPress: Practical Hand Gesture Classification with Wrist-Mounted EMG and Pressure Sensing. In Proc. CHI '16. 2332--2342. Google ScholarDigital Library
- Steven Schirra and Frank R. Bentley. 2015. It's Kind of Like an Extra Screen for My Phone: Understanding Everyday Uses of Consumer Smart Watches. In Proc. CHI '15. 2151--2156. Google ScholarDigital Library
- Alireza Sahami Shirazi and Niels Henze. 2015. Assessment of Notifications on Smartwatches. In Proc. MobileHCI Adj. '15. 1111--1116. Google ScholarDigital Library
- Cheng Xu and Kent Lyons. 2015. Shimmering Smartwatches: Exploring the Smartwatch Design Space. In Proc. TEI '15. 69--76. Google ScholarDigital Library
Index Terms
- Managing smartwatch notifications through filtering and ambient illumination
Recommendations
Assessment of Notifications on Smartwatches
MobileHCI '15: Proceedings of the 17th International Conference on Human-Computer Interaction with Mobile Devices and Services AdjunctNotifications are a centerpiece of current mobile devices. With PCs, smartphones, smartwatches, smart glasses, and smart TVs the number of devices that display notifications currently increases. Users receive notifications on multiple devices at the ...
Adding Expressiveness to Smartwatch Notifications Through Ambient Illumination
The ongoing miniaturization of technology provides the possibility to create more and more powerful devices in smaller form factors. One characteristic of this development is smart wearable devices, such as smartwatches, which open up new possibilities ...
Detachable Smartwatch: More Than A Wearable
Glanceability and low access time are arguably the key assets of a smartwatch. However, smartwatches are currently limited to micro-interactions. They do not enable complex interactions and, in general, they do not afford continuous use for long. We ...
Comments