Dartmouth-led team develops smartwatch with all the moves

08 May 2017

In an effort to make digital smartwatches more convenient for their users, researchers at Dartmouth College and the University of Waterloo have produced a prototype watch face that moves in five different directions.

 
The Cito prototype rotates, hinges, translates, rises and orbits to add convenience for smartwatch users / Image: Jun Gong  

With the ability to rotate, hinge, translate, rise and orbit, the model dramatically improves functionality and addresses limitations of today's fixed-face watches.

"Users want smartwatches that fit their lifestyles and needs," said Xing-Dong Yang, assistant professor of computer science at Dartmouth. "The Cito prototype is an exciting innovation that could give consumers even more great reasons to wear smartwatches."

Most smartwatch research primarily addresses how users can more easily input information. Cito, designed and engineered by Jun Gong, Lan Li, Daniel Vogel, and Yang, aims to remove awkward moments associated with using smartwatches by improving how the device presents data to the wearer.

Examples of watch movement - or actuation - include automatically orbiting around the wristband to allow viewing when the wrist is facing away from the user; rising to alert the wearer of a notification if the user is playing a game; hinging to allow a companion to view the watch face; and translating to reveal the watch face from underneath a shirt sleeve.

"Consumers will question the need for smartwatches if the devices are just not convenient enough. Cito proves the true potential of smartwatches and shows that they can be functional and fun," said Yang.

According to a research paper submitted at CHI 2017, the five watch-face movements can be performed independently or together. Beyond making the watches more convenient for users, the technology can provide important benefits to wearers with physical disabilities or other impairments.

The design concept is the latest innovation from the same Dartmouth lab that has studied other smartwatch innovations including Wrist-Whirl, a smartwatch that uses the wrist as a joystick to perform gestures and Doppio, a smartwatch with dual touchscreens.

"We recognize that our work investigates a radical idea, but our hope is that we also show how a methodical and principled approach can explore any such radical visions," the research team said in its paper.

In developing the prototype, researchers conducted two separate studies to confirm the usefulness, social acceptability and perceived comfort of different watch movements and usage contexts.

With continued research, the team is planning to integrate innovations like an ultra-sonic motor to reduce bulk and increase battery life to make the actuated watch technology more practical.