Accelerometer-based User Interfaces for the Control of a Physically Simulated Character
Abstract
In late 2006, Nintendo released a new game controller, the Wiimote, which included a three-axis accelerometer. Since then, a large variety of novel applications for these controllers have been developed by both independent and commercial developers. We add to this growing library with three performance interfaces that allow the user to control the motion of a dynamically simulated, animated character through the motion of his or her arms, wrists, or legs. For comparison, we also implement a traditional joystick/button interface. We assess these interfaces by having users test them on a set of tracks containing turns and pits. Two of the interfaces (legs and wrists) were judged to be more immersive and were better liked than the joystick/button interface by our subjects. All three of the Wiimote interfaces provided better control than the joystick interface based on an analysis of the failures seen during the user study.
See the project page at http://graphics.cs.cmu.edu/projects/wii/
BibTeX
@article{Shiratori-2008-10131,author = {Takaaki Shiratori and Jessica K. Hodgins},
title = {Accelerometer-based User Interfaces for the Control of a Physically Simulated Character},
journal = {ACM Transactions on Graphics (TOG)},
year = {2008},
month = {December},
volume = {27},
number = {5},
keywords = {character animation, physical simulation, user interface, Wiimotes},
}