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CHI
2007
ACM
2007
ACM
Endpoint prediction using motion kinematics
Recently proposed novel interaction techniques such as cursor jumping [1] and target expansion for tiled arrangements [13] are predicated on an ability to effectively estimate the endpoint of an input gesture prior to its completion. However, current endpoint estimation techniques lack the precision to make these interaction techniques possible. To address a recognized lack of effective endpoint prediction mechanisms, we propose a new technique for endpoint prediction that applies established laws of motion kinematics in a novel way to the identification of motion endpoint. The technique derives a model of speed over distance that permits extrapolation. We verify our model experimentally using stylus targeting tasks, and demonstrate that our endpoint prediction is almost twice as accurate as the previously tested technique [13] at points more than twice as distant from motion endpoint. Author Keywords Cursor prediction, minimum jerk, Fitts' Law, motion, kinematics. ACM Classifica...
Real-time TrafficCHI 2007 | Endpoint Estimation Techniques | Endpoint Prediction Mechanisms | Human Computer Interaction | Motion Endpoint |
| Added | 30 Nov 2009 |
| Updated | 30 Nov 2009 |
| Type | Conference |
| Year | 2007 |
| Where | CHI |
| Authors | Edward Lank, Yi-Chun Nikko Cheng, Jaime Ruiz |
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