Title :
Analysis of Short Term Path Prediction of Human Locomotion for Augmented and Virtual Reality Applications
Author :
Nescher, Thomas ; Kunz, Andreas
Author_Institution :
Innovation Center Virtual Reality (ICVR), ETH Zurich, Zurich, Switzerland
Abstract :
When human locomotion is used to interact with virtual or augmented environments, the system´s immersion could be improved by providing reliable information about the user´s walking intention. Such a prediction can be derived from tracking data to determine the future walking direction. This paper analyses how tracking data relates to navigation decisions from an egocentric view in order to achieve a reliable and stable path prediction. Since tracking data is noisy, a smoothening is required that eliminates oscillations while still recognizing trends in human locomotion. Thus, we analyze different approaches for path prediction, determine relevant setting values, and verify the results by a user study. Results indicate that robust short term prediction of human locomotion is possible but care must be taken when designing such a predictor.
Keywords :
augmented reality; augmented reality applications; data tracking; egocentric view; human locomotion; navigation decisions; setting values; short term path prediction; system immersion; user study; user walking intention; virtual reality applications; Humans; Legged locomotion; Market research; Smoothing methods; Tracking; Vectors; Virtual environments; augmented reality; exponential smoothing; facing direction; head tracking; human path prediction; prediction; virtual reality; walking direction;
Conference_Titel :
Cyberworlds (CW), 2012 International Conference on
Conference_Location :
Darmstadt
Print_ISBN :
978-1-4673-2736-7
