Slippage-robust gaze tracking for near-eye display
In recent years, head-mounted near-eye display devices have become the key hardware
foundation for virtual reality and augmented reality. Thus head-mounted gaze tracking
technology has received attention as an essential part of human-computer interaction.
However, unavoidable slippage of head-mounted devices (HMD) often results higher gaze
tracking errors and hinders the practical usage of HMD. To tackle this problem, we propose
a slippage-robust gaze tracking for near-eye display method based on the aspheric eyeball …
foundation for virtual reality and augmented reality. Thus head-mounted gaze tracking
technology has received attention as an essential part of human-computer interaction.
However, unavoidable slippage of head-mounted devices (HMD) often results higher gaze
tracking errors and hinders the practical usage of HMD. To tackle this problem, we propose
a slippage-robust gaze tracking for near-eye display method based on the aspheric eyeball …
In recent years, head-mounted near-eye display devices have become the key hardware foundation for virtual reality and augmented reality. Thus head-mounted gaze tracking technology has received attention as an essential part of human-computer interaction. However, unavoidable slippage of head-mounted devices (HMD) often results higher gaze tracking errors and hinders the practical usage of HMD. To tackle this problem, we propose a slippage-robust gaze tracking for near-eye display method based on the aspheric eyeball model and accurately compute the eyeball optical axis and rotation center. We tested several methods on datasets with slippage and the experimental results show that the proposed method significantly outperforms the previous method (almost double the suboptimal method).
arxiv.org
Showing the best result for this search. See all results