High-resolution eye tracking using scanning laser ophthalmoscopy

Proceedings of the 11th ACM Symposium on Eye Tracking Research & Applications Pub Date : 2019-06-25 DOI:10.1145/3314111.3322877

Norick R. Bowers, A. Gibaldi, Emma Alexander, M. Banks, A. Roorda

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引用次数: 3

Abstract

Current eye-tracking techniques rely primarily on video-based tracking of components of the anterior surfaces of the eye. However, these trackers have several limitations. Their limited resolution precludes study of small fixational eye motion. Furthermore, many of these trackers rely on calibration procedures that do not offer a way to validate their eye motion traces. By comparison, retinal-image-based trackers can track the motion of the retinal image directly, at frequencies greater than 1kHz and with subarcminute accuracy. The retinal image provides a way to validate the eye position at any point in time, offering an unambiguous record of eye motion as a reference for the eye trace. The benefits of using scanning retinal imaging systems as eye trackers, however, comes at the price of different problems that are not present in video-based systems, and need to be solved to obtain robust eye traces. The current abstract provides an overview of retinal-image-based eye tracking methods, provides preliminary eye-tracking results from a tracking scanning-laser ophthalmoscope (TSLO), and proposes a new binocular line-scanning eye-tracking system.

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使用扫描激光检眼镜进行高分辨率眼动追踪

目前的眼动追踪技术主要依赖于基于视频的对眼球前表面成分的追踪。然而，这些跟踪器有几个限制。它们有限的分辨率妨碍了对眼球微小注视运动的研究。此外，许多这些追踪器依赖于校准程序，而这些程序并没有提供验证眼球运动轨迹的方法。相比之下，基于视网膜图像的跟踪器可以直接跟踪视网膜图像的运动，频率大于1kHz，精度为亚弧分。视网膜图像提供了一种在任何时间点验证眼睛位置的方法，提供了一个明确的眼球运动记录作为眼球追踪的参考。然而，使用扫描视网膜成像系统作为眼动追踪器的好处是以视频系统中不存在的各种问题为代价的，并且需要解决这些问题以获得强大的眼动追踪。本文综述了基于视网膜图像的眼动追踪方法，给出了跟踪扫描-激光检眼镜(TSLO)眼动追踪的初步结果，并提出了一种新的双目线扫描眼动追踪系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 11th ACM Symposium on Eye Tracking Research & Applications

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