眼动仪校准的自然追求

Michaela Murauer, Michael Haslgrübler, A. Ferscha
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引用次数: 7

摘要

尽管自20世纪80年代以来,基于凝视的交互已经被研究,并为实现认知系统和支持分布式环境中的通用交互提供了有希望的概念,但主要的挑战,如迈达斯触摸问题[16]或校准仍然是研究的常见主题。在这项工作中,提出了自然追求校准,这是一种舒适,不显眼的技术,可以在屏幕外环境中进行注意力检测和眼动仪校准。用户能够执行校准,没有数字用户界面,人工注释的环境,也没有进一步的帮助,只需跟随任何任意移动目标。由于校准过程的特点,它可以同时执行任何主要任务,而不需要积极的用户参与。进行两个阶段的评估过程,以(i)优化第一次设置中的参数设置,(ii)将拟议程序的准确性和用户接受度与现行校准技术进行比较。
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Natural Pursuits for Eye Tracker Calibration
Although, gaze-based interaction has been investigated since the 1980s and provides promising concepts to realize cognitive systems and support universal interaction within distributed environments, the main challenges, such as the Midas touch problem [16] or calibration are still frequent topics of research. In this work, Natural Pursuit Calibration is presented, which is a comfortable, unobtrusive technique enabling ongoing attention detection and eye tracker calibration within an off-screen context. The user is able to perform calibration, without a digital user interface, artificial annotation of the environment nor further assistance, by simply following any arbitrary moving target. Due to the characteristics of the calibration process, it can be executed simultaneously to any primary task, without active user participation. A two-stage evaluation process is conducted to (i) optimize parameter settings in a first setup and (ii) compare the accuracy as well as the user acceptance of the proposed procedure to prevailing calibration techniques.
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