An Explanation of Fitts' Law-like Performance in Gaze-Based Selection Tasks Using a Psychophysics Approach

Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems Pub Date : 2019-05-02 DOI:10.1145/3290605.3300765

Immo Schuetz, T. Scott Murdison, Kevin J. MacKenzie, Marina Zannoli

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引用次数: 30

Abstract

Eye gaze as an input method has been studied since the 1990s, to varied results: some studies found gaze to be more efficient than traditional input methods like a mouse, others far behind. Comparisons are often backed up by Fitts' Law without explicitly acknowledging the ballistic nature of saccadic eye movements. Using a vision science-inspired model, we here show that a Fitts'-like distribution of movement times can arise due to the execution of secondary saccades, especially when targets are small. Study participants selected circular targets using gaze. Seven different target sizes and two saccade distances were used. We then determined performance across target sizes for different sampling windows ("dwell times") and predicted an optimal dwell time range. Best performance was achieved for large targets reachable by a single saccade. Our findings highlight that Fitts' Law, while a suitable approximation in some cases, is an incomplete description of gaze interaction dynamics.

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基于注视的选择任务中Fitts定律表现的心理物理学解释

自20世纪90年代以来，人们就开始研究凝视作为一种输入法，并得出了不同的结果:一些研究发现凝视比鼠标等传统输入法更有效，而另一些研究则远远落后。比较常常得到菲茨定律的支持，而没有明确承认跳眼运动的弹道性质。使用视觉科学启发的模型，我们在这里表明，由于执行二次扫视，特别是当目标很小时，运动时间的菲茨分布可能会出现。研究参与者通过凝视选择圆形目标。使用了七种不同的目标大小和两种扫视距离。然后，我们确定了不同采样窗口(“停留时间”)的目标尺寸的性能，并预测了最佳停留时间范围。对于单次扫视即可到达的大型目标，可以实现最佳性能。我们的研究结果强调，菲茨定律虽然在某些情况下是一个合适的近似值，但对凝视互动动力学的描述并不完整。

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 2019 CHI Conference on Human Factors in Computing Systems

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