Abstract
Eye tracking (ET) has shown to reveal the wearer’s cognitive processes using the measurement of the central point of foveal vision. However, traditional ET evaluation methods have not been able to take into account the wearers’ use of the peripheral field of vision. We propose an algorithmic enhancement to a state-of-the-art ET analysis method, the Object- Gaze Distance (OGD), which additionally allows the quantification of near-peripheral gaze behavior in complex real-world environments. The algorithm uses machine learning for area of interest (AOI) detection and computes the minimal 2D Euclidean pixel distance to the gaze point, creating a continuous gaze-based time-series. Based on an evaluation of two AOIs in a real surgical procedure, the results show that a considerable increase of interpretable fixation data from 23.8 % to 78.3 % of AOI screw and from 4.5 % to 67.2 % of AOI screwdriver was achieved, when incorporating the near-peripheral field of vision. Additionally, the evaluation of a multi-OGD time series representation has shown the potential to reveal novel gaze patterns, which may provide a more accurate depiction of human gaze behavior in multi-object environments.
Highlights
Eye tracking (ET) has proven to be a powerful tool for analyzing behavioral patterns, both in laboratory and in real-world environments (Bulling, Weichel, & Gellersen, 2013; Causse et al, 2019)
The details of how the data was recorded in the surgical environment, the functionality of the presented algorithm, and the analysis performed for the evaluation of the Object-Gaze Distance (OGD) metric, are described
The benefits of OGD as an improved extension of traditional area of interest (AOI) Hit mapping analysis are evaluated in three parts
Summary
Eye tracking (ET) has proven to be a powerful tool for analyzing behavioral patterns, both in laboratory and in real-world environments (Bulling, Weichel, & Gellersen, 2013; Causse et al, 2019). Received January 19, 2021; Published May 19, 2021. Object-gaze distance: Quantifying near-peripheral gaze behavior in real-world applications. To reveal and quantify cognitive strategies during goal-oriented tasks (Hou, Chang, & Sung, 2009). Due to easier accessibility of the technology in recent years, it has been increasingly used for the investigation of visual expertise in medicine (Castner et al, 2020; Fox, 2017), in order to increase the effectiveness and diagnostic accuracy of physicians-in-training (van der Gijp et al, 2017)
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