On the use of hidden Markov models for gaze pattern modeling
Document Type
Conference Proceeding
Publication Date
1-1-2016
Publication Title
Proceedings of SPIE - The International Society for Optical Engineering
Volume
9851
Keywords
cognitive workload, gaze metrics, hidden Markov models, Human computer interaction, nearest neighbor index, NNI.
Abstract
Some of the conventional metrics derived from gaze patterns (on computer screens) to study visual attention, engagement and fatigue are saccade counts, nearest neighbor index (NNI) and duration of dwells/fixations. Each of these metrics has drawbacks in modeling the behavior of gaze patterns; one such drawback comes from the fact that some portions on the screen are not as important as some other portions on the screen. This is addressed by computing the eye gaze metrics corresponding to important areas of interest (AOI) on the screen. There are some challenges in developing accurate AOI based metrics: firstly, the definition of AOI is always fuzzy; secondly, it is possible that the AOI may change adaptively over time. Hence, there is a need to introduce eye-gaze metrics that are aware of the AOI in the field of view; at the same time, the new metrics should be able to automatically select the AOI based on the nature of the gazes. In this paper, we propose a novel way of computing NNI based on continuous hidden Markov models (HMM) that model the gazes as 2D Gaussian observations (x-y coordinates of the gaze) with the mean at the center of the AOI and covariance that is related to the concentration of gazes. The proposed modeling allows us to accurately compute the NNI metric in the presence of multiple, undefined AOI on the screen in the presence of intermittent casual gazing that is modeled as random gazes on the screen.
DOI
10.1117/12.2224190
ISSN
0277786X
E-ISSN
1996756X
ISBN
9781510600928
Recommended Citation
Mannaru, Pujitha; Balasingam, Balakumar; Pattipati, Krishna; Sibley, Ciara; and Coyne, Joseph. (2016). On the use of hidden Markov models for gaze pattern modeling. Proceedings of SPIE - The International Society for Optical Engineering, 9851.
https://scholar.uwindsor.ca/computersciencepub/136