Stephen Bottos scite author profile

Stephen Bottos

5Publications

5Citation Statements Received

48Citation Statements Given

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University of Windsor

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Tracking the Progression of Reading Using Eye-Gaze Point Measurements and Hidden Markov Models

Bottos

Balachandran

2020

IEEE Trans. Instrum. Meas.

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In this paper we consider the problem of tracking the progression of reading through eye-gaze measurements. Such an algorithm is novel and will ultimately help to develop a method of analyzing eye-gaze data which had been collected during reading activity in order to uncover crucial information regarding the individual's interest level and quality of experience while reading a passage of text or book. Additionally, such an approach will serve as a "visual signature" -a method of verifying if an individual has indeed given adequate attention to critical text-based information. Further, an accurate "reading-progression-tracker" has potential applications in educational institutions, e-readers and parenting solutions. Tracking the progression of reading remains a challenging problem due to the fact that eye-gaze movements are highly noisy and the eye-gaze is easily distracted in a limited space, like an e-book. In a prior work, we proposed an approach to analyze eye-gaze fixation points collected while reading a page of text in order to classify each measurement to a line of text; this approach did not consider tracking the progression of reading along the line of text. In this paper, we extend the capabilities of the previous algorithm in order to accurately track the progression of reading along each line. the proposed approach employs least squares batch estimation in order to estimate three states of the horizontal saccade: position, velocity and acceleration. First, the proposed approach is objectively evaluated on a simulated eye-gaze dataset. Then, the proposed algorithm is demonstrated on real data collected by a Gazepoint eye-tracker while the subject is reading several pages from an electronic book.

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A Novel Slip-Kalman Filter to Track the Progression of Reading Through Eye-Gaze Measurements

Bottos¹,

Balachandran²

2019

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In this paper, we propose an approach to track the progression of eye-gaze while reading a block of text on computer screen. The proposed approach will help to accurately quantify reading, e.g., identifying the lines of text that were read/skipped and estimating the time spent on each line, based on commercially available inexpensive eyetracking devices. The proposed approach is based on a novel slip Kalman filter that is custom designed to track the progression of reading. The performance of the proposed method is demonstrated using 25 pages eyetracking data collected using a commercial desk-mounted eye-tracking device.

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Tracking the Progression of Reading Through Eye-gaze Measurements

Bottos

Balachandran

2019

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Tracking the Progression of Reading Through Eye-gaze Measurements

Bottos¹,

Balachandran²

2019

Preprint

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A Novel Slip-Kalman Filter to Track the Progression of Reading Through Eye-Gaze Measurements

Bottos¹,

Balachandran²

2019

Preprint

View full text Add to dashboard Cite

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Stephen Bottos

Tracking the Progression of Reading Using Eye-Gaze Point Measurements and Hidden Markov Models

A Novel Slip-Kalman Filter to Track the Progression of Reading Through Eye-Gaze Measurements

Tracking the Progression of Reading Through Eye-gaze Measurements

Tracking the Progression of Reading Through Eye-gaze Measurements

A Novel Slip-Kalman Filter to Track the Progression of Reading Through Eye-Gaze Measurements

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