Mr. Masato Yoshikawa Profile

Masato Yoshikawa

at Ricoh Co Ltd

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Proceedings Article | 7 March 2022 Poster + Presentation + Paper

Autonomous calibration for gaze detection using Bayesian estimation and canonical correlation analysis

Saori Yoshida, Masato Yoshikawa, Suguru Sangu

Proceedings Volume 11931, 1193103 (2022) https://doi.org/10.1117/12.2611929

KEYWORDS: Eye, Sensors, Glasses, Calibration, Canonical correlation analysis, Simulation of CCA and DLA aggregates, Vertical cavity surface emitting lasers

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For daily use of AR technology, the development of smart glasses which look like ordinary eyeglasses has been accelerated, and eye-tracking devices to support their video expression and natural human-machine interfaces have been attracting attention. Over the past few years, we have been developing a non-video-based eye-tracking system, that consists of a VCSEL array and a position-sensitive detector (PSD), and is implemented on small glass devices without preventing device design and their appearance. In wearable eye-tracking devices, calibration is frequently required, when misalignments of the device and the user switching occur. The most common calibration method is having the user gazes at multiple fixed points, but it interrupts user’s activities and causes stress. To eliminate the calibration stress, a novel algorithm has been proposed, that estimates the shape and position of user’s eyes from continuously detected data and corrects the gaze direction while wearing glasses. The fundamental principle of this algorithm is that such eye parameters affect spatial characteristics of detected laser beam spot on the PSD, reflected on the eye surface. The Bayesian estimation is used to updates the probability distribution of unconscious eye movements, and the eye parameters are identified with the help of the canonical correlation analysis. In this paper, the details of the gaze detection algorithm with autonomous calibration mechanism have been described, and a ray-tracing simulation has been performed for a proof of concept. The results show the applicability of our proposed algorithm to provide an eye-tracking module without any user stress of calibration.

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