Research on Gaze Estimation Method Combined with Head Motion Changes

International Journal of Advanced Network, Monitoring and Controls Pub Date : 2022-01-01 DOI:10.2478/ijanmc-2022-0040

Xiangyi Zhan, Changyuan Wang

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Abstract

Abstract The line of sight reflects the focus of human attention. Gaze estimation technology has a wide range of application prospects in human-computer interaction, human emotion analysis, commercial advertising, and so on. Gaze estimation needs to be jointly determined by eye movement and head movement because the human gaze is often with the head movement. In this paper, a gaze estimation system with head movement is implemented by a monocular camera, using eye movement features and head movement posture changes to estimate the gaze point. A camera is used as the information acquisition device to extract the eye movement feature information, and the offset of head movement is estimated at the same time. The final fixation point position coordinates are obtained by compensating the fixation point position in the case of head movement, and then the fixation point position coordinates are estimated. For the compensated gaze drop point, the average pixel error on the X-axis is estimated to be 118 pixels, and the average pixel error on the Y-axis is estimated to be 136 pixels.

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结合头部运动变化的注视估计方法研究

视线反映了人类注意力的焦点。注视估计技术在人机交互、人类情感分析、商业广告等方面有着广泛的应用前景。由于人的注视往往伴随着头部运动，因此注视估计需要由眼动和头动共同确定。本文利用单目摄像机实现了一种具有头部运动特征的注视点估计系统，利用眼球运动特征和头部运动姿态变化来估计注视点。利用摄像头作为信息采集设备提取眼球运动特征信息，同时估计头部运动偏移量。通过对头部运动情况下的注视点位置进行补偿，得到最终的注视点位置坐标，然后对注视点位置坐标进行估计。对于补偿后的凝视落点，x轴上的平均像素误差估计为118像素，y轴上的平均像素误差估计为136像素。

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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International Journal of Advanced Network, Monitoring and Controls

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