A Non-Inductive Magnetic Eye-Tracker: From Dipole Tracking to Gaze Retrieval

Q3 Physics and Astronomy
V. Biancalana, P. Chessa
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引用次数: 2

Abstract

We analyze the information that can be retrieved from the tracking parameters produced by an innovative wearable eye tracker. The latter is based on a permanent-magnet marked corneal lens and by an array of magnetoresistive detectors that measure the magnetostatic field in several positions in the eye proximity. We demonstrate that, despite missing information due to the axial symmetry of the measured field, physiological constraints or measurement conditions make possible to infer complete eye-pose data. Angular precision and accuracy achieved with the current prototypical device are also assessed and briefly discussed. The results show that the instrumentation considered is suitable as a new, moderately invasive medical diagnostics for the characterization of ocular movements and associated disorders.
一种无感磁眼动仪:从偶极跟踪到视线检索
我们分析了可以从创新的可穿戴眼动仪产生的跟踪参数中检索到的信息。后者是基于永久磁铁标记的角膜镜片和一组磁阻探测器,这些探测器测量眼睛附近几个位置的静磁场。我们证明,尽管由于测量场的轴对称性而丢失了信息,但生理约束或测量条件使推断完整的眼睛姿势数据成为可能。还对当前原型装置实现的角度精度和精度进行了评估和简要讨论。结果表明,所考虑的仪器适合作为一种新的、中等侵入性的医学诊断方法,用于表征眼球运动和相关疾病。
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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来源期刊
Instruments
Instruments Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
0.00%
发文量
70
审稿时长
11 weeks
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