基于第一浦肯野图像的眼动仪中三种注视位置校准技术的比较

Comparison of Three Gaze-position Calibration Techniques in First Purkinje Image-based Eye Trackers.

作者信息

Ntodie Michael, Bharadwaj Shrikant R, Balaji Swaathi, Saunders Kathryn J, Little Julie-Anne

机构信息

Optometry and Vision Science Research Group, Biomedical Sciences Research Institute, Ulster University, Coleraine, United Kingdom.

Prof. Brien Holden Eye Research Centre, Hyderabad Eye Research Foundation, L V Prasad Eye Institute, Hyderabad, India.

出版信息

Optom Vis Sci. 2019 Aug;96(8):587-598. doi: 10.1097/OPX.0000000000001405.

DOI:10.1097/OPX.0000000000001405

PMID:31318801

Abstract

SIGNIFICANCE

This study highlights potential differences that can arise in gaze-position estimates from first Purkinje image-based eye trackers based on how individual Hirschberg ratios (HRs) are calculated.

PURPOSE

The purpose of this study was to evaluate the accuracy and repeatability of eccentric-viewing, prism-based, and theoretical techniques that are routinely used to calibrate HR in first Purkinje image-based eye trackers.

METHODS

Hirschberg ratios of 28 participants (18 to 40 years old) were obtained using the PlusOptix PowerRef 3 photorefractor and eye tracker. In the gold standard eccentric-viewing technique, participants viewed eccentric targets (±12°, 4° steps) at 2 m. In the prism-based technique, 4 to 16Δ-D base-out and base-in prisms were placed in 4Δ-D steps before an eye occluded with an infrared filter; the fellow eye fixated a target at 1 m. Each participant's HR was calculated as the slope of the linear regression of the shift in Purkinje image relative to the pupil center for each target eccentricity or induced prism power. Theoretical HR was calculated from the participant's corneal curvature and anterior chamber depth measures. Data collection was repeated on another visit using all three techniques to assess repeatability. Data were also obtained from an Indian cohort (n = 30, 18 to 40 years old) using similar protocols.

RESULTS

Hirschberg ratio ranged from 10.61 to 14.63°/mm (median, 11.90°/mm) in the eccentric-viewing technique. The prism-based and theoretical techniques demonstrated inaccuracies of 12 and 4% relative to the eccentric-viewing technique. The 95% limits of agreement of intrasubject variability were ±2.00, ±0.40, and ±0.30°/mm for the prism-based, eccentric-viewing, and theoretical techniques, respectively (P > .05). Intraclass correlation coefficients (95% confidence interval) were 0.99 (0.98 to 1.00) for eccentric, 0.99 (0.99 to 1.00) for theoretical, and 0.88 (0.74 to 0.94) for prism-based techniques. Similar results were found for the Indian cohort.

CONCLUSIONS

The prism-based and theoretical techniques both demonstrated relative inaccuracies in measures of HR compared with the eccentric-viewing technique. The prism-based technique exhibited the poorest repeatability.

摘要

意义

本研究强调了基于个体 Hirschberg 比率（HR）计算方式的不同，第一代基于浦肯野图像的眼动追踪仪在注视位置估计中可能出现的潜在差异。

目的

本研究的目的是评估在第一代基于浦肯野图像的眼动追踪仪中，用于校准 HR 的偏心注视、棱镜和理论技术的准确性和可重复性。

方法

使用 PlusOptix PowerRef 3 验光仪和眼动追踪仪获取 28 名参与者（18 至 40 岁）的 Hirschberg 比率。在金标准偏心注视技术中，参与者在 2 米处注视偏心目标（±12°，4°步长）。在基于棱镜的技术中，在被红外滤光片遮挡的眼睛前，以 4Δ-D 的步长放置 4 至 16Δ-D 的底向外和底向内棱镜；另一只眼睛注视 1 米处的目标。将每个参与者的 HR 计算为每个目标偏心度或诱导棱镜屈光度下，浦肯野图像相对于瞳孔中心的位移的线性回归斜率。理论 HR 根据参与者的角膜曲率和前房深度测量值计算。使用所有三种技术在另一次就诊时重复数据收集以评估可重复性。还使用类似方案从印度队列（n = 30，18 至 40 岁）获取数据。

结果

在偏心注视技术中，Hirschberg 比率范围为 10.61 至 14.63°/mm（中位数为 11.90°/mm）。与偏心注视技术相比，基于棱镜的技术和理论技术的误差分别为 12%和 4%。基于棱镜的技术、偏心注视技术和理论技术的受试者内变异性的 95%一致性界限分别为±2.00、±0.40 和±0.30°/mm（P > 0.05）。组内相关系数（95%置信区间）对于偏心技术为 0.99（0.98 至 1.00），对于理论技术为 0.99（0.99 至 1.00），对于基于棱镜的技术为 0.88（0.74 至 0.94）。在印度队列中发现了类似结果。