Unexpected corneal reflection phenomenon alters smartphone 3D image-based models of the eye

Journal of Electrical Engineering Pub Date : 2023-12-01 DOI:10.2478/jee-2023-0059

Veronika Kurilová, Dominika Bemberáková, Matúš Kocián, Daniel Šterbák, Tomáš Knapčok, Miriam Palkovič, Samuel Hančák, J. Pavlovičová, M. Oravec, Andrej Thurzo, Petr Kolář, N. Majtánová

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Abstract

Abstract Reconstruction of a 3D eye model by photogrammetry from a smartphone video could be prospectively used in self-diagnosis, screening and telemedicine monitoring of diseases of the front part of the eye and its surroundings. The main use could be found in the treatment of diseases of the curvature and surface of the cornea and in follow-up after some refractive procedures. In our work, we create 3D image-based models of the eye after scanning the face with a smartphone. An unexpected phenomenon appeared during the reconstruction of the transparent cornea – a crater-like depression was formed at the place where nearby objects reflected on the cornea, which corresponds to the first Purkinje image, the so-called glint. We thus encountered complications that may arise when modelling transparent living structures from a video taken in a normal environment, which will need to be solved if we want to create such 3D models of the eye using this method for medical purposes. Another 3D reconstruction approach or additional algorithms must be considered as a future work.

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意想不到的角膜反射现象改变了智能手机基于 3D 图像的眼球模型

摘要通过智能手机视频进行摄影测量重建三维眼球模型，可用于眼球前部及其周围疾病的自我诊断、筛查和远程医疗监测。主要用于角膜曲率和表面疾病的治疗，以及一些屈光手术后的跟踪。在我们的工作中，我们使用智能手机扫描面部后创建了基于图像的眼部三维模型。在重建透明角膜的过程中出现了一个意想不到的现象--在附近物体反射到角膜上的地方形成了一个类似火山口的凹陷，这与第一个普金杰图像（即所谓的闪光）相对应。因此，我们遇到了根据正常环境下拍摄的视频制作透明活体结构模型时可能出现的复杂问题，如果我们想利用这种方法制作用于医疗目的的眼球三维模型，就必须解决这些问题。今后的工作必须考虑采用另一种三维重建方法或其他算法。

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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Journal of Electrical Engineering

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