使用增强现实的职业护眼:概念验证

IF 1.4 4区医学 Q4 ENVIRONMENTAL SCIENCES

Radioprotection Pub Date : 2022-01-01 DOI:10.1051/radiopro/2022005

J. Deniel, S. Thommet

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引用次数: 1

摘要

在工作期间，眼睛可能会暴露在非常小而明亮的光源下，例如led，焊接电弧和激光。这样的光源会产生意外的眩光。此外，其光谱的蓝色部分和高辐射使操作人员的视网膜面临蓝光危害的风险。保护工人眼睛的滤光片往往会使他们失去对环境和任务的感知，彩色防护眼镜可以防止可见的激光危害，但会损害看到对准点。研究了增强现实系统作为一种广泛且低成本的方式来保护操作员的眼睛而不损害环境感知。它是用一个虚拟现实头盔制作的，头盔上有一个智能手机，它的摄像头取代了操作员的眼睛。实时图像处理使操作人员能够安全地操作led，焊接电弧和激光。用户可以看到他/她在做什么，同时避免职业暴露和眩光。考虑到视觉人体工程学，该系统被证明是一种潜在有用的个人防护设备，可以抵御如此明亮的光源。此外，它提供了探测非常近红外激光点的能力。

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Occupational eye protection using Augmented Reality: a proof of concept

Eyes can be exposed to very small and bright light sources during occupational time, such as LEDs, welding arcs and lasers. Such light sources produce an accident-generating glare. In addition, the blue part of their spectrum and their high radiance make the operator’s retina at risk for the blue-light hazard. Filters protecting workers eyes tend to make lose the perception of the environment and task, and coloured protective glasses prevent from visible laser hazards but impair seeing alignment spots. An Augmented Reality system was investigated as a widespread and low-cost way to protect the operator’s eyes without impairing environment perception. It is made using a Virtual Reality helmet holding a smartphone, whose camera replaces the operator’s eyes. Real-time image processing allows operators to work safely on LEDs in operation, welding arcs and lasers. The user can see what he/she is doing while avoiding occupational exposure and glare. With visual ergonomics in mind, this system proves to be a potentially useful type of personal protective equipment against such bright light sources. In addition, it offers the ability to detect very near infrared laser spots.

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来源期刊

Radioprotection ENVIRONMENTAL SCIENCES-PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

CiteScore

3.30

自引率

54.50%

发文量

审稿时长

>12 weeks

期刊介绍： Radioprotection publishes articles on all aspects of radiological protection, including non-ionising as well as ionising radiations. Fields of interest range from research, development and theory to operational matters, education and training. The very wide spectrum of its topics includes (theoretical and practical aspects): dosimetry, instrument development, specialized measuring techniques, epidemiology, biological effects (in vivo and in vitro) and risk and environmental impact assessments.