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Main Authors: Mou, Xi, Peng, Xiaopeng, Mou, Tongsheng
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.23051
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author Mou, Xi
Peng, Xiaopeng
Mou, Tongsheng
author_facet Mou, Xi
Peng, Xiaopeng
Mou, Tongsheng
contents Direct-view LED displays are widely adopted in large-format applications due to their high luminance and reliability. However, visual comfort and accurate performance evaluation remain challenging due to the complex interaction between pixel luminance, human visual perception, and measurement artifacts. In this work, we introduce a novel 2D imaging luminance meter that replicates key optical parameters of the human eye, including entrance pupil size and angular resolution, to assess perceived pixel luminance. We report comprehensive measurements across various visual field angles and distances and establish a refined luminance metric that aligns with foveal vision standards (1/120 degree). Furthermore, a new method to quantify and mitigate stray light effects significantly improves measurement precision by reducing luminance overestimation from 7\% to 2\%. Our findings provide a foundation for optimizing LED display design for perceptual comfort and advancing standardization in pixel luminance evaluation.
format Preprint
id arxiv_https___arxiv_org_abs_2512_23051
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Toward Human-Aligned Luminance Measurement for Large-Format LED Displays
Mou, Xi
Peng, Xiaopeng
Mou, Tongsheng
Optics
Direct-view LED displays are widely adopted in large-format applications due to their high luminance and reliability. However, visual comfort and accurate performance evaluation remain challenging due to the complex interaction between pixel luminance, human visual perception, and measurement artifacts. In this work, we introduce a novel 2D imaging luminance meter that replicates key optical parameters of the human eye, including entrance pupil size and angular resolution, to assess perceived pixel luminance. We report comprehensive measurements across various visual field angles and distances and establish a refined luminance metric that aligns with foveal vision standards (1/120 degree). Furthermore, a new method to quantify and mitigate stray light effects significantly improves measurement precision by reducing luminance overestimation from 7\% to 2\%. Our findings provide a foundation for optimizing LED display design for perceptual comfort and advancing standardization in pixel luminance evaluation.
title Toward Human-Aligned Luminance Measurement for Large-Format LED Displays
topic Optics
url https://arxiv.org/abs/2512.23051