Large Field‐Of‐View Imaging Through Scattering Layers With Optimized Illumination and Localization–Grayscale Fusion

IF 10 1区物理与天体物理 Q1 OPTICS

Laser & Photonics Reviews Pub Date : 2025-09-28 DOI:10.1002/lpor.202501315

Haiming Yuan, Fei Wang, Jingdan Liu, Guohai Situ

引用次数: 0

Abstract

Optical imaging through inhomogeneous scattering media is essential, particularly in medical imaging, where enhanced penetration depth and an expanded field‐of‐view (FOV) are urgently demanded. Non‐negative matrix factorization (NMF) provides an effective solution for large FOV non‐invasive imaging through scattering layers. However, the emerging NMF requires extensive measurement data across multiple encoding patterns. Furthermore, NMF reconstructions often suffer from loss of grayscale accuracy and the inclusion of background noise. Here, an innovative method is presented that leverages encoding‐sparsity optimization (ESO) to decrease the amount of data required by approximately an order of magnitude. Additionally, a precise reconstruction algorithm is introduced using Localization and Grayscale‐Fusion (LG‐Fusion), which eliminates background noise and extends the FOV to 4.3 times the memory effect range (MER). The technique enables efficient, high‐quality imaging with large FOVs through a 200‐‐thick mouse brain.

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基于优化照明和定位-灰度融合的散射层大视场成像

通过非均匀散射介质进行光学成像是必不可少的，特别是在医学成像中，迫切需要增强穿透深度和扩大视场（FOV）。非负矩阵分解（NMF）为大视场散射层无创成像提供了有效的解决方案。然而，新兴的NMF需要跨多种编码模式的广泛测量数据。此外，NMF重建经常遭受灰度精度的损失和背景噪声的包含。本文提出了一种创新的方法，利用编码稀疏性优化（ESO）将所需的数据量减少了大约一个数量级。此外，引入了一种基于定位和灰度融合（LG‐Fusion）的精确重建算法，该算法消除了背景噪声，并将视场扩展到记忆效应范围（MER）的4.3倍。该技术可以通过200英尺厚的小鼠大脑，实现高效、高质量的大视场成像。

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

Laser & Photonics Reviews 物理-光学

CiteScore

14.20

自引率

5.50%

发文量

314

审稿时长

2 months

期刊介绍： Laser & Photonics Reviews is a reputable journal that publishes high-quality Reviews, original Research Articles, and Perspectives in the field of photonics and optics. It covers both theoretical and experimental aspects, including recent groundbreaking research, specific advancements, and innovative applications. As evidence of its impact and recognition, Laser & Photonics Reviews boasts a remarkable 2022 Impact Factor of 11.0, according to the Journal Citation Reports from Clarivate Analytics (2023). Moreover, it holds impressive rankings in the InCites Journal Citation Reports: in 2021, it was ranked 6th out of 101 in the field of Optics, 15th out of 161 in Applied Physics, and 12th out of 69 in Condensed Matter Physics. The journal uses the ISSN numbers 1863-8880 for print and 1863-8899 for online publications.