Deep-learning blurring correction of images obtained from NIR single-pixel imaging.

IF 1.4 3区 物理与天体物理 Q3 OPTICS
Carlos Osorio Quero, Daniel Durini, Jose Rangel-Magdaleno, Jose Martinez-Carranza, Ruben Ramos-Garcia
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引用次数: 0

Abstract

In challenging scenarios characterized by low-photon conditions or the presence of scattering effects caused by rain, fog, or smoke, conventional silicon-based cameras face limitations in capturing visible images. This often leads to reduced visibility and image contrast. However, using near-infrared (NIR) light within the range of 850-1550 nm offers the advantage of reduced scattering by microparticles, making it an attractive option for imaging in such conditions. Despite NIR's advantages, NIR cameras can be prohibitively expensive. To address this issue, we propose a vision system that leverages NIR active illumination single-pixel imaging (SPI) operating at 1550 nm combined with time of flight operating at 850 nm for 2D image reconstruction, specifically targeting rainy conditions. We incorporate diffusion models into the proposed system to enhance the quality of NIR-SPI images. By simulating various conditions of background illumination and droplet size in an outdoor laboratory scenario, we assess the feasibility of utilizing NIR-SPI as a vision sensor in challenging outdoor environments.

近红外单像素成像图像的深度学习模糊校正。
在具有挑战性的场景中,以低光子条件或由雨、雾或烟雾引起的散射效应为特征,传统的硅基相机在捕捉可见图像方面面临局限性。这通常会导致可视性和图像对比度降低。然而,使用850-1550 nm范围内的近红外(NIR)光提供了减少微粒散射的优势,使其成为在这种条件下成像的有吸引力的选择。尽管近红外技术有诸多优势,但近红外相机的价格可能过高。为了解决这个问题,我们提出了一种视觉系统,该系统利用1550 nm的近红外主动照明单像素成像(SPI),结合850 nm的飞行时间,用于2D图像重建,特别是针对雨天条件。我们将扩散模型纳入所提出的系统,以提高NIR-SPI图像的质量。通过在室外实验室场景中模拟各种背景照明和液滴大小条件,我们评估了在具有挑战性的室外环境中使用NIR-SPI作为视觉传感器的可行性。
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来源期刊
CiteScore
3.40
自引率
10.50%
发文量
417
审稿时长
3 months
期刊介绍: The Journal of the Optical Society of America A (JOSA A) is devoted to developments in any field of classical optics, image science, and vision. JOSA A includes original peer-reviewed papers on such topics as: * Atmospheric optics * Clinical vision * Coherence and Statistical Optics * Color * Diffraction and gratings * Image processing * Machine vision * Physiological optics * Polarization * Scattering * Signal processing * Thin films * Visual optics Also: j opt soc am a.
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