稀疏相机阵列超分辨率成像方向图研究

IF 4.8 2区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Computational Imaging Pub Date : 2025-07-10 DOI:10.1109/TCI.2025.3588025

Tianren Li;Yu Zhang;Tengda Huang;Naishu Jia;Fulin Liu;Yufu Qu;Zhenzhong Wei

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引用次数: 0

摘要

本文研究了多帧超分辨率（SR）成像系统中稀疏相机阵列的定量模式设计。我们提出了重复光谱加权比（WRRS）度量来预测稀疏相机阵列的超分辨率性能。WRRS由成像场景能量分布决定的权值和阵列模式决定的重复光谱强度比组成。该方法在不建立实际成像系统的情况下，实现了特定场景下稀疏相机阵列方向图的优化。真实图像实验表明，WRRS与SR图像质量分布的中位数相关。在此基础上，设计了一种针对变物距飞机场景的六摄像头稀疏相机阵列。与目前定性和定量设计的方向图相比，本文提出的针对飞机的稀疏相机阵列方向图在飞机场景中具有更好的平均PSNR。

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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Pattern Research on Sparse Camera Array for Super-Resolution Imaging

This study addresses the quantitative pattern design of sparse camera arrays in multi-frame super-resolution (SR) imaging systems. We propose the Weighted Ratio of Repeated Spectra (WRRS) metric to predict the super-resolution performance of sparse camera arrays. The WRRS consists of the weight determined by the energy distribution of the imaging scene, and the ratio of repeated spectra intensity determined by array patterns. Our method achieves the optimization of sparse camera array pattern under certain scene without building an actual imaging system. The real image experiment shows that the WRRS is correlated with the median of the SR image quality distribution. Subsequently, a six-camera sparse camera array is designed for aircraft scene with varying object distance. Compared with current qualitatively and quantitatively designed patterns, the proposed sparse camera array pattern that specifically designed for aircraft achieves better average PSNR in the aircraft scene.

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来源期刊

IEEE Transactions on Computational Imaging Mathematics-Computational Mathematics

CiteScore

8.20

自引率

7.40%

发文量

期刊介绍： The IEEE Transactions on Computational Imaging will publish articles where computation plays an integral role in the image formation process. Papers will cover all areas of computational imaging ranging from fundamental theoretical methods to the latest innovative computational imaging system designs. Topics of interest will include advanced algorithms and mathematical techniques, model-based data inversion, methods for image and signal recovery from sparse and incomplete data, techniques for non-traditional sensing of image data, methods for dynamic information acquisition and extraction from imaging sensors, software and hardware for efficient computation in imaging systems, and highly novel imaging system design.