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DMD Mask Construction to Suppress Blocky Structural Artifacts for Medium Wave Infrared Focal Plane Array-Based Compressive Imaging

机译：DMD面膜结构抑制基于中波红外焦平面阵列的压缩成像的块状结构伪影

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With medium wave infrared (MWIR) focal plane array-based (FPA) compressive imaging (CI), high-resolution images can be obtained with a low-resolution MWIR sensor. However, restricted by the size of digital micro-mirror devices (DMD), aperture interference is inevitable. According to the system model of FPA CI, aperture interference aggravates the blocky structural artifacts (BSA) in the reconstructed images, which reduces the image quality. In this paper, we propose a novel DMD mask design strategy, which can effectively suppress BSA and maximize the reconstruction efficiency. Compared with random binary codes, the storage space and computation cost can be significantly reduced. Based on the actual MWIR FPA CI system, we demonstrate the proposed DMD masks can effectively suppress the BSA in the reconstructed images. In addition, a new evaluation index, blocky root mean square error, is proposed to indicate the BSA in FPA CI.

机译：利用中波红外（MWIR）焦平面阵列基（FPA）压缩成像（CI），可以用低分辨率MWIR传感器获得高分辨率图像。然而，限制了数字微镜设备（DMD）的大小，光圈干扰是不可避免的。根据FPA CI的系统模型，光圈干扰加剧了重建图像中的块结构伪影（BSA），这降低了图像质量。在本文中，我们提出了一种新型DMD掩模设计策略，可以有效地抑制BSA并最大限度地提高重建效率。与随机二进制代码相比，可以显着降低存储空间和计算成本。基于实际的MWIR FPA CI系统，我们展示了所提出的DMD掩模可以有效地抑制重建图像中的BSA。另外，建议新的评估指数，块状均方误差，以指示FPA CI中的BSA。

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Zimu Wu; Xia Wang;
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年度 2020
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专利

1. Focal plane array-based compressive imaging in medium wave infrared: modeling, implementation, and challenges [J] . Wu Zimu, Wang Xia Applied optics . 2019,第31期

机译：基于焦平面阵列的基于焦点阵列的压缩成像在中波红外：建模，实施和挑战
2. Identification of microplastic in effluents of waste water treatment plants using focal plane array-based micro-Fourier-transform infrared imaging [J] . Mintenig S. M., Int-Veen I., Loeder M. G. J., Water Research . 2017,第JANa1期

机译：基于焦平面阵列的微傅里叶变换红外成像技术鉴定废水处理厂废水中的微量塑料
3. Sensor Non Uniformity Correction Algorithms and its Real Time Implementation for Infrared Focal Plane Array-based Thermal Imaging System [J] . Ajay Kumar Defence Science Journal . 2013,第6期

机译：基于红外焦平面阵列的热成像系统传感器非均匀性校正算法及其实时实现
4. FPA-CS: Focal plane array-based compressive imaging in short-wave infrared [C] . Huaijin Chen, Asif M. Salman, Sankaranarayanan Aswin C., IEEE Conference on Computer Vision and Pattern Recognition . 2015

机译：FPA-CS：短波红外焦平面阵列的压缩成像
5. Optimization of pre-processing variables for hyperspectral analysis of focal plane array Fourier transform infrared images. [D] . Pinchuk, Tommy. 2006

机译：用于焦平面阵列傅立叶变换红外图像的高光谱分析的预处理变量的优化。
6. DMD Mask Construction to Suppress Blocky Structural Artifacts for Medium Wave Infrared Focal Plane Array-Based Compressive Imaging [O] . Zimu Wu, Xia Wang 2020

机译：DMD掩模构造可抑制基于中波红外焦平面阵列的压缩成像的块状结构伪影
7. FPA-CS: Focal Plane Array-based Compressive Imaging in Short-wave Infrared [O] . 2016

机译：Fpa-Cs：基于焦平面阵列的短波红外压缩成像
8. Focal Plane Array-Based Millimeter Wave Imaging Radiometer [R] . Mirth, L. 2003

机译：基于焦平面阵列的毫米波成像辐射计

DMD Mask Construction to Suppress Blocky Structural Artifacts for Medium Wave Infrared Focal Plane Array-Based Compressive Imaging

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