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反卷积是实现光谱图超分辨复原的重要手段,与常规反卷积相比,盲目反卷积具有不需要预先准确获取卷积核函数的优势。着眼于充分利用光谱信号的特点和已有的光谱图反卷积成果,详细讨论了空域迭代盲目反卷积方法用于光谱图反卷积时的算法实现问题,并在分析光谱图卷积退化过程的基础上,针对光谱图反卷积算法特点,提出了光谱图卷积退化简化计算模型和最小二乘高斯拟合模型,以解决算法中相应的计算问题。基于Matlab平台的仿真表明,对于所用的高斯型谱线和点扩散函数,空域迭代盲目反卷积算法效果良好,在信噪比为50 dB时,分辨率提高约30%。 相似文献
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A novel photopolymer storage medium for holographic storage is presented. In particular, the refractive in-dex of the monomer methyl methacrylate is much lower than that of the binder epoxy resin solidified by m-xylylenediamine, and the material can be developed into samples with dimension stability and high optical quality and thickness of several millimetres or more. Some none-polymeric macromolecule impurity is uniformly mixed into the medium to aid the monomer diffusing and to enhance the diffraction efficiency. A holographic recording medium of 0.8 mm thickness has been fabricated, and relative theoretical analysis and experiments are presented. 相似文献
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提出一种广义互补编码方法,用于一步实现数学形态学击中击不中变换,并以非相干光相关器为光学实现硬件,利用液晶投影板作为实时空间光调制器,研制了一台光电混合目标识别处理器.实验结果表明识别率大于90%,并对带有40%噪声,50%缺损和6°以内旋转的图像甚至不同表情的人脸图像均能识别. 相似文献
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