一种用于弱小点目标增强的混合中值滤波器及其快速实现

2011 International Conference on Multimedia and Signal Processing Pub Date : 2011-05-14 DOI:10.1109/CMSP.2011.55

Qingyun Yang

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引用次数: 6

摘要

在天文观测图像中，弱星和中高轨道卫星或高轨道卫星都是暗点目标。它们强度低，占用图像的像素很少。在大多数情况下，天空的背景总是不均匀的，并且存在脉冲噪声。从而导致目标淹没在背景噪声中，信噪比低。中值滤波是去除脉冲噪声的有效方法。但在图像信噪比较低的情况下，对非噪声像素进行灰度修改后会使图像模糊。提出了一种混合中值滤波算法来处理低信噪比暗点目标图像。该方法既能抑制脉冲噪声，又能提高目标的信噪比，而且不增加额外的假目标。中值滤波器的时间复杂度为$O(N^2)$($N$为寡妇大小)，难以在硬件上实现。对于准实时应用，提出了混合中值滤波器的快速实现，将时间复杂度降低到$O(N)$。实验结果表明，该算法的视觉效果和性能均优于普通中值滤波和快速中值滤波。

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A Hybrid Median Filter for Enhancing Dim Small Point Targets and Its Fast Implementation

Weak stars and middle altitude orbit satellites or high altitude orbit satellites are presented as dim point targets in images of astronomical observation. They have low intensity and occupy few pixels in image. In most situations, the background of sky is always ununiform and there exists pulse noises. Thus results in targets submerging in background noises and low signal noise ratio $(SNR)$. Median filter is an effective method for removing pulse noise. But it can blur image after modifying gray of non-noise pixels when image has low SNR. A hybrid median filter algorithm is proposed to process low SNR dim point targets image. The newly proposed method can suppress the pulse noises, also can increase target $SNR$ and does not add extra fake targets. The time complexity of median filter is $O(N^2)$($N$ is the widow size) and is difficult to implement in hardware. For quasi real time application, a fast implementation of our hybrid median filter is proposed to reduce the time complexity to $O(N)$. Experimental results show that the newly proposed algorithm is superior to ordinary median filter and fast median filter by comparing visual effect and performance.

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2011 International Conference on Multimedia and Signal Processing

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