Multiple sub-histogram equalization low light level image enhancement and realization on FPGA

陈. C. Ying, 朱. Z. Ming
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引用次数: 1

Abstract

In order to solve the problems that low light level image has low contrast and it is difficult to distinguish objective,it is necessary to research on low light level image enhancement algorithm.A multiple subhistogram equalization enhancement algorithm is proposed.Initially,in the proposed algorithm,the histogram are separated into four parts according to the area equally.Then,the resultant sub-histograms are clipped according to the average number of pixels of input image to reduce the enhancement phenomenon.In addition,the scale factor is adopted to adjust dynamic range.Finally,each sub-histogram is equalized.The algorithm is implemented on FPGA with verilog language,and is given subjective and objective evaluation.With this algorithm good results can be achieved in real-time on the hardware platform,and the delay of an image processing is about 0.45 ms.Experimental results show that with this proposed algorithm no saturation and noise amplification phenomenon appear,and image details of the processed image are well preserved and highlighted.Thealgorithm meets the real-time requirement and the enhanced images of better visual effect can be achieved.
多个子直方图均衡化弱光图像增强及FPGA实现
为了解决微光图像对比度低、物镜难以分辨等问题,有必要对微光图像增强算法进行研究。提出了一种多亚直方图均衡化增强算法。在该算法中,首先将直方图按面积等分分成四部分。然后,根据输入图像的平均像素数对生成的子直方图进行裁剪,以减少增强现象。此外,采用比例因子调节动态范围。最后,对每个子直方图进行均衡化。该算法在FPGA上用verilog语言实现,并给出了主观和客观评价。该算法在硬件平台上可实现较好的实时性,图像处理延时约为0.45 ms。实验结果表明,该算法不会出现饱和和噪声放大现象,处理后的图像细节得到较好的保留和突出。该算法满足实时性要求,增强后的图像具有较好的视觉效果。
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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