Multi-modal Image Fusion Algorithm based on Variable Parameter Fractional Difference Enhancement

IF 0.6 4区计算机科学 Q4 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY

Journal of Imaging Science and Technology Pub Date : 2020-11-01 DOI:10.2352/j.imagingsci.technol.2020.64.6.060402

Lei Zhang, Linna Ji, Hualong Jiang, Fengbao Yang, Xiaoxia Wang

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引用次数: 1

Abstract

Abstract Multi-modal image fusion can more accurately describe the features of a scene than a single image. Because of the different imaging mechanisms, the difference between multi-modal images is great, which leads to poor contrast of the fused images. Therefore, a simple and effective spatial domain fusion algorithm based on variable parameter fractional difference enhancement is proposed. Based on the characteristics of fractional difference enhancement, a variable parameter fractional difference is introduced, the multi-modal images are repeatedly enhanced, and multiple enhanced images are obtained. A correlation coefficient is applied to constrain the number of enhancement cycles. In addition, an energy contrast is used to extract the contrast features of the image, and the tangent function is simultaneously used to obtain the fusion weight to attain multiple contrast-enhanced initialization fusion images. Finally, the weighted average is applied to obtain the final fused image. Experimental results demonstrate that the proposed fusion algorithm can effectively preserve the contrast features between images and improve the quality of fused images.

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基于变参数分数差分增强的多模态图像融合算法

多模态图像融合比单一图像更能准确地描述场景特征。由于成像机制的不同，多模态图像之间的差异很大，导致融合后的图像对比度较差。为此，提出了一种简单有效的基于变参数分数阶差分增强的空域融合算法。根据分数阶差分增强的特点，引入变参数分数阶差分，对多模态图像进行多次增强，得到多幅增强图像。应用相关系数来约束增强周期的数目。此外，利用能量对比提取图像的对比度特征，同时利用正切函数获取融合权值，得到多幅增强对比度的初始化融合图像。最后，进行加权平均，得到最终的融合图像。实验结果表明，该融合算法能有效地保留图像间的对比度特征，提高融合图像的质量。

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来源期刊

Journal of Imaging Science and Technology 工程技术-成像科学与照相技术

CiteScore

2.00

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： Typical issues include research papers and/or comprehensive reviews from a variety of topical areas. In the spirit of fostering constructive scientific dialog, the Journal accepts Letters to the Editor commenting on previously published articles. Periodically the Journal features a Special Section containing a group of related— usually invited—papers introduced by a Guest Editor. Imaging research topics that have coverage in JIST include: Digital fabrication and biofabrication; Digital printing technologies; 3D imaging: capture, display, and print; Augmented and virtual reality systems; Mobile imaging; Computational and digital photography; Machine vision and learning; Data visualization and analysis; Image and video quality evaluation; Color image science; Image archiving, permanence, and security; Imaging applications including astronomy, medicine, sports, and autonomous vehicles.