Ripplet based multimodality Medical Image Fusion using Pulse-Coupled Neural Network and Modified Spatial Frequency

2011 International Conference on Recent Trends in Information Systems Pub Date : 2011-12-01 DOI:10.1109/ReTIS.2011.6146873

Sudeb Das, M. Kundu

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引用次数: 24

Abstract

In this paper, a novel multimodality Medical Image Fusion (MIF) method, based on Ripplet Transform Type-I (RT) using Pulse-Coupled Neural Network (PCNN) is presented. The proposed MIF scheme exploits the advantages of both RT and PCNN to obtain better results. The source medical images are first decomposed by discrete RT (DRT). The low-frequency subbands (LFSs) are fused using the ‘max selection’ rule. For the fusion of high-frequency subbands (HFSs) a PCNN model is utilized. Modified Spatial Frequency (MSF) in DRT domain is input to motivate the PCNN and coefficients in DRT domain with large firing times are selected as coefficients of the fused image. Then inverse DRT (IDRT) is applied to the fused coefficients to get the fused image. The performance of the proposed scheme is evaluated by various quantitative measures like Mutual Information (MI), Spatial Frequency (SF), and Entropy (EN) etc. Visual and quantitative analysis and comparisons show the effectiveness of the proposed scheme in fusing multimodality medical images.

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基于脉动耦合神经网络和修正空间频率的多模态医学图像融合

提出了一种基于脉冲耦合神经网络(PCNN)的ⅰ型涟漪变换(RT)多模医学图像融合(MIF)方法。所提出的MIF方案利用了RT和PCNN的优点，获得了更好的效果。首先对源医学图像进行离散RT (DRT)分解。使用“最大选择”规则融合低频子带(lfs)。对于高频子带的融合，采用PCNN模型。输入DRT域的修正空间频率(MSF)来激励PCNN，选取发射时间较大的DRT域系数作为融合图像的系数。然后对融合系数进行逆DRT (IDRT)处理，得到融合图像。通过互信息(MI)、空间频率(SF)和熵(EN)等量化指标对该方案的性能进行了评价。视觉和定量分析和比较表明了该方案在融合多模态医学图像方面的有效性。

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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2011 International Conference on Recent Trends in Information Systems

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