Fu Jun, Li Weisheng, Du Jiao, Xiao Bin
Chongqing Key Laboratory of Image Cognition, Chongqing University of Posts and Telecommunications, Chongqing, 400065, China.
Chongqing Key Laboratory of Image Cognition, Chongqing University of Posts and Telecommunications, Chongqing, 400065, China.
Comput Biol Med. 2020 Nov;126:104048. doi: 10.1016/j.compbiomed.2020.104048. Epub 2020 Oct 8.
In recent years, numerous fusion algorithms have been proposed for multimodal medical images. The Laplacian pyramid is one type of multiscale fusion method. Although the pyramid-based fusion algorithm can fuse images well, it has the disadvantages of edge degradation, detail loss and image smoothing as the number of decomposition layers increase, which is harmful for medical diagnosis and analysis.
This paper proposes a medical image fusion algorithm based on the Laplacian pyramid and convolutional neural network reconstruction with local gradient energy strategy, which can greatly improve the edge quality. First, multimodal medical images are reconstructed through convolutional neural network. Then, the Laplacian pyramid is applied in the decomposition and fusion process. The optimal number of decomposition layers is determined by experiments. In addition, a local gradient energy fusion strategy is utilized to fuse the coefficients in each layer. Finally, the fused image is output through Laplacian inverse transformation.
Compared with existing algorithms, our fusion results represent better vision quality performance. Furthermore, our algorithm is considerably superior to the compared algorithms in objective indicators. In addition, in our fusion results of Alzheimer and Glioma, the disease details are much clearer than those of compared algorithms, which can provide a reliable basis for doctors to analyze disease and make pathological diagnoses.
近年来,针对多模态医学图像提出了众多融合算法。拉普拉斯金字塔是一种多尺度融合方法。尽管基于金字塔的融合算法能够很好地融合图像,但随着分解层数的增加,它存在边缘退化、细节丢失和图像平滑等缺点,这对医学诊断和分析是有害的。
本文提出了一种基于拉普拉斯金字塔和具有局部梯度能量策略的卷积神经网络重建的医学图像融合算法,该算法能极大地提高边缘质量。首先,通过卷积神经网络对多模态医学图像进行重建。然后,将拉普拉斯金字塔应用于分解和融合过程。通过实验确定最优分解层数。此外,利用局部梯度能量融合策略对各层系数进行融合。最后,通过拉普拉斯逆变换输出融合图像。
与现有算法相比,我们的融合结果表现出更好的视觉质量性能。此外,我们的算法在客观指标上明显优于比较算法。另外,在我们对阿尔茨海默病和胶质瘤的融合结果中,疾病细节比比较算法的结果清晰得多,这可为医生分析疾病和进行病理诊断提供可靠依据。
