Resnet-Unet-FSOA based cranial nerve segmentation and medial axis extraction using MRI images

A. Vivekraj, S. Sumathi
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引用次数: 0

Abstract

ABSTRACT This paper proposes a Resnet-UNet-Fractional Snake Optimization Algorithm (Res-UNet-FSOA) for cranial nerve segmentation. Firstly, MRI images are considered as input, and thereafter preprocessing is conducted utilizing median filtering. In the module of pre-processing, the image enhancement is carried out based upon improved multiscale vesselness that is in identifying local tubular portions of an image. After that, cranial nerve segmentation is done employing Res-UNet, which is an amalgamation of Resnet and UNet. The network is then trained by a devised optimization approach namely, FSOA. The FSOA is proposed by incorporating Fractional Calculus (FC) and Snake Optimizer (SO). Then, start point and end point extraction is executed utilizing deep seeded region growing (DSRG). At last, medial axis extraction is performed using tensor voting and non-maximum suppression (TV-NMS) method. Furthermore, the proposed approach obtained segmentation accuracy of 0.930, Jaccard coefficient of 0.947, and dice coefficient of 0.950.
基于Resnet-Unet-FSOA的颅神经MRI图像分割与内轴提取
提出了一种用于颅神经分割的Resnet-UNet-Fractional Snake Optimization Algorithm (Res-UNet-FSOA)。首先将MRI图像作为输入,然后利用中值滤波进行预处理。在预处理模块中,基于改进的多尺度容器性进行图像增强,即识别图像的局部管状部分。在此基础上,采用Resnet和UNet相结合的Res-UNet进行颅神经分割。然后通过设计的优化方法即FSOA对网络进行训练。FSOA是通过结合分数阶微积分(FC)和Snake优化器(SO)提出的。然后,利用深度种子区域生长(DSRG)进行起点和终点的提取。最后,采用张量投票和非最大值抑制(TV-NMS)方法提取中轴线。该方法的分割精度为0.930,Jaccard系数为0.947,dice系数为0.950。
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