A Convolutional Neural Network for Ultrasound Plane Wave Image Segmentation with a Small Amount of Phase Array Channel Data.

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Abstract

Single angle plane wave has a huge potential in ultrasound high frame rate imaging, which, however, has a number of difficulties such as low imaging quality and poor segmentation results. To overcome these difficulties, an end-to-end convolutional neural network (CNN) structure from single-angle channel data was proposed to segment images in this paper. The network removed the traditional beamforming process and used raw radio frequency (RF) data as input to directly obtain segmented image. The signal features at each depth were extracted and concatenated to obtain the feature map by a special depth signal extraction module, the feature map was then put into the residual encoder and decoder to obtain the output. A simulated hypoechoic cysts data set of 2000 and an actual industrial defect dataset of 900 were used for training separately. Good results have been achieved in both simulated medical cysts segmentation and actual industrial defects segmentation. Experiments were conducted on both datasets with phase array sparse element data as input, and segmentation results were obtained for both. On the whole, this work achieved better quality segmented images with shorter processing time from single-angle plane wave channel data using convolutional neural networks, compared with other methods, our network has been greatly improved in intersection over union (IOU), F1-score, and processing time. And it indicated that the feasibility of applying deep learning in image segmentation can be improved by using phase array sparse element data as input.