Litcius/Paper detail

Fast and Accurate U-Net Model for Fetal Ultrasound Image Segmentation

Vahid Ashkani Chenarlogh, Mostafa Ghelich Oghli, Ali Shabanzadeh, Nasim Sirjani, Ardavan Akhavan, Isaac Shiri, Hossein Arabi, Morteza Sanei Taheri, Mohammad Kazem Tarzamni

2022Ultrasonic Imaging48 citationsDOI

Abstract

U-Net based algorithms, due to their complex computations, include limitations when they are used in clinical devices. In this paper, we addressed this problem through a novel U-Net based architecture that called fast and accurate U-Net for medical image segmentation task. The proposed fast and accurate U-Net model contains four tuned 2D-convolutional, 2D-transposed convolutional, and batch normalization layers as its main layers. There are four blocks in the encoder-decoder path. The results of our proposed architecture were evaluated using a prepared dataset for head circumference and abdominal circumference segmentation tasks, and a public dataset (HC18-Grand challenge dataset) for fetal head circumference measurement. The proposed fast network significantly improved the processing time in comparison with U-Net, dilated U-Net, R2U-Net, attention U-Net, and MFP U-Net. It took 0.47 seconds for segmenting a fetal abdominal image. In addition, over the prepared dataset using the proposed accurate model, Dice and Jaccard coefficients were 97.62% and 95.43% for fetal head segmentation, 95.07%, and 91.99% for fetal abdominal segmentation. Moreover, we have obtained the Dice and Jaccard coefficients of 97.45% and 95.00% using the public HC18-Grand challenge dataset. Based on the obtained results, we have concluded that a fine-tuned and a simple well-structured model used in clinical devices can outperform complex models.

Topics & Concepts

SegmentationComputer scienceJaccard indexArtificial intelligenceImage segmentationFetal headPattern recognition (psychology)FetusPregnancyGeneticsBiologyAdvanced Neural Network ApplicationsAI in cancer detectionCOVID-19 diagnosis using AI