Alexandria Engineering Journal (Feb 2021)

Efficient 3D Deep Learning Model for Medical Image Semantic Segmentation

  • Nasser Alalwan,
  • Amr Abozeid,
  • AbdAllah A. ElHabshy,
  • Ahmed Alzahrani

Journal volume & issue
Vol. 60, no. 1
pp. 1231 – 1239

Abstract

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Medical image segmentation is important for disease diagnosis and support medical decision systems. The study proposes an efficient 3D semantic segmentation deep learning model “3D-DenseUNet-569” for liver and tumor segmentation. The proposed 3D-DenseUNet-569 is a fully 3D semantic segmentation model with a significantly deeper network and lower trainable parameters. The proposed model adopts Depthwise Separable Convolution (DS-Conv) as opposed to traditional convolution. The DS-Conv significantly decreases GPU memory requirements and computational cost and achieves high performance. The proposed 3D-DenseUNet-569 utilizes DensNet connections and UNet links, which preserve low-level features and produce effective results. The results of experimental study on the standard LiTS dataset demonstrate that the 3D-DenseNet-569 model is effective and efficient with respect to related studies.

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