LungSeg-Net: Lung field segmentation using generative adversarial network.

Automatic lung segmentation is an essential step towards the Computer-Aided Diagnosis of the lung CT scan. However, in presence of dense abnormalities, existing methods fail in accurate lung segmentation. In this paper, a generative adversarial networks-based approach is proposed for improving the accuracy of lung segmentation. The proposed network effectively segments the lung region from the surrounding chest region hence, named as LungSeg-Net. In the proposed LungSeg-Net, the input lung CT slices are processed through the trail of encoders which encode these slices into a set of feature maps. Further, a multi-scale dense-feature extraction (MSDFE) module is designed for extraction of multi-scale features from the set of encoded feature maps. Finally, the decoders are employed to obtain the lung segmentation map from the multi-scale features. The MSDFE makes the network to learn the relevant features of dense abnormalities whereas the iterative down-sampling followed by the up-sampling makes it invariant to the size of the dense abnormality. The publicly available benchmark ILD dataset is used for the experimental analysis. The qualitative and quantitative analysis has been carried out to compare the performance of the proposed network with the existing state-of-the-art methods for lung segmentation. The experimental analysis show that the performance of the proposed LungSeg-Net is invariant to the presence of dense abnormalities in lung CT scan. • The proposed end-to-end conditional generative adversarial network for accurate lung segmentation is named as LungSeg-Net which processes the input lung CT slice and gives lung segmentation map without any post-processing. • The proposed LungSeg-Net consists of multi-scale dense feature extraction module which extracts the robust multi-scale features. • The proposed LungSeg-Net is effective for lung segmentation and its performance is invariant to the presence of dense abnormalities (due to ILD patterns) in lung CT scan. [ABSTRACT FROM AUTHOR]