Infinite Brain MR Images: PGGAN-Based Data Augmentation for Tumor Detection-Reference-Cited by-同舟云学术

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Infinite Brain MR Images: PGGAN-Based Data Augmentation for Tumor Detection

Published:2019-09-19 Issue: Volume: Page:291-303
ISSN:2190-3018
Container-title:Neural Approaches to Dynamics of Signal Exchanges
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Author:

Han Changhee,Rundo Leonardo,Araki Ryosuke,Furukawa Yujiro,Mauri Giancarlo,Nakayama Hideki,Hayashi Hideaki

Publisher

Springer Singapore

Link

http://link.springer.com/content/pdf/10.1007/978-981-13-8950-4_27

Reference31 articles.

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2. Rundo, L., Militello, C., Vitabile, S., Russo, G., Pisciotta, P., Marletta, F., Ippolito, M., DArrigo, C., Midiri, M., Gilardi, M.C.: Semi-automatic brain lesion segmentation in Gamma Knife treatments using an unsupervised fuzzy c-means clustering technique. In: Advances in Neural Networks: Computational Intelligence for ICT. Volume 54 of Smart Innovation, Systems and Technologies, pp. 15–26. Springer (2016)

3. Bevilacqua, V., Brunetti, A., Cascarano, G.D., Palmieri, F., Guerriero, A., Moschetta, M.: A deep learning approach for the automatic detection and segmentation in autosomal dominant polycystic kidney disease based on Magnetic Resonance images. In: Proceedings of International Conference on Intelligent Computing (ICIP), pp. 643–649. Springer (2018)

4. Brunetti, A., Carnimeo, L., Trotta, G.F., Bevilacqua, V.: Computer-assisted frameworks for classification of liver, breast and blood neoplasias via neural networks: a survey based on medical images. Neurocomputing 335, 274–298 (2018)

5. Havaei, M., Davy, A., Warde-Farley, D., Biard, A., Courville, A., Bengio, Y., et al.: Brain tumor segmentation with deep neural networks. Med. Image Anal. 35, 18–31 (2017)

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