Brain Tumor Segmentation Using Fully Convolution Neural Network
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-19-9876-8_1
Reference33 articles.
1. Agravat RR, Raval MS (2018) Deep learning for automated brain tumor segmentation in mri images. In: Soft computing based medical image analysis. Elsevier, pp 183–201
2. Agravat RR, Raval MS (2019) Brain tumor segmentation and survival prediction. In: International MICCAI brainlesion workshop. Springer, pp 338–348
3. Agravat RR, Raval MS (2019) Prediction of overall survival of brain tumor patients. In: TENCON 2019–2019 IEEE region 10 conference (TENCON). IEEE, pp 31–35
4. Agravat RR, Raval MS (2020) 3d semantic segmentation of brain tumor for overall survival prediction. In: International MICCAI brainlesion workshop. Springer, pp 215–227
5. Andermatt S, Pezold S, Cattin P (2016) Multi-dimensional gated recurrent units for the segmentation of biomedical 3d-data. In: Deep learning and data labeling for medical applications. Springer, pp 142–151
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