[1] S BAKAS, H AKBARI, A SOTIRAS et al. Advancing the cancer genome atlas glioma MRI collections with expert segmentation labels and radiomic features. Scientific Data, 4, 1-13(2017).
[2] Xingbin QI, Li ZHAO, Xuemei LI et al. Automatic segmentation of T2 weighted brain MRI based on histogram gradient calculation. Application Research of Computers, 32, 1576-1579(2015).
[3] S NEMA, A DUDHANE, S MURALA et al. RescueNet:AN unpaired GAN for brain tumor segementation. Biomedical Signal Processing and Control, 55, 101641(2020).
[4] Y ZHANG, B J MATUSZEWSKI, L K SHARK. A novel medical image segmentation mentation method using dynamic programming, 69-74(2007).
[5] J LONG, E SHELHAMER, T DARRELL. Fully convolution networks for semantic segmentation, 3431-3440(2015).
[6] O RONNEBERGER, P FISCHER, T BROX. U-Net:Convolutional networks for biomedical image segmentation, 234-241(2015).
[7] Tao ZHOU, Yali DONG, Shan LIU et al. Cross-modality multi-encoder hybrid attention U-Net for lung tumors images segmentation. Acta Photonica Sinica, 51, 376-392(2022).
[8] Hong HUANG, LÜ Rongfei, Junli TAO et al. Segmentation of lung nodules in CT images using improved UNet++. Acta Photonica Sinica, 50, 73-83(2021).
[9] Ö ÇICEK, A ABDULKADIR, S S LIENKAMP et al. 3D U-Net: learning dense volumetric segmentation from sparse annotation, 424-432(2016).
[10] J SUN, Y PENG, D LI et al. Segmentation of the multimodal brain tumor images used Res-U-Net, 263-273(2021).
[11] Feng XIA, Haijian SHAO, Xing DENG. Cross-stage deep-learning-based MRI fused images of human brain tumor segmentation. Journal of Image and Graphics, 27, 873-884(2022).
[12] R MCKINLEY, M REBSAMEN, K DÄTWYLER et al. Uncertainty-driven refinement of tumor-core segmentation using 3d-to-2d networks with label uncertainty, 401-411(2021).
[13] L PEI, A K MURAT, R COLEN. Multimodal brain tumor segmentation and survival prediction using a 3D self-ensemble ResUNet, 367-375(2021).
[14] Xiaoyu ZHANG, Bin WANG, Weichao AN et al. Glioma segmentation network based on 3DU-Net++ with fusion loss function. Computer Science, 48, 187-193(2021).
[15] W WANG, C CHEN, M DING et al. Transbts: multimodal brain tumor segmentation using transformer, 109-119(2021).
[16] Y XUE, T XU, H ZHANG et al. SegAN:adversarial network with multi-scale L1 loss for medical image segmentation. Neuroinformatics, 382-392(2018).
[17] M HAMGHALAM, B LEI, T WANG. Brain tumor synthetic segmentation in 3D multimodal MRI scans, 153-162(2020).
[18] M D CIRILLO, D ABRAMIAN, A EKLUND. Vox2Vox: 3D-GAN for brain tumour segmentation, 274-284(2021).
[19] S NEMA, A DUDHANE, S MURALA et al. RescueNet: an unpaired GAN for brain tumor segmentation. Biomedical Signal Processing and Control, 55, 101641(2020).
[20] P ISOLA, J Y ZHU, T ZHOU et al. Image-to-image translation with conditional adversarial networks, 1125-1134(2017).
[21] J Y ZHU, T PARK, P ISOLA et al. Unpaired image-to-image translation using cycle-consistent adversarial networks, 2223-2232(2017).
[22] Y DING, C ZHANG, M CAO et al. ToStaGAN: an end-to-end two-stage generative adversarial network for brain tumor segmentation. Neurocomputing, 462, 141-153(2021).
[23] H PEIRIS, Z CHEN, G EGAN et al. Reciprocal adversarial learning for brain tumor segmentation: a solution to BraTS challenge 2021 segmentation task, 171-181(2022).
[24] K HAN, Y WANG, Q TIAN et al. Ghostnet: more features from cheap operations, 1580-1589(2020).
[25] A G HOWARD, M ZHU, B CHEN et al. Mobilenets: Efficient convolutional neural networks for mobile vision applications. arXiv Preprint(2017).
