Generative Adversarial Framework for Learning Multiple Clinical Tasks

被引:0
|
作者
Rezaei, Mina [1 ]
Yang, Haojin [1 ]
Meinel, Christoph [1 ]
机构
[1] Hasso Plattner Inst, Internet Technol & Syst, Berlin, Germany
来源
2018 INTERNATIONAL CONFERENCE ON DIGITAL IMAGE COMPUTING: TECHNIQUES AND APPLICATIONS (DICTA) | 2018年
关键词
Generative Adversarial Network; Multiple Clinical Tasks Learning; Imbalanced Learning; NEURAL-NETWORK; SEGMENTATION;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Inspired by the recent success of generative adversarial networks (GANs), we propose a novel adversarial network for learning multiple clinical tasks. We design a conditional generative adversarial network (cGAN) with a new selective weighted loss to mitigate imbalance data problem in medical image analysis. Our proposed method comprises two components: a generator and a discriminator. While the generator is trained on sequential magnetic resonance images (MRI) to learn semantic segmentation and disease classification, the discriminator classifies whether a generated output is real or fake. The generative model and the discriminator model are trained via adversarial loss with two player mini-max game, and with an additional proposed selective weighted loss. The proposed architecture has shown promising performance on the ACDC-2017 benchmark for prediction of cardiac disease beside of semantic segmentation of dual cavities and myocardium vessel. Moreover, we achieved competitive results for brain tumor semantic segmentation and brain disease classification on the BraTS-2017 challenge.
引用
收藏
页码:92 / 99
页数:8
相关论文
共 50 条
  • [21] Quantum generative adversarial learning in photonics
    Wang, Yizhi
    Xue, Shichuan
    Wang, Yaxuan
    Liu, Yong
    Ding, Jiangfang
    Shi, Weixu
    Wang, Dongyang
    Liu, Yingwen
    Fu, Xiang
    Huang, Guangyao
    Huang, Anqi
    Deng, Mingtang
    Wu, Junjie
    OPTICS LETTERS, 2023, 48 (20) : 5197 - 5200
  • [22] Dual generative adversarial active learning
    Guo, Jifeng
    Pang, Zhiqi
    Bai, Miaoyuan
    Xie, Peijiao
    Chen, Yu
    APPLIED INTELLIGENCE, 2021, 51 (08) : 5953 - 5964
  • [23] Deterministic generative adversarial imitation learning
    Zuo, Guoyu
    Chen, Kexin
    Lu, Jiahao
    Huang, Xiangsheng
    NEUROCOMPUTING, 2020, 388 : 60 - 69
  • [24] Mutual learning generative adversarial network
    Mao, Lin
    Wang, Meng
    Yang, Dawei
    Zhang, Rubo
    MULTIMEDIA TOOLS AND APPLICATIONS, 2024, 83 (03) : 7479 - 7503
  • [25] Mutual learning generative adversarial network
    Lin Mao
    Meng Wang
    Dawei Yang
    Rubo Zhang
    Multimedia Tools and Applications, 2024, 83 : 7479 - 7503
  • [26] Generative Adversarial Learning for Spectrum Sensing
    Davaslioglu, Kemal
    Sagduyu, Yalin E.
    2018 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC), 2018,
  • [27] Collaborative Learning of Generative Adversarial Networks
    Tsukahara, Takuya
    Hirakawa, Tsubasa
    Yamashita, Takayoshi
    Fujiyoshi, Hironobu
    VISAPP: PROCEEDINGS OF THE 16TH INTERNATIONAL JOINT CONFERENCE ON COMPUTER VISION, IMAGING AND COMPUTER GRAPHICS THEORY AND APPLICATIONS - VOL. 5: VISAPP, 2021, : 492 - 499
  • [28] Federated transfer learning for auxiliary classifier generative adversarial networks: framework and industrial application
    Guo, Wei
    Wang, Yijin
    Chen, Xin
    Jiang, Pingyu
    JOURNAL OF INTELLIGENT MANUFACTURING, 2024, 35 (04) : 1439 - 1454
  • [29] Framework for imbalanced fault diagnosis of rolling bearing using autoencoding generative adversarial learning
    Rathore, Maan Singh
    Harsha, S. P.
    JOURNAL OF THE BRAZILIAN SOCIETY OF MECHANICAL SCIENCES AND ENGINEERING, 2023, 45 (01)
  • [30] Framework for imbalanced fault diagnosis of rolling bearing using autoencoding generative adversarial learning
    Maan Singh Rathore
    S. P. Harsha
    Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2023, 45
12345