Author of the publication

CAiD: Context-Aware Instance Discrimination for Self-supervised Learning in Medical Imaging.

, , , and . MIDL, volume 172 of Proceedings of Machine Learning Research, page 535-551. PMLR, (2022)

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed. You can also use the button next to the name to display some publications already assigned to the person.

 

Other publications of authors with the same name

Curriculum Self-Supervised Learning for 3D CT Cardiac Image Segmentation., , and . ML4H@NeurIPS, volume 225 of Proceedings of Machine Learning Research, page 145-156. PMLR, (2023)DiRA: Discriminative, Restorative, and Adversarial Learning for Self-supervised Medical Image Analysis., , , and . CVPR, page 20792-20802. IEEE, (2022)CAiD: Context-Aware Instance Discrimination for Self-supervised Learning in Medical Imaging., , , and . MIDL, volume 172 of Proceedings of Machine Learning Research, page 535-551. PMLR, (2022)Benchmarking and Boosting Transformers for Medical Image Classification., , , , , , and . DART@MICCAI, volume 13542 of Lecture Notes in Computer Science, page 12-22. Springer, (2022)A Systematic Benchmarking Analysis of Transfer Learning for Medical Image Analysis., , , , and . DART/FAIR@MICCAI, volume 12968 of Lecture Notes in Computer Science, page 3-13. Springer, (2021)Towards Foundation Models Learned from Anatomy in Medical Imaging via Self-supervision., , and . DART@MICCAI, volume 14293 of Lecture Notes in Computer Science, page 94-104. Springer, (2023)Transferable Visual Words: Exploiting the Semantics of Anatomical Patterns for Self-Supervised Learning., , , , and . IEEE Trans. Medical Imaging, 40 (10): 2857-2868 (2021)Power-aware analysis of H.264/AVC encoding parameters for cloud gaming., , and . ICME Workshops, page 1-6. IEEE Computer Society, (2014)Representing Part-Whole Hierarchies in Foundation Models by Learning Localizability, Composability, and Decomposability from Anatomy via Self-Supervision., , and . CVPR, page 11269-11281. IEEE, (2024)POPAR: Patch Order Prediction and Appearance Recovery for Self-supervised Medical Image Analysis., , , , , , and . DART@MICCAI, volume 13542 of Lecture Notes in Computer Science, page 77-87. Springer, (2022)