XLearning

AI Research

AI Research

Advancing the frontiers of artificial intelligence through innovative research and cutting-edge methodologies.

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Multi-modal Learning

Multi-modal Learning

Pioneering cross-modal understanding and representation learning for complex real-world applications.

Meet Our Team
Computer Vision Innovation

Computer Vision Innovation

Developing robust and interpretable computer vision systems for diverse industrial applications.

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Noisy Correspondence

Noisy Correspondence

Computer VisionImage ProcessingDeep Learning

Noisy correspondence learning emerges as a new research DIRECTION of noisy label learning. Learning with Noisy Correspondence (NC) aims to address the mismatched pairs rather than typical annotation errors. Unlike traditional noisy label learning which primarily addresses incorrect annotations, NC shifts attention to incorrect correspondences between data samples, such as false positive and false negative correspondences.

AI4Science

AI4Science

Computer VisionImage ProcessingDeep Learning

XLearning group is dedicated to investigating core interdisciplinary challenges and developing tailored solutions. Our current endeavors focus on AI4LifeScience (Nat. Comm.'23), and we warmly welcome collaborations and discussions with teams from other fields.

Selected Publications

Clustering

Clustering

Computer VisionImage ProcessingDeep Learning

Clustering is a classic and fundamental problem in machine learning, focused on partitioning instances into distinct clusters based on their inherent semantics in an unsupervised manner, which is closely intertwined with unsupervised representation learning, as both seek to uncover latent structures in data. Clustering serves as a cornerstone for various real-world applications, including anomaly detection, community discovery, and bioinformatics, etc.

Selected Publications