Domain Shift
Domain shift, the discrepancy between training and deployment data distributions, significantly degrades machine learning model performance. Current research focuses on developing robust algorithms and model architectures, such as U-Nets, Swin Transformers, and diffusion models, to mitigate this issue through techniques like distribution alignment, adversarial training, and knowledge distillation. These efforts are crucial for improving the reliability and generalizability of machine learning models across diverse real-world applications, particularly in medical imaging, autonomous driving, and natural language processing, where data heterogeneity is common. The ultimate goal is to create models that generalize effectively to unseen data, reducing the need for extensive retraining and improving the practical impact of AI systems.
Papers
To Adapt or Not to Adapt? Real-Time Adaptation for Semantic Segmentation
Marc Botet Colomer, Pier Luigi Dovesi, Theodoros Panagiotakopoulos, Joao Frederico Carvalho, Linus Härenstam-Nielsen, Hossein Azizpour, Hedvig Kjellström, Daniel Cremers, Matteo Poggi
Taxonomy Adaptive Cross-Domain Adaptation in Medical Imaging via Optimization Trajectory Distillation
Jianan Fan, Dongnan Liu, Hang Chang, Heng Huang, Mei Chen, Weidong Cai