English

Expeditious Saliency-guided Mix-up through Random Gradient Thresholding

Computer Vision and Pattern Recognition 2023-08-14 v3 Artificial Intelligence

Abstract

Mix-up training approaches have proven to be effective in improving the generalization ability of Deep Neural Networks. Over the years, the research community expands mix-up methods into two directions, with extensive efforts to improve saliency-guided procedures but minimal focus on the arbitrary path, leaving the randomization domain unexplored. In this paper, inspired by the superior qualities of each direction over one another, we introduce a novel method that lies at the junction of the two routes. By combining the best elements of randomness and saliency utilization, our method balances speed, simplicity, and accuracy. We name our method R-Mix following the concept of "Random Mix-up". We demonstrate its effectiveness in generalization, weakly supervised object localization, calibration, and robustness to adversarial attacks. Finally, in order to address the question of whether there exists a better decision protocol, we train a Reinforcement Learning agent that decides the mix-up policies based on the classifier's performance, reducing dependency on human-designed objectives and hyperparameter tuning. Extensive experiments further show that the agent is capable of performing at the cutting-edge level, laying the foundation for a fully automatic mix-up. Our code is released at [https://github.com/minhlong94/Random-Mixup].

Keywords

Cite

@article{arxiv.2212.04875,
  title  = {Expeditious Saliency-guided Mix-up through Random Gradient Thresholding},
  author = {Minh-Long Luu and Zeyi Huang and Eric P. Xing and Yong Jae Lee and Haohan Wang},
  journal= {arXiv preprint arXiv:2212.04875},
  year   = {2023}
}

Comments

Accepted Long paper at 2nd Practical-DL Workshop at AAAI 2023

R2 v1 2026-06-28T07:27:49.684Z