Augmenting Online Algorithms with ε-Accurate Predictions
A growing body of work in learning-augmented online algorithms studies how online algorithms can be improved when given access to ML predictions about the future. Motivated by ML models that give a confidence parameter for their predictions, we study online algorithms with predictions that are ε-accurate: namely, each prediction is correct with probability (at least) ε, but can be arbitrarily inaccurate with the remaining probability. We show that even with predictions that are accurate with a small probability and arbitrarily inaccurate otherwise, we can dramatically outperform worst-case bounds for a range of classical online problems including caching, online set cover, and online facility location. Our main results are an O(log(1/ε))-competitive algorithm for caching, and a simple O(1/ε)-competitive algorithm for a large family of covering problems, including set cover, network design, and facility location, with ε-accurate predictions.
Duke Scholars
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- 4611 Machine learning
- 1702 Cognitive Sciences
- 1701 Psychology
Citation
Published In
ISSN
Publication Date
Volume
Related Subject Headings
- 4611 Machine learning
- 1702 Cognitive Sciences
- 1701 Psychology