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Fine-grained Generalization Analysis of Structured Output Prediction

Machine Learning 2021-06-03 v1 Machine Learning

Abstract

In machine learning we often encounter structured output prediction problems (SOPPs), i.e. problems where the output space admits a rich internal structure. Application domains where SOPPs naturally occur include natural language processing, speech recognition, and computer vision. Typical SOPPs have an extremely large label set, which grows exponentially as a function of the size of the output. Existing generalization analysis implies generalization bounds with at least a square-root dependency on the cardinality dd of the label set, which can be vacuous in practice. In this paper, we significantly improve the state of the art by developing novel high-probability bounds with a logarithmic dependency on dd. Moreover, we leverage the lens of algorithmic stability to develop generalization bounds in expectation without any dependency on dd. Our results therefore build a solid theoretical foundation for learning in large-scale SOPPs. Furthermore, we extend our results to learning with weakly dependent data.

Keywords

Cite

@article{arxiv.2106.00115,
  title  = {Fine-grained Generalization Analysis of Structured Output Prediction},
  author = {Waleed Mustafa and Yunwen Lei and Antoine Ledent and Marius Kloft},
  journal= {arXiv preprint arXiv:2106.00115},
  year   = {2021}
}

Comments

To appearn in IJCAI 2021

R2 v1 2026-06-24T02:41:00.807Z