Statistical Optimality of Divide and Conquer Kernel-based Functional Linear Regression
November 20, 2022 ยท Declared Dead ยท ๐ Journal of machine learning research
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Authors
Jiading Liu, Lei Shi
arXiv ID
2211.10968
Category
stat.ML: Machine Learning (Stat)
Cross-listed
cs.LG
Citations
13
Venue
Journal of machine learning research
Last Checked
4 months ago
Abstract
Previous analysis of regularized functional linear regression in a reproducing kernel Hilbert space (RKHS) typically requires the target function to be contained in this kernel space. This paper studies the convergence performance of divide-and-conquer estimators in the scenario that the target function does not necessarily reside in the underlying RKHS. As a decomposition-based scalable approach, the divide-and-conquer estimators of functional linear regression can substantially reduce the algorithmic complexities in time and memory. We develop an integral operator approach to establish sharp finite sample upper bounds for prediction with divide-and-conquer estimators under various regularity conditions of explanatory variables and target function. We also prove the asymptotic optimality of the derived rates by building the mini-max lower bounds. Finally, we consider the convergence of noiseless estimators and show that the rates can be arbitrarily fast under mild conditions.
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