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Approximation and Non-parametric Estimation of ResNet-type Convolutional Neural Networks
Convolutional neural networks (CNNs) have been shown to achieve optimal
approximation and estimation error rates (in minimax sense) in several function
classes. However, previous analyzed optimal CNNs are unrealistically wide and
difficult to obtain via optimization due to sparse constraints in important
function classes, including the H\"older class. We show a ResNet-type CNN can
attain the minimax optimal error rates in these classes in more plausible
situations -- it can be dense, and its width, channel size, and filter size are
constant with respect to sample size. The key idea is that we can replicate the
learning ability of Fully-connected neural networks (FNNs) by tailored CNNs, as
long as the FNNs have \textit{block-sparse} structures. Our theory is general
in a sense that we can automatically translate any approximation rate achieved
by block-sparse FNNs into that by CNNs. As an application, we derive
approximation and estimation error rates of the aformentioned type of CNNs for
the Barron and H\"older classes with the same strategy.Comment: 8 pages + References 2 pages + Supplemental material 18 page
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