Minimal Width for Universal Property of Deep RNN
November 25, 2022 ยท Declared Dead ยท ๐ Journal of machine learning research
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Authors
Chang hoon Song, Geonho Hwang, Jun ho Lee, Myungjoo Kang
arXiv ID
2211.13866
Category
stat.ML: Machine Learning (Stat)
Cross-listed
cs.LG
Citations
15
Venue
Journal of machine learning research
Last Checked
4 months ago
Abstract
A recurrent neural network (RNN) is a widely used deep-learning network for dealing with sequential data. Imitating a dynamical system, an infinite-width RNN can approximate any open dynamical system in a compact domain. In general, deep networks with bounded widths are more effective than wide networks in practice; however, the universal approximation theorem for deep narrow structures has yet to be extensively studied. In this study, we prove the universality of deep narrow RNNs and show that the upper bound of the minimum width for universality can be independent of the length of the data. Specifically, we show that a deep RNN with ReLU activation can approximate any continuous function or $L^p$ function with the widths $d_x+d_y+2$ and $\max\{d_x+1,d_y\}$, respectively, where the target function maps a finite sequence of vectors in $\mathbb{R}^{d_x}$ to a finite sequence of vectors in $\mathbb{R}^{d_y}$. We also compute the additional width required if the activation function is $\tanh$ or more. In addition, we prove the universality of other recurrent networks, such as bidirectional RNNs. Bridging a multi-layer perceptron and an RNN, our theory and proof technique can be an initial step toward further research on deep RNNs.
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