Vocabulary for Universal Approximation: A Linguistic Perspective of Mapping Compositions

Abstract

In recent years, deep learning-based sequence modelings, such as language models, have received much attention and success, which pushes researchers to explore the possibility of transforming non-sequential problems into a sequential form. Following this thought, deep neural networks can be represented as composite functions of a sequence of mappings, linear or nonlinear, where each composition can be viewed as a word. However, the weights of linear mappings are undetermined and hence require an infinite number of words. In this article, we investigate the finite case and constructively prove the existence of a finite vocabulary V=\φi: Rd Rd | i=1,...,n\ with n=O(d2) for the universal approximation. That is, for any continuous mapping f: Rd Rd, compact domain and >0, there is a sequence of mappings φi1, ..., φim ∈ V, m ∈ Z+, such that the composition φim ... φi1 approximates f on with an error less than . Our results demonstrate an unusual approximation power of mapping compositions and motivate a novel compositional model for regular languages.