2013 | OriginalPaper | Buchkapitel
An Analysis of Tensor Models for Learning on Structured Data
verfasst von : Maximilian Nickel, Volker Tresp
Erschienen in: Machine Learning and Knowledge Discovery in Databases
Verlag: Springer Berlin Heidelberg
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While tensor factorizations have become increasingly popular for learning on various forms of structured data, only very few theoretical results exist on the generalization abilities of these methods. Here, we discuss the tensor product as a principled way to represent structured data in vector spaces for machine learning tasks. By extending known bounds for matrix factorizations, we are able to derive generalization error bounds for the tensor case. Furthermore, we analyze analytically and experimentally how tensor factorization behaves when applied to over- and understructured representations, for instance, when two-way tensor factorization, i.e. matrix factorization, is applied to three-way tensor data.