Online Tensor Max-Norm Regularization via Stochastic Optimization

The advent of ubiquitous multidimensional arrays poses unique challenges for low-rank modeling of tensor data due to higher-order relationships, gross noise, and large dimensions of the tensor. In this paper, we consider online low-rank estimation of tensor data where the multidimensional data are revealed sequentially. Induced by the recently proposed tensor-tensor product (t-product), we rigorously deduce the tensor max-norm and formulate the tensor max-norm into an equivalent tensor factorization form, where the factors consist of a tensor basis component and a coefficient one. With this formulation, we develop an online max-norm regularized tensor decomposition (OMRTD) method by alternatively optimizing over the basis component and the coefficient tensor. The algorithm is scalable to the large-scale setting and the sequence of the solutions produced by OMRTD converges to a stationary point of the expected loss function asymptotically. Further, we extend OMRTD for tensor completion. Numerical experiments demonstrate encouraging results for the effectiveness and robustness of our algorithm. The code is available at https://github.com/twugithub/2024-TMLR-OMRTD.

Authors

• Tong Wu Key Laboratory of Analog Integrated Circuits and Systems (Ministry of Education) School of Integrated Circuits, Xidian University, Xi’an 710071, China

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