English

Tensor Star Tensor Decomposition and Its Applications to Higher-order Compression and Completion

Image and Video Processing 2024-09-10 v2 Signal Processing

Abstract

A novel tensor decomposition framework, termed Tensor Star (TS) decomposition, is proposed which represents a new type of tensor network decomposition based on tensor contractions. This is achieved by connecting the core tensors in a ring shape, whereby the core tensors act as skip connections between the factor tensors and allow for direct correlation characterisation between any two arbitrary dimensions. Uniquely, this makes it possible to decompose an order-NN tensor into NN order-33 factor tensors {Gk}k=1N\{\mathcal{G}_{k}\}_{k=1}^{N} and NN order-44 core tensors {Ck}k=1N\{\mathcal{C}_{k}\}_{k=1}^{N}, which are arranged in a star shape. Unlike the class of Tensor Train (TT) decompositions, these factor tensors are not directly connected to one another. The so obtained core tensors also enable consecutive factor tensors to have different latent ranks. In this way, the TS decomposition alleviates the "curse of dimensionality" and controls the "curse of ranks", exhibiting a storage complexity which scales linearly with the number of dimensions and as the fourth power of the ranks.

Cite

@article{arxiv.2403.10481,
  title  = {Tensor Star Tensor Decomposition and Its Applications to Higher-order Compression and Completion},
  author = {Wuyang Zhou and Yu-Bang Zheng and Qibin Zhao and Danilo Mandic},
  journal= {arXiv preprint arXiv:2403.10481},
  year   = {2024}
}
R2 v1 2026-06-28T15:22:02.806Z