Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition

Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition

Abstract Tensor singular value decomposition (t‐SVD) provides a novel way to decompose a tensor. It has been employed mostly in recovering missing tensor entries from the observed tensor entries. The problem of applying t‐SVD to recover tensors from limited coefficients in any given ortho‐normal bas...

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Main Authors: Shuli Ma, Jianhang Ai, Huiqian Du, Liping Fang, Wenbo Mei
Format: Article
Language:English
Published: Wiley 2021-05-01
Series:IET Signal Processing
Online Access:https://doi.org/10.1049/sil2.12017
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spelling doaj-5889a5bbb2a44423ad894640f1e753642021-08-02T08:25:34ZengWileyIET Signal Processing1751-96751751-96832021-05-0115316218110.1049/sil2.12017Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decompositionShuli Ma0Jianhang Ai1Huiqian Du2Liping Fang3Wenbo Mei4School of Information and Electronics Beijing Institute of Technology Beijing ChinaFaculty of Electrical Engineering Czech Technical University in Prague Prague Czech RepublicSchool of Information and Electronics Beijing Institute of Technology Beijing ChinaSchool of Mathematics and Statistics Beijing Institute of Technology Beijing ChinaSchool of Information and Electronics Beijing Institute of Technology Beijing ChinaAbstract Tensor singular value decomposition (t‐SVD) provides a novel way to decompose a tensor. It has been employed mostly in recovering missing tensor entries from the observed tensor entries. The problem of applying t‐SVD to recover tensors from limited coefficients in any given ortho‐normal basis is addressed. We prove that an n × n × n3 tensor with tubal‐rank r can be efficiently reconstructed by minimising its tubal nuclear norm from its O(rn3n log2(n3n)) randomly sampled coefficients w.r.t any given ortho‐normal basis. In our proof, we extend the matrix coherent conditions to tensor coherent conditions. We first prove the theorem belonging to the case of Fourier‐type basis under certain coherent conditions. Then, we prove that our results hold for any ortho‐normal basis meeting the conditions. Our work covers the existing t‐SVD‐based tensor completion problem as a special case. We conduct numerical experiments on random tensors and dynamic magnetic resonance images (d‐MRI) to demonstrate the performance of the proposed methods.https://doi.org/10.1049/sil2.12017
collection DOAJ
language English
format Article
sources DOAJ
author Shuli Ma
Jianhang Ai
Huiqian Du
Liping Fang
Wenbo Mei
spellingShingle Shuli Ma
Jianhang Ai
Huiqian Du
Liping Fang
Wenbo Mei
Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
IET Signal Processing
author_facet Shuli Ma
Jianhang Ai
Huiqian Du
Liping Fang
Wenbo Mei
author_sort Shuli Ma
title Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
title_short Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
title_full Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
title_fullStr Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
title_full_unstemmed Recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
title_sort recovering low‐rank tensor from limited coefficients in any ortho‐normal basis using tensor‐singular value decomposition
publisher Wiley
series IET Signal Processing
issn 1751-9675
1751-9683
publishDate 2021-05-01
description Abstract Tensor singular value decomposition (t‐SVD) provides a novel way to decompose a tensor. It has been employed mostly in recovering missing tensor entries from the observed tensor entries. The problem of applying t‐SVD to recover tensors from limited coefficients in any given ortho‐normal basis is addressed. We prove that an n × n × n3 tensor with tubal‐rank r can be efficiently reconstructed by minimising its tubal nuclear norm from its O(rn3n log2(n3n)) randomly sampled coefficients w.r.t any given ortho‐normal basis. In our proof, we extend the matrix coherent conditions to tensor coherent conditions. We first prove the theorem belonging to the case of Fourier‐type basis under certain coherent conditions. Then, we prove that our results hold for any ortho‐normal basis meeting the conditions. Our work covers the existing t‐SVD‐based tensor completion problem as a special case. We conduct numerical experiments on random tensors and dynamic magnetic resonance images (d‐MRI) to demonstrate the performance of the proposed methods.
url https://doi.org/10.1049/sil2.12017
work_keys_str_mv AT shulima recoveringlowranktensorfromlimitedcoefficientsinanyorthonormalbasisusingtensorsingularvaluedecomposition
AT jianhangai recoveringlowranktensorfromlimitedcoefficientsinanyorthonormalbasisusingtensorsingularvaluedecomposition
AT huiqiandu recoveringlowranktensorfromlimitedcoefficientsinanyorthonormalbasisusingtensorsingularvaluedecomposition
AT lipingfang recoveringlowranktensorfromlimitedcoefficientsinanyorthonormalbasisusingtensorsingularvaluedecomposition
AT wenbomei recoveringlowranktensorfromlimitedcoefficientsinanyorthonormalbasisusingtensorsingularvaluedecomposition
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