Nonconvex Robust High-Order Tensor Completion Using Randomized Low-Rank Approximation

Wenjin Qin;Hailin Wang;Feng Zhang;Weijun Ma;Jianjun Wang;Tingwen Huang
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Abstract

Within the tensor singular value decomposition (T-SVD) framework, existing robust low-rank tensor completion approaches have made great achievements in various areas of science and engineering. Nevertheless, these methods involve the T-SVD based low-rank approximation, which suffers from high computational costs when dealing with large-scale tensor data. Moreover, most of them are only applicable to third-order tensors. Against these issues, in this article, two efficient low-rank tensor approximation approaches fusing random projection techniques are first devised under the order- d ( $d\geq 3$ ) T-SVD framework. Theoretical results on error bounds for the proposed randomized algorithms are provided. On this basis, we then further investigate the robust high-order tensor completion problem, in which a double nonconvex model along with its corresponding fast optimization algorithms with convergence guarantees are developed. Experimental results on large-scale synthetic and real tensor data illustrate that the proposed method outperforms other state-of-the-art approaches in terms of both computational efficiency and estimated precision.
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使用随机低库近似的非凸稳健高阶张量补全
在张量奇异值分解(T-SVD)框架内,现有的稳健低秩张量补全方法在科学和工程的各个领域取得了巨大成就。然而,这些方法涉及基于 T-SVD 的低秩近似,在处理大规模张量数据时存在计算成本高的问题。此外,它们大多只适用于三阶张量。针对这些问题,本文首先在阶d($d\geq 3$)T-SVD框架下设计了两种融合随机投影技术的高效低阶张量近似方法。文章提供了所提随机算法误差边界的理论结果。在此基础上,我们进一步研究了鲁棒高阶张量补全问题,并在此基础上开发了双非凸模型及其相应的具有收敛保证的快速优化算法。在大规模合成和真实张量数据上的实验结果表明,所提出的方法在计算效率和估计精度方面都优于其他最先进的方法。
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