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- Title
Unsupervised learning low-rank tensor from incomplete and grossly corrupted data.
- Authors
Meng, Zhijun; Zhou, Yaoming; Zhao, Yongjia
- Abstract
Low-rank tensor completion and recovery have received considerable attention in the recent literature. The existing algorithms, however, are prone to suffer a failure when the multiway data are simultaneously contaminated by arbitrary outliers and missing values. In this paper, we study the unsupervised tensor learning problem, in which a low-rank tensor is recovered from an incomplete and grossly corrupted multidimensional array. We introduce a unified framework for this problem by using a simple equation to replace the linear projection operator constraint, and further reformulate it as two convex optimization problems through different approximations of the tensor rank. Two globally convergent algorithms, derived from the alternating direction augmented Lagrangian (ADAL) and linearized proximal ADAL methods, respectively, are proposed for solving these problems. Experimental results on synthetic and real-world data validate the effectiveness and superiority of our methods.
- Subjects
DATA corruption; LINEAR operators; LINEAR equations; LEARNING problems; PROBLEM solving; TENSOR fields
- Publication
Neural Computing & Applications, 2019, Vol 31, Issue 12, p8327
- ISSN
0941-0643
- Publication type
Article
- DOI
10.1007/s00521-018-3899-x