Paper Info
Title
Mutual-manifold regularized robust fast latent LRR for subspace recovery and learning
Abstract
In this paper, we propose a simple yet effective low-rank representation (LRR) and subspace recovery model called mutual-manifold regularized robust fast latent LRR. Our model improves the representation ability and robustness from twofold. Specifically, our model is built on the Frobenius norm-based fast latent LRR decomposing given data into a principal feature part, a salient feature part and a sparse error, but improves it clearly by designing mutual-manifold regularization to encode, preserve and propagate local information between coefficients and salient features. The mutual-manifold regularization is defined by using the coefficients as the adaptive reconstruction weights for salient features and constructing a Laplacian matrix over salient features for the coefficients. Thus, some important local topology structure information can be propagated between them, which can make the discovered subspace structures and features potentially more accurate for the data representations. Besides, our approach also considers to improve the robust properties of subspace recovery against noise and sparse errors in coefficients, which is realized by decomposing original coefficients matrix into an error-corrected part and a sparse error part fitting noise in coefficients, and the recovered coefficients are then used for robust subspace recovery. Experimental results on several public databases demonstrate that our method can outperform other related algorithms.
Year
DOI
Venue
2020
10.1007/s00521-019-04688-7
NEURAL COMPUTING & APPLICATIONS
Keywords
DocType
Volume
Robust fast Latent LRR,Subspace recovery and learning,Mutual-manifold regularization,Feature extraction
Journal
32.0
Issue
ISSN
Citations 
17
0941-0643
1
PageRank 
References 
Authors
0.34
30
4
Name
Order
Citations
PageRank
Xianzhen Li110.68
Zhao Zhang293865.99
li zhang3498.10
Meng Wang43094167.38