基于可处理的Schatten-p范数最小化与分解的子空间分割低秩表示

LRR for Subspace Segmentation via Tractable Schatten-$p$ Norm Minimization and Factorization

IEEE Transactions on Cybernetics · 2018
被引 109
ABS 3

中文导读

针对核范数低秩表示在子空间分割中解次优和计算慢的问题,提出两种基于Schatten-p范数的变体,用多变量ADMM求解,实验验证了效果和效率。

Abstract

Recently, nuclear norm-based low rank representation (LRR) methods have been popular in several applications, such as subspace segmentation. However, there exist two limitations: one is that nuclear norm as the relaxation of rank function will lead to the suboptimal solution since nuclear norm-based minimization subproblem tends to the over-relaxations of singular value elements and treats each of them equally; the other is that solving LRR problems may cause more time consumption due to involving singular value decomposition of the large scale matrix at each iteration. To overcome both disadvantages, this paper mainly considers two tractable variants of LRR: one is Schatten-p norm minimization-based LRR (i.e., SpNM_LRR) and the other is Schatten-p norm factorization-based LRR (i.e., SpNFLRR) for p=1, 2/3 and 1/2. By introducing two or more auxiliary variables in the constraints, the alternating direction method of multiplier (ADMM) with multiple updating variables can be devised to solve these variants of LRR. Furthermore, both computational complexity and convergence property are given to evaluate nonconvex multiblocks ADMM algorithms. Several experiments finally validate the efficacy and efficiency of our methods on both synthetic data and real world data.

子空间分割低秩表示矩阵范数优化交替方向乘子法