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Monday, June 23, 2014

ROSL : Robust Orthonormal Subspace Learning: Efficient Recovery of Corrupted Low-rank Matrices - implementation -

Xianbiao Shu just sent me the following:

Hi Igor

I am Xianbiao, currectly working at Qualcomm after graduation from University of Illinois at Urbana-Champaign (UIUC).
Recently, I have two interesting papers:
(1) "Non-Local Compressive Sampling Recovery": which can significantly reduces the sampling rate by using non-local patch correlation.
(2) "Robust Orthonormal Subspace Learning: Efficient Recovery of Corrupted Low-rank Matrices": which can recover the low-rank matrices at linear complexity.

Would you like do me a favor by posting them on Nuit Blanche?


The detailed paper information and code are shared on 
Thanks a lot.
Best regards,

Sure Xianbiao !, Here is the first one:



Low-rank matrix recovery from a corrupted observation has many applications in computer vision. Conventional methods address this problem by iterating between nuclear norm minimization and sparsity minimization. However, iterative nuclear norm minimization is computationally prohibitive for large-scale data (e.g., video) analysis. In this paper, we propose a Robust Orthogonal Subspace Learning (ROSL) method to achieve efficient low-rank recovery. Our intuition is a novel rank measure on the low-rank matrix that imposes the group sparsity of its coefficients under orthonormal subspace. We present an efficient sparse coding algorithm to minimize this rank measure and recover the low-rank matrix at quadratic complexity of the matrix size. We give theoretical proof to validate that this rank measure is lower bounded by nuclear norm and it has the same global minimum as the latter. To further accelerate ROSL to linear complexity, we also describe a faster version (ROSL+) empowered by random sampling. Our extensive experiments demonstrate that both ROSL and ROSL+ provide superior efficiency against the state-of-the-art methods at the same level of recovery accuracy.
The attendant code is on Xianbiao Shu's page.


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