Your search keyword '"Thameri, Messaoud"' showing total 2 results

1. Low-Complexity Adaptive Algorithms for Robust Subspace Tracking.

Author

Linh-Trung, Nguyen, Nguyen, Viet-Dung, Thameri, Messaoud, Minh-Chinh, Truong, and Abed-Meraim, Karim

Abstract

This paper introduces new, low-complexity, adaptive algorithms for robust subspace tracking in certain adverse scenarios of noisy data. First, an adequate weighted least-squares criterion is considered for the design of a robust subspace tracker that is most efficient in the burst noise case. Second, by using data pre-processing and robust statistics estimate, we introduce a second method that is shown to be the most efficient for subspace tracking in the case of impulsive noise (e.g., $\alpha$ -stable noise). Finally, a “detect-and-skip” approach is adopted, where the corrupted measurements are detected and treated as “missing” data. The resulting algorithm is particularly effective in the case where the data are affected by sparse “outliers.” All these approaches were analyzed, and their convergence properties were investigated. Moreover, the proposed subspace tracking algorithms were compared by simulated experiments to some state-of-the-art methods in different noise/outliers contexts. [ABSTRACT FROM AUTHOR]

Published

2018

2. Minor subspace tracking using MNS technique.

Author

Thameri, Messaoud, Abed-Meraim, Karim, and Belouchrani, Adel

Abstract

This paper introduces new minor (noise) subspace tracking (MST) algorithms based on the minimum noise subspace (MNS) technique. The latter has been introduced as a computationally efficient subspace method for blind system identification. We exploit here the principle of the MNS, to derive the most efficient algorithms for MST. The proposed method joins the advantages of low complexity and fast convergence rate. Moreover, this method is highly parallelizable and hence its computational cost can be easily reduced to a very low level when parallel architectures are available. Different implementations are proposed for different contexts and they are compared via numerical simulations. [ABSTRACT FROM PUBLISHER]

Published

2012