Robust Principal Component Analysis by Reverse Iterative Linear Programming
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Date
2016
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Springer Verlag
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Abstract
Principal Components Analysis (PCA) is a data analysis technique widely used in dimensionality reduction. It extracts a small number of orthonormal vectors that explain most of the variation in a dataset, which are called the Principal Components. Conventional PCA is sensitive to outliers because it is based on the L2-norm, so to improve robustness several algorithms based on the L1-norm have been introduced in the literature. We present a new algorithm for robust L1- norm PCA that computes components iteratively in reverse, using a new heuristic based on Linear Programming. This solution is focused on finding the projection that minimizes the variance of the projected points. It has only one parameter to tune, making it simple to use. On common benchmarks it performs competitively compared to other methods. The data and software related to this paper are available at https://github. com/visentin-insight/L1-PCAhp. © Springer International Publishing AG 2016.
Description
Deloitte; et al; Google; IBM; Siemens; Unicredit
Keywords
L1-Norm, Linear Programming, Principal Components Analysis, Robust
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Citation
Visentin, Andrea; Prestwich, Steven; Tarım, S. Armağan. "Robust Principal Component Analysis by Reverse Iterative Linear Programming", Machine Learning and Knowledge Discovery in Databases. ECML PKDD 2016, pp. 593-605.
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Source
Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) -- 15th European Conference on Machine Learning and Principles and Practice of Knowledge Discovery in Databases, ECML PKDD 2016 -- 19 September 2016 through 23 September 2016 -- Riva del Garda -- 181419
Volume
9852 LNAI
Issue
Start Page
593
End Page
605