Geometry-aware stationary subspace analysis

May 25, 2016 ยท Declared Dead ยท ๐Ÿ› Asian Conference on Machine Learning

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Authors Inbal Horev, Florian Yger, Masashi Sugiyama arXiv ID 1605.07785 Category cs.LG: Machine Learning Citations 8 Venue Asian Conference on Machine Learning Last Checked 4 months ago
Abstract
In many real-world applications data exhibits non-stationarity, i.e., its distribution changes over time. One approach to handling non-stationarity is to remove or minimize it before attempting to analyze the data. In the context of brain computer interface (BCI) data analysis this may be done by means of stationary subspace analysis (SSA). The classic SSA method finds a matrix that projects the data onto a stationary subspace by optimizing a cost function based on a matrix divergence. In this work we present an alternative method for SSA based on a symmetrized version of this matrix divergence. We show that this frames the problem in terms of distances between symmetric positive definite (SPD) matrices, suggesting a geometric interpretation of the problem. Stemming from this geometric viewpoint, we introduce and analyze a method which utilizes the geometry of the SPD matrix manifold and the invariance properties of its metrics. Most notably we show that these invariances alleviate the need to whiten the input matrices, a common step in many SSA methods which often introduces errors. We demonstrate the usefulness of our technique in experiments on both synthesized and real-world data.
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