Title :
Information-Geometric Dimensionality Reduction
Author :
Carter, Kevin M. ; Raich, Raviv ; Finn, William G. ; Hero, Alfred O., III
fDate :
3/1/2011 12:00:00 AM
Abstract :
W e consider the problem of dimensionality reduction and manifold learning when the domain of interest is a set of probability distributions instead of a set of Euclidean data vectors. In this problem, one seeks to discover a low dimensional representation, called embedding, that preserves certain properties such as distance between measured distributions or separation between classes of distributions. This article presents the methods that are specifically designed for low-dimensional embedding of information-geometric data, and we illustrate these methods for visualization in flow cytometry and demography analysis.
Keywords :
data visualisation; statistical analysis; demography analysis; embedding; flow cytometry; information-geometric dimensionality reduction; low dimensional representation; manifold learning; probability distributions; Approximation methods; Data visualization; Geometry; Manifolds; Measurement; Principal component analysis; Probability distribution; Signal processing algorithms;
Journal_Title :
Signal Processing Magazine, IEEE
DOI :
10.1109/MSP.2010.939536
