New Approximations of Differential Entropy for Independent Component Analysis and Projection Pursuit

Aapo Hyvärinen

Abstract

We derive a first-order approximation of the density of maximum entropy for a continuous 1-D random variable, given a number of simple constraints. This results in a density expansion which is somewhat similar to the classical polynomial density expansions by Gram-Charlier and Edgeworth. Using this approximation of density, an approximation of 1-D differential entropy is derived. The approximation of entropy is both more exact and more robust against outliers than the classical approximation based on the polynomial density expansions, without being computationally more expensive. The approximation has applications, for example, in independent component analysis and projection pursuit.

Keywords

MathematicsEdgeworth seriesPrinciple of maximum entropyEntropy (arrow of time)Applied mathematicsMaximum entropy probability distributionDifferential entropyProjection pursuitMaximum entropy thermodynamicsOutlierStatistical physicsMathematical analysisJoint quantum entropyPhysicsQuantum mechanicsStatistics

Affiliated Institutions

Helsinki Institute for Information Technology FI

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Publication Info

Year: 1997
Type: article
Volume: 10
Pages: 273-279
Citations: 363
Access: Closed

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APA Style

                            
                                    Aapo Hyvärinen
                                
                            (1997). 
                            New Approximations of Differential Entropy for Independent Component Analysis and Projection Pursuit. 
                            
                            , 10
                            
                            , 273-279.