An information-theoretic approach for multivariate skew-t distributions and applications

Salah H. Abid; Uday J. Quaez; Javier E. Contreras-Reyes

doi:10.3390/math9020146

An information-theoretic approach for multivariate skew-t distributions and applications

Salah H. Abid, Uday J. Quaez, Javier E. Contreras-Reyes

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22 Scopus citations

Abstract

Shannon and Rényi entropies are two important measures of uncertainty for data analysis. These entropies have been studied for multivariate Student-t and skew-normal distributions. In this paper, we extend the Rényi entropy to multivariate skew-t and finite mixture of multivariate skew-t (FMST) distributions. This class of flexible distributions allows handling asymmetry and tail weight behavior simultaneously. We find upper and lower bounds of Rényi entropy for these families. Numerical simulations illustrate the results for several scenarios: symmetry/asymmetry and light/heavy-tails. Finally, we present applications of our findings to a swordfish length-weight dataset to illustrate the behavior of entropies of the FMST distribution. Comparisons with the counterparts—the finite mixture of multivariate skew-normal and normal distributions—are also presented.

Original language	English
Article number	146
Pages (from-to)	1-13
Number of pages	13
Journal	Mathematics
Volume	9
Issue number	2
DOIs	https://doi.org/10.3390/math9020146
State	Published - 2 Jan 2021
Externally published	Yes

Keywords

Finite mixtures
Heavy-tails
Rényi entropy
Shannon entropy
Skew-t
Skewness
Swordfish data

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10.3390/math9020146

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title = "An information-theoretic approach for multivariate skew-t distributions and applications",

abstract = "Shannon and R{\'e}nyi entropies are two important measures of uncertainty for data analysis. These entropies have been studied for multivariate Student-t and skew-normal distributions. In this paper, we extend the R{\'e}nyi entropy to multivariate skew-t and finite mixture of multivariate skew-t (FMST) distributions. This class of flexible distributions allows handling asymmetry and tail weight behavior simultaneously. We find upper and lower bounds of R{\'e}nyi entropy for these families. Numerical simulations illustrate the results for several scenarios: symmetry/asymmetry and light/heavy-tails. Finally, we present applications of our findings to a swordfish length-weight dataset to illustrate the behavior of entropies of the FMST distribution. Comparisons with the counterparts—the finite mixture of multivariate skew-normal and normal distributions—are also presented.",

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AU - Abid, Salah H.

AU - Quaez, Uday J.

AU - Contreras-Reyes, Javier E.

PY - 2021/1/2

Y1 - 2021/1/2

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AB - Shannon and Rényi entropies are two important measures of uncertainty for data analysis. These entropies have been studied for multivariate Student-t and skew-normal distributions. In this paper, we extend the Rényi entropy to multivariate skew-t and finite mixture of multivariate skew-t (FMST) distributions. This class of flexible distributions allows handling asymmetry and tail weight behavior simultaneously. We find upper and lower bounds of Rényi entropy for these families. Numerical simulations illustrate the results for several scenarios: symmetry/asymmetry and light/heavy-tails. Finally, we present applications of our findings to a swordfish length-weight dataset to illustrate the behavior of entropies of the FMST distribution. Comparisons with the counterparts—the finite mixture of multivariate skew-normal and normal distributions—are also presented.

KW - Finite mixtures

KW - Heavy-tails

KW - Rényi entropy

KW - Shannon entropy

KW - Skew-t

KW - Skewness

KW - Swordfish data

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An information-theoretic approach for multivariate skew-t distributions and applications

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Keywords

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