Copulas

Two-dimensional distribution function g(x, y) defined in [0, 1]² is called copula, if g(x, 1) = x and g(1,y)= y for every x, y. Similarly, s-dimensional copula is a distribution function g(x₁,x₂,...,x_s) such that every k-dimensional face function $g (1, \dots, 1, x_{i_{1}}, 1, \dots, 1, x_{i_{2}}, 1, \dots, 1, x_{i_{k}}, 1, \dots, 1)$ g\left( {1, \ldots ,1,{x_{{i_1}}},1, \ldots ,1,{x_{{i_2}}},1, \ldots ,1,{x_{{i_k}}},1, \ldots ,1} \right) is equal to x_i₁ x_i₂ ...x_i_k for some but fixed k. In this paper we summarize and extend all known parts of copulas.

In this paper we use the following abbreviations:

{x} — fractional part of x;

{x} — x mod 1;

[x] — integer part of x;

u.d. — uniform distribution;

d.f. — distribution function;

a.d.f. — asymptotic distribution function;

u.d.p. — uniform distribution preserving;

step d.f. — step distribution function;

a.e. — almost everywhere;

#X — cardinality of the set X.

eISSN:: 2309-5377
Language:: English

Publication timeframe:: 2 times per year
Journal Subjects:: Mathematics, Algebra and Number Theory, Discrete Mathematics, Probability and Statistics, Numerical and Computational Mathematics

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Copulas

Published Online: Aug 10, 2023

Page range: 147 - 200

Received: Mar 24, 2023

Accepted: Jun 22, 2023

DOI: https://doi.org/10.2478/udt-2023-0009

Keywordsdistribution function, fractional part, copula

© 2023 Oto Strauch et al., published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Keywords
distribution function, fractional part, copula