Characterization of idempotent 2-copulas

doi:10.1285/i15900932v30n1p147

Characterization of idempotent 2-copulas

William F. Darsow, Elwood T. Olsen

Abstract

A 2-copula $A$ induces a transition probability function $p_A$ via

$\text{[math]}$

where $S\in \cal B$ , $\cal B$ denoting the Lebesgue measurable subsets of $[0,1]$ . We say that a set $S$ is invariant under $A$ if $p_A(x,S)=\chi _S(x)$ for almost all $x\in [0,1]$ , $\chi _S$ being the characteristic function of $S$ . The sets $S$ invariant under $A$ form a sub- $\sigma$ -algebra of theLebesgue measurable sets, which we denote ${\cal B}_A$ . A set $S\in {\cal B}_A$ is called an atom if it has positive measure and if for any $S'\in {\cal B}_A$ , $\lambda (S'\cap S)$ is either $\lambda (S)$ or 0.
A 2-copula $F$ is idempotent if $F*F=F$ . Here $*$ denotes the product defined in [1]. Idempotent 2-copulas are classified and characterized asfollows:
(i) An idempotent $F$ is said to be nonatomic if ${\cal B}_F$ contains noatoms. If $F$ is a nonatomic idempotent, then it is the product of a leftinvertible copula and its transpose. That is, there exists a copula $B$ such that

$\text{[math]}$

where $M(x,y)=\min(x,y).$
(ii) An idempotent $F$ is said to be totally atomic if there exist essentiallydisjoint atoms $S_n\in {\cal B}_F$ with

$\text{[math]}$

If $F$ is a totally atomic idempotent, then it is conjugate to an ordinal sumof copies of the product copula. That is, there exists a copula $C$ satisfying $C*C^T=C^T*C=M$ and a partition $\cal P$ of $[0,1]$ such that
\begin{equation}F=C*(\oplus _{\cal P}F_k)*C^T \end{equation} where eachcomponent $F_k$ in the ordinal sum is the product copula $P$ .
(iii) An idempotent $F$ is said to be atomic (but not totally atomic) if ${\cal B}_F$ contains atoms but the sum of the measures of a maximal collection ofessentially disjoint atoms is strictly less than 1. In this mixed case, thereexists a copula $C$ invertible with respect to $M$ and a partition $\cal P$ of $[0,1]$ for which (1) holds, with $F_1$ being a nonatomic idempotent copula andwith $F_k=P$ for $k>1$ .
Some of the immediate consequences of this characterization are discussed.

DOI Code: 10.1285/i15900932v30n1p147

Keywords:
copula; idempotent; star product

Classification: 60G07; 60J05; 60J25

Full Text: PDF

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Characterization of idempotent 2-copulas

Abstract