Infinitely-divisible distributions, factorization of
A representation of infinitely-divisible distributions in the form of the convolution of certain probability distributions. The distributions which participate in the factorization of infinitely-divisible distributions are called the components in the factorization.
Certain factorizations of infinitely-divisible distributions may have components which are not infinitely divisible [1]. An important task in the theory of factorization of infinitely-divisible distributions is the description of the class of infinitely-divisible distributions with exclusively infinitely-divisible components. The representatives of include the normal distribution, the Poisson distribution and their compositions (cf. Lévy–Cramér theorem).
An important role in the description of the class is played by Linnik's class of infinitely-divisible distributions [2], in which the function in the Lévy–Khinchin canonical representation is a step function with jumps at the points between , where , , and the numbers (; ) are natural numbers other than 1. If the infinitely-divisible distribution is such that , it can only belong to if it belongs to . This condition is not sufficient, but it is known that a distribution of belongs to if
for some and .
If , belonging to is not a necessary condition for belonging to . For instance, all infinitely-divisible distributions in which the function is constant for and , where , belong to .
The following is a simple sufficient condition for an infinitely-divisible distribution not to belong to . The inequality must be fulfilled on the interval , where . It follows from this condition that a stable distribution, except the normal distribution and the unit distribution, as well as the gamma-distribution and the -distribution, does not belong to .
The class is dense in the class of all infinitely-divisible distributions in the topology of weak convergence; all infinitely-divisible distributions can be represented as compositions of a finite or countable set of distributions from .
References
[1] | A.Ya. Khinchin, "Contribution à l'arithmétique des lois de distribution" Byull. Moskov. Gos. Univ. (A) , 1 : 1 (1937) pp. 6–17 |
[2] | Yu.V. Linnik, "General theorems on factorization of infinitely divisible laws" Theory Probab. Appl. , 3 : 1 (1958) pp. 1–37 Teor. Veroyatnost. i Primenen. , 3 : 1 (1958) pp. 3–40 |
[3] | Yu.V. Linnik, "Decomposition of probability laws" , Oliver & Boyd (1964) (Translated from Russian) |
[4] | Yu.V. Linnik, I.V. Ostrovskii, "Decomposition of random variables and vectors" , Amer. Math. Soc. (1977) (Translated from Russian) |
[5] | B. Ramachandran, "Advanced theory of characteristic functions" , Statist. Publ. Soc. , Calcutta (1967) |
[6] | E. Lukacs, "Characteristic functions" , Griffin (1970) |
[7] | L.Z. Livshits, I.V. Ostrovskii, G.P. Chistyakov, "Arithmetic of probability laws" J. Soviet Math. , 6 : 2 (1976) pp. 99–122 Itogi Nauk. i Tekhn. Teor. Veroyatnost. Mat. Statist. Teoret. Kibernetika , 12 (1975) pp. 5–42 |
[8] | I.V. Ostrovskii, "The arithmetic of probability distributions" Theor. Probab. Appl. , 31 : 1 (1987) pp. 1–24 Teor. Veroyatnost. i Primenen. , 31 : 1 (1986) pp. 3–30 |
Comments
References
[a1] | E. Lukacs, "Developments in characteristic function theory" , Griffin (1983) |
Infinitely-divisible distributions, factorization of. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Infinitely-divisible_distributions,_factorization_of&oldid=34487