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Markov operator

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In probability theory and ergodic theory, a Markov operator is an operator on a certain function space that conserves the mass (the so-called Markov property). If the underlying measurable space is topologically sufficiently rich enough, then the Markov operator admits a kernel representation. Markov operators can be linear or non-linear. Closely related to Markov operators is the Markov semigroup.[1]

The definition of Markov operators is not entirely consistent in the literature. Markov operators are named after the Russian mathematician Andrey Markov.

Definitions

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Markov operator

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Let be a measurable space and a set of real, measurable functions .

A linear operator on is a Markov operator if the following is true[1]: 9–12 

  1. maps bounded, measurable function on bounded, measurable functions.
  2. Let be the constant function , then holds. (conservation of mass / Markov property)
  3. If then . (conservation of positivity)

Alternative definitions

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Some authors define the operators on the Lp spaces as and replace the first condition (bounded, measurable functions on such) with the property[2][3]

Markov semigroup

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Let be a family of Markov operators defined on the set of bounded, measurables function on . Then is a Markov semigroup when the following is true[1]: 12 

  1. .
  2. for all .
  3. There exist a σ-finite measure on that is invariant under , that means for all bounded, positive and measurable functions and every the following holds
.

Dual semigroup

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Each Markov semigroup induces a dual semigroup through

If is invariant under then .

Infinitesimal generator of the semigroup

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Let be a family of bounded, linear Markov operators on the Hilbert space , where is an invariant measure. The infinitesimal generator of the Markov semigroup is defined as

and the domain is the -space of all such functions where this limit exists and is in again.[1]: 18 [4]

The carré du champ operator measuers how far is from being a derivation.

Kernel representation of a Markov operator

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A Markov operator has a kernel representation

with respect to some probability kernel , if the underlying measurable space has the following sufficient topological properties:

  1. Each probability measure can be decomposed as , where is the projection onto the first component and is a probability kernel.
  2. There exist a countable family that generates the σ-algebra .

If one defines now a σ-finite measure on then it is possible to prove that ever Markov operator admits such a kernel representation with respect to .[1]: 7–13 

Literature

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  • Bakry, Dominique; Gentil, Ivan; Ledoux, Michel. Analysis and Geometry of Markov Diffusion Operators. Springer Cham. doi:10.1007/978-3-319-00227-9.
  • Eisner, Tanja; Farkas, Bálint; Haase, Markus; Nagel, Rainer (2015). "Markov Operators". Operator Theoretic Aspects of Ergodic Theory. Graduate Texts in Mathematics. Vol. 2727. Cham: Springer. doi:10.1007/978-3-319-16898-2.
  • Wang, Fengyu (2006). Functional Inequalities Markov Semigroups and Spectral Theory. Ukraine: Elsevier Science.

References

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  1. ^ a b c d e Bakry, Dominique; Gentil, Ivan; Ledoux, Michel. Analysis and Geometry of Markov Diffusion Operators. Springer Cham. doi:10.1007/978-3-319-00227-9.
  2. ^ Eisner, Tanja; Farkas, Bálint; Haase, Markus; Nagel, Rainer (2015). "Markov Operators". Operator Theoretic Aspects of Ergodic Theory. Graduate Texts in Mathematics. Vol. 2727. Cham: Springer. p. 249. doi:10.1007/978-3-319-16898-2.
  3. ^ Wang, Fengyu (2006). Functional Inequalities Markov Semigroups and Spectral Theory. Ukraine: Elsevier Science. p. 3.
  4. ^ Wang, Fengyu (2006). Functional Inequalities Markov Semigroups and Spectral Theory. Ukraine: Elsevier Science. p. 1.