Lévy–Prokhorov metric

In mathematics, the Lévy–Prokhorov metric (sometimes known just as the Prokhorov metric) is a metric (i.e., a definition of distance) on the collection of probability measures on a given metric space. It is named after the French mathematician Paul Lévy and the Soviet mathematician Yuri Vasilyevich Prokhorov; Prokhorov introduced it in 1956 as a generalization of the earlier Lévy metric.

Definition

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Let   be a metric space with its Borel sigma algebra  . Let   denote the collection of all probability measures on the measurable space  .

For a subset  , define the ε-neighborhood of   by

 

where   is the open ball of radius   centered at  .

The Lévy–Prokhorov metric   is defined by setting the distance between two probability measures   and   to be

 

For probability measures clearly  .

Some authors omit one of the two inequalities or choose only open or closed  ; either inequality implies the other, and  , but restricting to open sets may change the metric so defined (if   is not Polish).

Properties

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  • If   is separable, convergence of measures in the Lévy–Prokhorov metric is equivalent to weak convergence of measures. Thus,   is a metrization of the topology of weak convergence on  .
  • The metric space   is separable if and only if   is separable.
  • If   is complete then   is complete. If all the measures in   have separable support, then the converse implication also holds: if   is complete then   is complete. In particular, this is the case if   is separable.
  • If   is separable and complete, a subset   is relatively compact if and only if its  -closure is  -compact.
  • If   is separable, then  , where   is the Ky Fan metric.[1][2]

Relation to other distances

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Let   be separable. Then

  •  , where   is the total variation distance of probability measures[3]
  •  , where   is the Wasserstein metric with   and   have finite  th moment.[4]

See also

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Notes

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  1. ^ Dudley 1989, p. 322
  2. ^ Račev 1991, p. 159
  3. ^ Gibbs, Alison L.; Su, Francis Edward: On Choosing and Bounding Probability Metrics, International Statistical Review / Revue Internationale de Statistique, Vol 70 (3), pp. 419-435, Lecture Notes in Math., 2002.
  4. ^ Račev 1991, p. 175

References

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  • Billingsley, Patrick (1999). Convergence of Probability Measures. John Wiley & Sons, Inc., New York. ISBN 0-471-19745-9. OCLC 41238534.
  • Zolotarev, V.M. (2001) [1994], "Lévy–Prokhorov metric", Encyclopedia of Mathematics, EMS Press
  • Dudley, R.M. (1989). Real analysis and probability. Pacific Grove, Calif. : Wadsworth & Brooks/Cole. ISBN 0-534-10050-3.
  • Račev, Svetlozar T. (1991). Probability metrics and the stability of stochastic models. Chichester [u.a.] : Wiley. ISBN 0-471-92877-1.