Homogeneous Random Measures and Strongly Supermedian Kernels of a Markov Process

Patrick J. Fitzsimmons (UCSD)
Ronald K. Getoor (UCSD)

Abstract


The potential kernel of a positive left additive functional (of a strong Markov process $X$) maps positive functions to strongly supermedian functions and satisfies a variant of the classical domination principle of potential theory. Such a kernel $V$ is called a regular strongly supermedian kernel in recent work of L. Beznea and N. Boboc. We establish the converse: Every regular strongly supermedian kernel $V$ is the potential kernel of a random measure homogeneous on $[0,\infty[$. Under additional finiteness conditions such random measures give rise to left additive functionals. We investigate such random measures, their potential kernels, and their associated characteristic measures. Given a left additive functional $A$ (not necessarily continuous), we give an explicit construction of a simple Markov process $Z$ whose resolvent has initial kernel equal to the potential kernel $U_{\!A}$. The theory we develop is the probabilistic counterpart of the work of Beznea and Boboc. Our main tool is the Kuznetsov process associated with $X$ and a given excessive measure $m$.

Full Text: Download PDF | View PDF online (requires PDF plugin)

Pages: 1-54

Publication Date: July 3, 2003

DOI: 10.1214/EJP.v8-142

References

  1. Azéma, J.: Noyau potentiel associé à une fonction excessive d'un processus de Markov. Ann. Inst. Fourier (Grenoble) 19 (1969) 495-526. [MR: 43#1271]
  2. Azéma, J.: Une remarque sur les temps de retour. Trois applications. In Séminaire de Probabilités, VI. Springer, Berlin, 1972, pp. 35-50. Lecture Notes in Math., Vol. 258. [MR: 52#1907]
  3. Azéma, J.: Théorie générale des processus et retournement du temps. Ann. Sci. École Norm. Sup. (4) 6 (1973) 459-519. [MR: 51#1977 ]
  4. Beznea, L., and Boboc, N.: Feyel's techniques on the supermedian functionals and strongly supermedian functions. Potential Anal. 10 (1999) 347-372. [MR: 2000f:60114]
  5. Beznea, L., and Boboc, N.: Excessive kernels and Revuz measures. Probab. Theory Related Fields 117 (2000) 267-288. [MR: 2001h:60131]
  6. Beznea, L., and Boboc, N.: Smooth measures and regular strongly supermedian kernels generating sub-Markovian resolvents. Potential Anal. 15 (2001) 77-87. [MR: 2003f:60140]
  7. Beznea, L., and Boboc, N.: Strongly supermedian kernels and Revuz measures. Ann. Probab. 29 (2001) 418-436. [MR: 2002e:60120]
  8. Beznea, L., and Boboc, N.: Fine densities for excessive measures and the Revuz correspondence. Preprint (2002).
  9. Blumenthal, R.M. and Getoor, R.K.: Markov Processes and Potential Theory. Academic Press, New York, 1968. [MR: 41#9348 ]
  10. Dellacherie, C.: Capacités et Processus Stochastiques. Springer-Verlag, Berlin, 1972. [MR: 56#6810]
  11. Dellacherie, C.: Autour des ensembles semi-polaires. In Seminar on Stochastic Processes, 1987. Birkhäuser Boston, Boston, MA, 1988, pp. 65-92. [MR: 91i:60191]
  12. Dellacherie, C. and Meyer, P.-A.: Probabilités et Potentiel. Chapitres V à VIII. Hermann, Paris, 1980. Théorie des martingales. [MR: 82b:60001]
  13. Dellacherie, C. and Meyer, P.-A.: Probabilités et Potentiel. Chapitres IX à XI. Hermann, Paris, 1983. Théorie discrète du potential. [MR: 86b:60003]
  14. Dellacherie, C. and Meyer, P.-A.: Probabilités et Potentiel. Chapitres XII-XVI. Hermann, Paris, 1987. Théorie du potentiel associée à une résolvante. Théorie des processus de Markov. [MR: 88k:60002 ]
  15. Dellacherie, C., Meyer, P.-A. and Maisonneuve, B.: Probabilités et Potentiel. Chapitres XVII-XXIV. Hermann, Paris, 1992. Processus de Markov (fin), Compléments de calcul stochastique.
  16. Duncan, R.D. and Getoor, R.K.: Equilibrium potentials and additive functionals. Indiana Univ. Math. J. 21 (1971/1972) 529-545. [MR: 44#6035]
  17. Dynkin, E.B.: Markov Processes, Vols. I,II. Academic Press, New York, 1965. [MR: 33#1887]
  18. Dynkin, E.B.: Additive functionals of Markov processes and stochastic systems. Ann. Inst. Fourier (Grenoble) 25 (1975) 177-200. [MR: 55#9294]
  19. Dynkin, E.B.: Markov systems and their additive functionals. Ann. Probab. 5 (1977) 653-677. [MR: 56#9701]
  20. Feyel, D.: Représentation des fonctionnelles surmédianes. Z. Wahrsch. verw. Gebiete 58 (1981) 183-198. [MR: 82m:31013]
  21. Feyel, D.: Sur la théorie fine du potentiel. Bull. Soc. Math. France 111 (1983) 41-57. [MR: 85d:31017]
  22. Fitzsimmons, P.J.: Homogeneous random measures and a weak order for the excessive measures of a Markov process. Trans. Amer. Math. Soc. 303 (1987) 431-478. [MR: 89c:60088]
  23. Fitzsimmons, P. J.: Markov processes and nonsymmetric Dirichlet forms without regularity. J. Funct. Anal. 85 (1989) 287-306. [MR: 90i:60053]
  24. Fitzsimmons, P.J. and Getoor, R.K.: A fine domination principle for excessive measures. Math. Z. 207 (1991) 137-151. [MR: 93e:60157]
  25. Fitzsimmons, P.J. and Getoor, R.K.: A weak quasi-Lindelöf property and quasi-fine supports of measures. Math. Ann. 301 (1995) 751-762. [MR: 96e:60138]
  26. Fitzsimmons, P.J. and Getoor, R.K.: Smooth measures and continuous additive functionals of right Markov processes. In Itô's Stochastic Calculus and Probability Theory. Springer, Tokyo, 1996, pp. 31-49. [MR: 98g:60137]
  27. Fukushima, M., Oshima, Y., and Takeda, M.: Dirichlet Forms and Symmetric Markov Processes. Walter de Gruyter & Co., Berlin, 1994. [MR: 96f:60126]
  28. Getoor, R.K.: Excessive Measures. Birkhäuser, Boston, 1990. [MR: 92i:60135]
  29. Getoor, R.K.: Measures not charging semipolars and equations of Schrödinger type. Potential Anal. 4 (1995) 79-100. [MR: 96b:60197]
  30. Getoor, R.K.: Measure perturbations of Markovian semigroups. Potential Anal. 11 (1999) 101-133. [MR: 2001c:60119]
  31. Getoor, R.K. and Sharpe, M.J.: Balayage and multiplicative functionals. Z. Wahrsch. verw. Gebiete 28 (1973/74) 139-164. [MR: 51#9229]
  32. Getoor, R.K. and Sharpe, M.J.: Naturality, standardness, and weak duality for Markov processes. Z. Wahrsch. verw. Gebiete 67 (1984) 1-62. [MR: 86f:60093]
  33. Hirsch, F.: Conditions nécessaires et suffisantes d'existence de résolvantes. Z. Wahrsch. verw. Gebiete 29 (1974) 73-85. [MR: 51#7011]
  34. Hunt, G.A.: Markoff processes and potentials. I,II. Illinois J. Math. 1 (1957) 44-93, 316-369. [MR: 19,951g]
  35. Mertens, J.-F.: Strongly supermedian functions and optimal stopping. Z. Wahrsch. verw. Gebiete 26 (1973) 119-139. [MR: 49#11617]
  36. Meyer, P.-A.: Fonctionelles multiplicatives et additives de Markov. Ann. Inst. Fourier (Grenoble) 12 (1962) 125-230. [MR: 25#3570]
  37. Mokobodzki, G.: Compactification relative à la topologie fine en théorie du potentiel. In Théorie du potentiel (Orsay, 1983). Springer, Berlin, 1984, pp. 450-473. [MR: 88j:31011]
  38. Revuz, D.: Mesures associées aux fonctionnelles additives de Markov. I. Trans. Amer. Math. Soc. 148 (1970) 501-531. [MR: 43#5611]
  39. Revuz, D.: Mesures associées aux fonctionnelles additives de Markov. II. Z. Wahrsch. verw. Gebiete 16 (1970) 336-344. [MR: 43#6979]
  40. Rost, H.: The stopping distributions of a Markov Process. Invent. Math. 14 (1971) 1-16. [MR: 49#11641]
  41. Sharpe, M.J.: Exact multiplicative functionals in duality. Indiana Univ. Math. J. 21 (1971/72) 27-60. [MR: 55#9287]
  42. Sharpe, M.: General Theory of Markov Processes. Academic Press, Boston, 1988. [MR: 89m:60169]
  43. Sur, M.G.: Continuous additive functionals of Markov processes and excessive functions. Soviet Math. Dokl. 2 (1961) 365-368. [MR: 26#7023 ]
  44. Taylor, J.C.: On the existence of sub-Markovian resolvents. Invent. Math. 17 (1972) 85-93. [MR: 49#9961]
  45. Taylor, J.C.: A characterization of the kernel limlambda --> 0 Vlambda for sub-Markovian resolvents (Vlambda). Ann. Probab. 3 (1975) 355-357. [MR: 51#9227]
  46. Volkonskii, V.A.: Additive functionals of Markov processes. Trudy Moskov. Mat. Obsc. 9 (1960) 143-189. [MR: 25#610 ]
Bookmark and Share


Creative Commons License
This work is licensed under a Creative Commons Attribution 3.0 License.