Limit theorems for additive functionals of the fractional Brownian motion

Jaramillo, Arturo; NOURDIN, Ivan; Nualart, David; PECCATI, Giovanni

doi:10.1214/22-AOP1612

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Limit theorems for additive functionals of the fractional Brownian motion

Jaramillo, Arturo; NOURDIN, Ivan; Nualart, David et al.

2023 • In Annals of Probability, 51 (3), p. 1066-1111

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https://hdl.handle.net/10993/48227

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10.1214/22-AOP1612

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Disciplines :

Mathematics

Author, co-author :

Jaramillo, Arturo

NOURDIN, Ivan ; University of Luxembourg > Faculty of Science, Technology and Medicine (FSTM) > Department of Mathematics (DMATH)

Nualart, David

PECCATI, Giovanni ; University of Luxembourg > Faculty of Science, Technology and Medicine (FSTM) > Department of Mathematics (DMATH)

External co-authors :

yes

Language :

English

Title :

Limit theorems for additive functionals of the fractional Brownian motion

Publication date :

2023

Journal title :

Annals of Probability

ISSN :

0091-1798

eISSN :

2168-894X

Publisher :

Institute of Mathematical Statistics, Beachwood, United States - Ohio

Volume :

Issue :

Pages :

1066-1111

Peer reviewed :

Peer Reviewed verified by ORBi

FnR Project :

FNR11756789 - Fluctuations Of Random Geometric Structures, 2017 (01/06/2018-30/11/2021) - Giovanni Peccati

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since 04 October 2021

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[2] BERMAN, S. M. (1973/74). Local nondeterminism and local times of Gaussian processes. Indiana Univ. Math. J. 23 69-94. MR0317397 https://doi.org/10.1512/iumj.1973.23.23006
[3] Geman, D. and HOROWITZ, J. (1980). Occupation densities. Ann. Probab. 8 1-67. MR0556414
[4] HU, Y., NUALART, D. and XU, F. (2014). Central limit theorem for an additive functional of the fractional Brownian motion. Ann. Probab. 42 168-203. MR3161484 https://doi.org/10.1214/12-AOP825
[5] HU, Y. and ØKSENDAL, B. (2002). Chaos expansion of local time of fractional Brownian motions. Stoch. Anal. Appl. 20 815-837. MR1921068 https://doi.org/10.1081/SAP-120006109
[6] JARAMILLO, A. and Nualart, D. (2019). Functional limit theorem for the self-intersection local time of the fractional Brownian motion. Ann. Inst. Henri Poincaré Probab. Stat. 55 480-527. MR60G05 https://doi.org/10.1214/18-aihp889
[7] JARAMILLO, A., Nourdin, I. and Peccati, G. (2021). Approximation of fractional local times: Zero energy and derivatives. Ann. Appl. Probab. 31 2143-2191. MR4332693 https://doi.org/10.1214/20-aap1643
[8] Jeganathani, P. (2006). Limit laws for the local times of fractional brownian and stable motions Technical report, Indian Statistical Institute, Bangalore.
[9] Kallianpur, G. and Robbins, H. (1953). Ergodic property of the Brownian motion process. Proc. Natl. Acad. Sci. USA 39 525-533. MR0056233 https://doi.org/10.1073/pnas.39.6.525
[10] KASAHARA, Y. and Kotani, S. (1979). On limit processes for a class of additive functionals of recurrentdiffusionprocesses. Z. Wahrsch. Verw. Gebiete 49 133-153. MR0543989 https://doi.org/10.1007/BF00534253
[11] KÔNO, N. (1996). Kallianpur-Robbins law for fractional Brownian motion. In Probability Theory and Mathematical Statistics (Tokyo, 1995) 229-236. World Sci. Publ., River Edge, NJ. MR1467943
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[13] Nourdin, I. and Nualart, D. (2010). Central limit theorems for multiple Skorokhod integrals. J. Theoret. Probab. 23 39-64. MR60F05 https://doi.org/10.1007/s10959-009-0258-y
[14] Nourdin, I. and Peccati, G. (2012). Normal Approximations with Malliavin Calculus. Cambridge Tracts in Mathematics 192. Cambridge Univ. Press, Cambridge. From Stein’s method to universality. MR2962301 https://doi.org/10.1017/CBO9781139084659
[15] Nualart, D. (2006). The Malliavin Calculus and Related Topics, 2nd ed. Probability and Its Applications (New York). Springer, Berlin. MR2200233
[16] Nualart, D. and XU, F. (2013). Central limit theorem for an additive functional of the fractional Brownian motion II. Electron. Commun. Probab. 18 74. MR3101639 https://doi.org/10.1214/ECP.v18-2761
[17] PAPANICOLAOU, G. C., Stroock, D. and Varadhan, S. R. S. (1977). Martingale approach to some limit theorems. In Papers from the Duke Turbulence Conference (Duke Univ., Durham, NC, 1976), Paper No. 6. Duke Univ. Math. Ser., III. ii+120. Duke Univ., Durham, NC. MR0461684
[18] Revuz, D. and YOR, M. (1999). Continuous Martingales and Brownian Motion, 3rd ed. Grundlehren der Mathematischen Wissenschaften [Fundamental Principles of Mathematical Sciences] 293. Springer, Berlin. MR1725357 https://doi.org/10.1007/978-3-662-06400-9
[19] Wang, Q. and Phillips, P. C. B. (2011). Asymptotic theory for zero energy functionals with nonparametric regression applications. Econometric Theory 27 235-259. MR2782038 https://doi.org/10.1017/S0266466610000277
[20] XIAO, Y. (2006). Properties of local-nondeterminism of Gaussian and stable random fields and their applications. Ann. Fac. Sci. Toulouse Math. (6) 15 157-193. MR2225751