Large deviations for local time fractional Brownian motion and applications |
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Authors: | Mark M Meerschaert Erkan Nane Yimin Xiao |
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Institution: | Department of Probability and Statistics, Michigan State University, East Lansing, MI 48823, USA |
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Abstract: | Let be a fractional Brownian motion of Hurst index H∈(0,1) with values in R, and let be the local time process at zero of a strictly stable Lévy process of index 1<α?2 independent of WH. The α-stable local time fractional Brownian motion is defined by ZH(t)=WH(Lt). The process ZH is self-similar with self-similarity index and is related to the scaling limit of a continuous time random walk with heavy-tailed waiting times between jumps P. Becker-Kern, M.M. Meerschaert, H.P. Scheffler, Limit theorems for coupled continuous time random walks, Ann. Probab. 32 (2004) 730-756; M.M. Meerschaert, H.P. Scheffler, Limit theorems for continuous time random walks with infinite mean waiting times, J. Appl. Probab. 41 (2004) 623-638]. However, ZH does not have stationary increments and is non-Gaussian. In this paper we establish large deviation results for the process ZH. As applications we derive upper bounds for the uniform modulus of continuity and the laws of the iterated logarithm for ZH. |
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Keywords: | Fractional Brownian motion Lé vy process Strictly stable process Local time Large deviation Self-similarity Modulus of continuity Law of the iterated logarithm |
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