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比利时vs摩洛哥足彩 ,
university of california san diego

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2024 ronald k. getoor distinguished lecture

víctor rivero

center of research in mathematics, guanajuato, mexico

an excursion from self-similar markov processes to markov additive processes

abstract:

in stochastic modeling we often need to deal with one of two apparently unrelated objects. one is self-similar processes and the other is additive functionals. self-similar markov processes are the class of markovian models that arise as scaling limits of stochastic processes, that are obtained after renormalization of time and space. additive functionals arise commonly when one considers, for instance, rewards associated to a markovian model. 

on the one hand, the so-called lamperti transform ensures that any $r^d$-valued self-similar markov process admits a polar decomposition, and the argument and the radius of the process are related to a markov additive process via an explicit time change. on the other hand, any additive functional a of a markov process x is such that the pair (a, x) is a markov additive process. a markov additive process (map) is a stochastic process with two components: one that is additive, and real valued, the ordinator, and a general one, the modulator, that rules the behavior of the ordinator. the ordinator has independent and stationary increments, given the modulator. this general structure emulates the structure of processes with independent and stationary increments, levy processes, as for instance brownian motion, cauchy and stable processes, gamma processes, etc. 

in general, it is too ambitious to try to determine explicitly the whole law of a self-similar markov process or of an additive functional. but we can aim at understanding properties of the extremes of these processes and to be ready for the best and worst scenarios. in the fluctuation theory of markov additive processes we aim at developing tools for studying the extremes of the additive part, ordinator, of the process. this has been done in a systematic way during the last four decades under the assumption that the modulator is a constant process, and hence the ordinator is a real valued levy process. also, in the 1980-90 period, some foundations were laid to develop a fluctuation theory for maps in a general setting.   

in this talk we aim at giving a brief overview of the fluctuation theory of markov additive processes, to describe some recent results and to provide some applications to the theory of self-similar markov processes. these applications are mainly related to stable processes, a class of processes that arises often in mathematical physics, potential and harmonic analysis, and in other areas of mathematics. we aim at making this overview accessible to graduate and advanced undergraduate 2022年亚洲世界杯预选赛 , with some knowledge of markov chains and levy processes, and to point out at some open research questions.

may 7, 2024

4:00 pm

ap&m 6402

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