Brownian motion reflection principle result












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I'm studying about the reflection principle of the brownian motion, and I found that this result is a direct consequence of this principle:



Let $B_t$ a brownian motion, then for every $a in mathbb{R} $,



$$mathbb{P}(lim_{t to infty} sup_{sin [0,t]} B_s > a) = 1$$



I'm trying to prove this statement using the reflection principle but I'm totally lost. I can't see how are those results related.










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  • $begingroup$
    Which formulation of the reflection principle do you know/use? It is direct consequence of the reflection principle that $$M_t := sup_{s leq t} B_s$$ equals in distribution $|B_t$|. Knowing this, it shouldn't be difficult to prove the assertion.
    $endgroup$
    – saz
    Dec 7 '18 at 7:51
















0












$begingroup$


I'm studying about the reflection principle of the brownian motion, and I found that this result is a direct consequence of this principle:



Let $B_t$ a brownian motion, then for every $a in mathbb{R} $,



$$mathbb{P}(lim_{t to infty} sup_{sin [0,t]} B_s > a) = 1$$



I'm trying to prove this statement using the reflection principle but I'm totally lost. I can't see how are those results related.










share|cite|improve this question









$endgroup$












  • $begingroup$
    Which formulation of the reflection principle do you know/use? It is direct consequence of the reflection principle that $$M_t := sup_{s leq t} B_s$$ equals in distribution $|B_t$|. Knowing this, it shouldn't be difficult to prove the assertion.
    $endgroup$
    – saz
    Dec 7 '18 at 7:51














0












0








0





$begingroup$


I'm studying about the reflection principle of the brownian motion, and I found that this result is a direct consequence of this principle:



Let $B_t$ a brownian motion, then for every $a in mathbb{R} $,



$$mathbb{P}(lim_{t to infty} sup_{sin [0,t]} B_s > a) = 1$$



I'm trying to prove this statement using the reflection principle but I'm totally lost. I can't see how are those results related.










share|cite|improve this question









$endgroup$




I'm studying about the reflection principle of the brownian motion, and I found that this result is a direct consequence of this principle:



Let $B_t$ a brownian motion, then for every $a in mathbb{R} $,



$$mathbb{P}(lim_{t to infty} sup_{sin [0,t]} B_s > a) = 1$$



I'm trying to prove this statement using the reflection principle but I'm totally lost. I can't see how are those results related.







real-analysis stochastic-processes brownian-motion






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share|cite|improve this question











share|cite|improve this question




share|cite|improve this question










asked Dec 7 '18 at 3:03









frl93frl93

1169




1169












  • $begingroup$
    Which formulation of the reflection principle do you know/use? It is direct consequence of the reflection principle that $$M_t := sup_{s leq t} B_s$$ equals in distribution $|B_t$|. Knowing this, it shouldn't be difficult to prove the assertion.
    $endgroup$
    – saz
    Dec 7 '18 at 7:51


















  • $begingroup$
    Which formulation of the reflection principle do you know/use? It is direct consequence of the reflection principle that $$M_t := sup_{s leq t} B_s$$ equals in distribution $|B_t$|. Knowing this, it shouldn't be difficult to prove the assertion.
    $endgroup$
    – saz
    Dec 7 '18 at 7:51
















$begingroup$
Which formulation of the reflection principle do you know/use? It is direct consequence of the reflection principle that $$M_t := sup_{s leq t} B_s$$ equals in distribution $|B_t$|. Knowing this, it shouldn't be difficult to prove the assertion.
$endgroup$
– saz
Dec 7 '18 at 7:51




$begingroup$
Which formulation of the reflection principle do you know/use? It is direct consequence of the reflection principle that $$M_t := sup_{s leq t} B_s$$ equals in distribution $|B_t$|. Knowing this, it shouldn't be difficult to prove the assertion.
$endgroup$
– saz
Dec 7 '18 at 7:51










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