Temat: Wiener process - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Space-time continuous solutions to SPDEs driven by a homogeneous Wiener process
Autorzy:: Brzeźniak, Zdzisław
Peszat, Szymon
Powiązania:: https://bibliotekanauki.pl/articles/1216167.pdf
Data publikacji:: 1999
Wydawca:: Polska Akademia Nauk. Instytut Matematyczny PAN
Tematy:: stochastic partial differential equations in $L^q$-spaces
homogeneous Wiener process
random environment
stochastic integration in Banach spaces
Opis:: Stochastic partial differential equations on $ℝ^d$ are considered. The noise is supposed to be a spatially homogeneous Wiener process. Using the theory of stochastic integration in Banach spaces we show the existence of a Markovian solution in a certain weighted $L^q$-space. Then we obtain the existence of a space continuous solution by means of the Da Prato, Kwapień and Zabczyk factorization identity for stochastic convolutions.
Źródło:: Studia Mathematica; 1999, 137, 3; 261-299
0039-3223
Pojawia się w:: Studia Mathematica
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: On the exponential Orlicz norms of stopped Brownian motion
Autorzy:: Peškir, Goran
Powiązania:: https://bibliotekanauki.pl/articles/1288072.pdf
Data publikacji:: 1996
Wydawca:: Polska Akademia Nauk. Instytut Matematyczny PAN
Tematy:: Brownian motion (Wiener process)
stopping time
exponential Young function
exponential Orlicz norm
Doob's maximal inequality for martingales
Burkholder-Gundy's inequality
Davis' best constants
Hermite polynomial
continuous (local) martingale
Ito's integral
the quadratic variation process
time change (of Brownian motion)
Kahane-Khinchin's inequalities
Opis:: Necessary and sufficient conditions are found for the exponential Orlicz norm (generated by $ψ_p(x) = exp(|x|^p)-1$ with 0 < p ≤ 2) of $max_{0≤t≤τ}|B_t|$ or $|B_τ|$ to be finite, where $B = (B_t)_{t≥0}$ is a standard Brownian motion and τ is a stopping time for B. The conditions are in terms of the moments of the stopping time τ. For instance, we find that $∥max_{0≤t≤τ}|B_t|∥_{ψ_1} < ∞$ as soon as $E(τ^{k}) = O(C^{k}k^{k})$ for some constant C > 0 as k → ∞ (or equivalently $∥τ∥_{ψ_1} < ∞$). In particular, if τ ∼ Exp(λ) or $|N(0,σ^2)|$ then the last condition is satisfied, and we obtain $∥max_{0≤t≤τ}|B_t|∥_{ψ_1} ≤ K √{E(τ)}$ with some universal constant K > 0. Moreover, this inequality remains valid for any class of stopping times τ for B satisfying $E(τ^{k}) ≤ C(Eτ)^{k}k^{k}$ for all k ≥ 1 with some fixed constant C > 0. The method of proof relies upon Taylor expansion, Burkholder-Gundy's inequality, best constants in Doob's maximal inequality, Davis' best constants in the $L^p$-inequalities for stopped Brownian motion, and estimates of the smallest and largest positive zero of Hermite polynomials. The results extend to the case of any continuous local martingale (by applying the time change method of Dubins and Schwarz).
Źródło:: Studia Mathematica; 1995-1996, 117, 3; 253-273
0039-3223
Pojawia się w:: Studia Mathematica
Dostawca treści:: Biblioteka Nauki

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