89 research outputs found

    Non-linear Rough Heat Equations

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    This article is devoted to define and solve an evolution equation of the form dyt=Δytdt+dXt(yt)dy_t=\Delta y_t dt+ dX_t(y_t), where Δ\Delta stands for the Laplace operator on a space of the form Lp(Rn)L^p(\mathbb{R}^n), and XX is a finite dimensional noisy nonlinearity whose typical form is given by Xt(φ)=∑i=1Nxtifi(φ)X_t(\varphi)=\sum_{i=1}^N x^{i}_t f_i(\varphi), where each x=(x(1),...,x(N))x=(x^{(1)},...,x^{(N)}) is a γ\gamma-H\"older function generating a rough path and each fif_i is a smooth enough function defined on Lp(Rn)L^p(\mathbb{R}^n). The generalization of the usual rough path theory allowing to cope with such kind of systems is carefully constructed.Comment: 36 page

    Gaussian-type lower bounds for the density of solutions of SDEs driven by fractional Brownian motions

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    In this paper we obtain Gaussian-type lower bounds for the density of solutions to stochastic differential equations (SDEs) driven by a fractional Brownian motion with Hurst parameter HH. In the one-dimensional case with additive noise, our study encompasses all parameters H∈(0,1)H\in(0,1), while the multidimensional case is restricted to the case H>1/2H>1/2. We rely on a mix of pathwise methods for stochastic differential equations and stochastic analysis tools.Comment: Published at http://dx.doi.org/10.1214/14-AOP977 in the Annals of Probability (http://www.imstat.org/aop/) by the Institute of Mathematical Statistics (http://www.imstat.org

    On the multiple overlap function of the SK model

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    Numerical Schemes for Rough Parabolic Equations

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    This paper is devoted to the study of numerical approximation schemes for a class of parabolic equations on (0, 1) perturbed by a non-linear rough signal. It is the continuation of [8, 7], where the existence and uniqueness of a solution has been established. The approach combines rough paths methods with standard considerations on discretizing stochastic PDEs. The results apply to a geometric 2-rough path, which covers the case of the multidimensional fractional Brownian motion with Hurst index H \textgreater{} 1/3.Comment: Applied Mathematics and Optimization, 201

    Stochastic evolution equations driven by Liouville fractional Brownian motion

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    Let H be a Hilbert space and E a Banach space. We set up a theory of stochastic integration of L(H,E)-valued functions with respect to H-cylindrical Liouville fractional Brownian motions (fBm) with arbitrary Hurst parameter in the interval (0,1). For Hurst parameters in (0,1/2) we show that a function F:(0,T)\to L(H,E) is stochastically integrable with respect to an H-cylindrical Liouville fBm if and only if it is stochastically integrable with respect to an H-cylindrical fBm with the same Hurst parameter. As an application we show that second-order parabolic SPDEs on bounded domains in \mathbb{R}^d, driven by space-time noise which is white in space and Liouville fractional in time with Hurst parameter in (d/4,1) admit mild solution which are H\"older continuous both and space.Comment: To appear in Czech. Math.

    Regularity of the Solutions to SPDEs in Metric Measure Spaces

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    In this paper we study the regularity of non-linear parabolic PDEs and stochastic PDEs on metric measure spaces admitting heat kernel estimates. In particular we consider mild function solutions to abstract Cauchy problems and show that the unique solution is Hölder continuous in time with values in a suitable fractional Sobolev space. As this analysis is done via a-priori estimates, we can apply this result to stochastic PDEs on metric measure spaces and solve the equation in a pathwise sense for almost all paths. The main example of noise term is of fractional Brownian type and the metric measure spaces can be classical as well as given by various fractal structures. The whole approach is low dimensional and works for spectral dimensions less than 4
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