113 research outputs found

    A remark on the equivalence of Gaussian processes

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    In this note we extend a classical equivalence result for Gaussian stationary processes to the more general setting of Gaussian processes with stationary increments. This will allow us to apply it in the setting of aggregated independent fractional Brownian motions

    Continuous Ocone martingales as weak limits of rescaled martingales

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    Consider a martingale MM with bounded jumps and two sequences an,bntoinftya_n, b_n to infty. We show that if the rescaled martingales M^n_t =frac{1}{sqrt{a_n}}M_{b_n t} converge weakly, then the limit is necessarily a continous Ocone martingale. Necessary and sufficient conditions for the weak convergence of the rescaled martingales are also given

    A remark on the equivalence of Gaussian processes

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    In this note we extend a classical equivalence result for Gaussian stationary processes to the more general setting of Gaussian processes with stationary increments. This will allow us to apply it in the setting of aggregated independent fractional Brownian motions

    New limit theorems for regular diffusion processes with finite speed measure

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    We derive limit theorems for diffusion processes that have a finite speed measure. First we prove a number of asymptotic properties of the density rhot=dmut/dmurho_t = dmu_t /dmu of the empirical measure mutmu_t with respect to the normalized speed measure mumu. These results are then used to derive finite dimensional and uniform central limit theorems for integrals of the form sqrt{tint (rho_t-1),dnu, where nunu is an arbitrary finite, signed measure on the state space of the diffusion. We also consider a number of interesting special cases, such as uniform central limit theorems for Lebesgue integrals and functional weak convergence of the empirical distribution function

    New limit theorems for regular diffusion processes with finite speed measure

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    We derive limit theorems for diffusion processes that have a finite speed measure. First we prove a number of asymptotic properties of the density rhot=dmut/dmurho_t = dmu_t /dmu of the empirical measure mutmu_t with respect to the normalized speed measure mumu. These results are then used to derive finite dimensional and uniform central limit theorems for integrals of the form sqrt{tint (rho_t-1),dnu, where nunu is an arbitrary finite, signed measure on the state space of the diffusion. We also consider a number of interesting special cases, such as uniform central limit theorems for Lebesgue integrals and functional weak convergence of the empirical distribution function

    The stable central limit theorem for local martingales with bounded jumps via Skorohod embedding

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    The stable central limit theorem for properly normalized local martingales with bounded jumps is proved. Instead of the usual characteristic function-type methods we use an embedding technique in combination with a result on nested Brownian motions. In this approach, the stability of the CLT is explained by the fact that nested Brownian motions are asymptotically independent of any other random element. As was previously shown in the special case of continuous local martingales, the embedding technique leads to short and transparent arguments. In the conclusion we discuss the direction in which further research is needed to make the embedding method applicable in an even larger number of situations

    Uniform convergence of curve estimators for ergodic diffusion processes

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    For ergodic diffusions, we consider kernel-type estimators for the invariant density, its derivatives and the drift function. Using empirical process theory for martingales, we first prove a theorem regarding the uniform weak convergence of the empirical density. This result is then used to derive uniform weak convergence for the kernel estimator of the invariant density. For kernel estimators of the derivatives of the invariant density and for a nonparametric drift estimator that was proposed by Banon, we give bounds for the rate at which the uniform distance between the estimator and the true curve vanishes. We also consider the problem of estimation from discrete-time observations. In that case, obvious estimators can be constructed by replacing Lebesgue integrals by Riemann sums. We show that these approximations are also uniformly consistent, provided that the bandwidths and the time between the observations are correctly balanced

    A note on consistent estimation of multivariate parameters in ergodic diffusion models

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    On the uniform convergence of local time and the uniform consistency of density estimators for ergodic diffusions

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    We prove a theorem on the uniform convergence of the local time of an ergodic diffusion. This result is then used to investigate certain estimators of the invariant density of an ergodic diffusion, including kernel estimators. We show that the pointwise consistency of these estimators can be strengthened to uniform consistency
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