This paper aims to efficiently implement the maximum likelihood estimator (MLE) for Hurst exponent, a vital parameter embedded in the process of fractional Brownian motion (FBM) or fractional Gaussian noise (FGN), via a combination of the Levinson algorithm and Cholesky decomposition. Many natural and biomedical signals can often be modeled as one of these two processes. It is necessary for users to estimate the Hurst exponent to differentiate one physical signal from another. Among all estimators for estimating the Hurst exponent, the maximum likelihood estimator (MLE) is optimal, whereas its computational cost is also the highest. Consequently, a faster but slightly less accurate estimator is often adopted. Analysis discovers that the com...
In this paper, we build an estimator of the Hurst exponent of a fractional Lévy motion based on its ...
This paper addresses the problem of estimating the Hurst exponent of the fractional Brownian motion ...
<p>Along with estimates for the simulated time series (blue), estimates for the time series integral...
We consider a model based on the fractional Brownian motion under the influence of noise. We impleme...
A maximum likelihood estimation method implemented in S-PLUS (S-MLE) to estimate the Hurst coefficie...
We estimate the Hurst parameter H of a fractional Brownian motion from discrete noisy data observed ...
A maximum likelihood estimation method implemented in S-PLUS (S-MLE) to estimate the Hurst coefficie...
[[abstract]]© 2002 Institute of Electrical and Electronics Engineers-The purpose of this paper is to...
International audienceWe estimate the Hurst parameter H of a fractional Brownian motion from discret...
In the paper consistent estimates of the Hurst parameter of fractional Brownian motion are obtained ...
D.Phil. (Mathematical Statistics)Fractional Brownian motion and its increment process, fractional Ga...
International audienceSome real-world phenomena in geo-science, micro-economy, and turbulence, to na...
Some real-world phenomena in geo-science, micro-economy, and turbulence, to name a few, can be effec...
We combine two existing estimators of the local Hurst exponent to improve both the goodness of fit a...
Fractal investigation of time series is very complex for several reasons. Due to the existence of fu...
In this paper, we build an estimator of the Hurst exponent of a fractional Lévy motion based on its ...
This paper addresses the problem of estimating the Hurst exponent of the fractional Brownian motion ...
<p>Along with estimates for the simulated time series (blue), estimates for the time series integral...
We consider a model based on the fractional Brownian motion under the influence of noise. We impleme...
A maximum likelihood estimation method implemented in S-PLUS (S-MLE) to estimate the Hurst coefficie...
We estimate the Hurst parameter H of a fractional Brownian motion from discrete noisy data observed ...
A maximum likelihood estimation method implemented in S-PLUS (S-MLE) to estimate the Hurst coefficie...
[[abstract]]© 2002 Institute of Electrical and Electronics Engineers-The purpose of this paper is to...
International audienceWe estimate the Hurst parameter H of a fractional Brownian motion from discret...
In the paper consistent estimates of the Hurst parameter of fractional Brownian motion are obtained ...
D.Phil. (Mathematical Statistics)Fractional Brownian motion and its increment process, fractional Ga...
International audienceSome real-world phenomena in geo-science, micro-economy, and turbulence, to na...
Some real-world phenomena in geo-science, micro-economy, and turbulence, to name a few, can be effec...
We combine two existing estimators of the local Hurst exponent to improve both the goodness of fit a...
Fractal investigation of time series is very complex for several reasons. Due to the existence of fu...
In this paper, we build an estimator of the Hurst exponent of a fractional Lévy motion based on its ...
This paper addresses the problem of estimating the Hurst exponent of the fractional Brownian motion ...
<p>Along with estimates for the simulated time series (blue), estimates for the time series integral...