Krzysztof Podgórski
Prefekt Statistiska institutionen, Professor
AR(1) time series with autoregressive gamma variance for road topography modeling
Författare
Summary, in English
A non-Gaussian time series with a generalized Laplace marginal distribution is used to model road topography. The model encompasses variability exhibited by a Gaussian AR(1) process with randomly varying variance that follows a particular autoregressive model that features the gamma distribution as its marginal.
A simple estimation method to fit the correlation coefficient of each of two autoregressive components is proposed.
The one for the Gaussian AR(1) component is obtained by fitting the frequency of zero crossing, while the autocorrelation coefficient for the gamma autoregressive process is fitted from the autocorrelation of the squared values of the model.
The shape parameter of the gamma distribution is fitted using the explicitly given moments of a generalized Laplace distribution.
Another general method of model fitting based on the correlation function of the signal is also presented and compared with the zero-crossing method.
It is demonstrated that the model has the ability to accurately represent hilliness features of road topography providing a significant improvement over a purely Gaussian model.
A simple estimation method to fit the correlation coefficient of each of two autoregressive components is proposed.
The one for the Gaussian AR(1) component is obtained by fitting the frequency of zero crossing, while the autocorrelation coefficient for the gamma autoregressive process is fitted from the autocorrelation of the squared values of the model.
The shape parameter of the gamma distribution is fitted using the explicitly given moments of a generalized Laplace distribution.
Another general method of model fitting based on the correlation function of the signal is also presented and compared with the zero-crossing method.
It is demonstrated that the model has the ability to accurately represent hilliness features of road topography providing a significant improvement over a purely Gaussian model.
Avdelning/ar
- Statistiska institutionen
Publiceringsår
2016
Språk
Engelska
Sidor
106-116
Publikation/Tidskrift/Serie
Probabilistic Engineering Mechanics
Volym
43
Länkar
Dokumenttyp
Artikel i tidskrift
Förlag
Elsevier
Ämne
- Probability Theory and Statistics
Nyckelord
- road roughness
- road surface profile
- generalized Laplace distribution
- Non-Gaussian time series
- gamma distributed variances
- road topography
- road hilliness
Aktiv
Published
ISBN/ISSN/Övrigt
- ISSN: 0266-8920