Title :
Characterization of Second-Order Isotropic Fractional Brownian Fields
Author :
Gupta, Arpan ; Joshi, S.
Author_Institution :
Univ. of Maryland, College Park, MD, USA
Abstract :
A first-order isotropic fractional Brownian field (IFBF) is generated by integrating a 2-dimensional (2-D) Gaussian field that has been obtained by passing a 2-D white Gaussian noise through a 2-D isotropic fractal filter. This first-order IFBF is characterized by a single parameter, the Hurst exponent H ∈ ]0,1[, similar to their 1-dimensional (1-D) counterpart. This paper presents a theoretical framework for the extension of a first-order IFBF to a second-order IFBF with H ∈ ]1,2[. Statistical properties such as covariance functions of these fields are investigated. We observe that the Hurst exponent of a number of real life images belongs to the range ]1,2[ suggesting that these images can be approximated as members of this class.
Keywords :
AWGN; Brownian motion; fractals; image processing; statistical analysis; 2d Gaussian field; 2d isotropic fractal filter; 2d white Gaussian noise; Hurst exponent; first-order IFBF; isotropic fractional Brownian fields; real life images; second-order IFBF; statistical analysis; Fractal filter; isotropic fractional Brownian fields; self-similarity;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2010.2048108
