Title :
Bispectral analysis and model validation of texture images
Author :
Hall, Thomas E. ; Giannakis, Georgios B.
Author_Institution :
Dept. of Electr. Eng., Virginia Univ., Charlottesville, VA, USA
fDate :
7/1/1995 12:00:00 AM
Abstract :
Statistical approaches to texture analysis and synthesis have largely relied upon random models that characterize the 2-D process in terms of its first- and second-order statistics, and therefore cannot completely capture phase properties of random fields that are non-Gaussian and/or asymmetric. In this paper, higher than second-order statistics are used to derive and implement 2-D Gaussianity, linearity, and spatial reversibility tests that validate the respective modeling assumptions. The nonredundant region of the 2-D bispectrum is correctly defined and proven. A consistent parameter estimator for nonminimum phase, asymmetric noncausal, 2-D ARMA models is derived by minimizing a quadratic error polyspectrum matching criterion. Simulations on synthetic data are performed and the results of the bispectral analysis on real textures are reported
Keywords :
Gaussian processes; autoregressive moving average processes; higher order statistics; image texture; parameter estimation; random processes; spectral analysis; 2-D ARMA models; 2-D Gaussianity test; 2-D bispectrum; asymmetric fields; asymmetric noncausal model; bispectral analysis; higher order statistics; linearity test; model validation; non-Gaussian fields; nonminimum phase model; nonredundant region; parameter estimator; phase properties; quadratic error polyspectrum matching; random fields; simulations; spatial reversibility test; statistical approaches; texture analysis; texture images; texture synthesis; Analytical models; Gaussian processes; Image analysis; Image texture analysis; Linearity; Parameter estimation; Performance analysis; Phase estimation; Statistical analysis; Testing;
Journal_Title :
Image Processing, IEEE Transactions on
