Image texture analysis: methods and comparisons. Bharati, M. H., Liu, J. J., & MacGregor, J. F. Chemometrics and Intelligent Laboratory Systems, 72(1):57--71, June, 2004.
Image texture analysis: methods and comparisons [link]Paper  doi  abstract   bibtex   
Surface texture is an important quality characteristic of many products. This paper provides an overview of several different approaches to image texture analysis and demonstrates their use on the problem of classifying a set of rolled steel sheets into various quality grades. Methods covered include traditional statistical approaches such as gray level co-occurrence matrix (GLCM) methods, multivariate statistical approaches based on PCA and PLS, and wavelet texture analysis. Traditional multivariate classification approaches, such as PLS-DA, applied directly to the images are shown to fail because of the loss of spatial identity of the variables (pixels) in those approaches, and the lack of congruency of the images. However, approaches that re-introduce spatial information, such as performing two-dimensional FFT on the images prior to applying multivariate methods can perform well. A new approach that re-introduces spatial information through image shifting and stacking, followed by multivariate image analysis (MIA) is presented and shown to work well. It can also be used to develop optimal spatial filters for extracting texture information. Wavelet texture analysis (WTA) methods are discussed and insight into their space/frequency decomposition behavior is used to show why they are generally considered to be state of the art in texture analysis.
@article{bharati_image_2004,
	title = {Image texture analysis: methods and comparisons},
	volume = {72},
	issn = {0169-7439},
	shorttitle = {Image texture analysis},
	url = {http://www.sciencedirect.com/science/article/pii/S0169743904000528},
	doi = {10.1016/j.chemolab.2004.02.005},
	abstract = {Surface texture is an important quality characteristic of many products. This paper provides an overview of several different approaches to image texture analysis and demonstrates their use on the problem of classifying a set of rolled steel sheets into various quality grades. Methods covered include traditional statistical approaches such as gray level co-occurrence matrix (GLCM) methods, multivariate statistical approaches based on PCA and PLS, and wavelet texture analysis.

Traditional multivariate classification approaches, such as PLS-DA, applied directly to the images are shown to fail because of the loss of spatial identity of the variables (pixels) in those approaches, and the lack of congruency of the images. However, approaches that re-introduce spatial information, such as performing two-dimensional FFT on the images prior to applying multivariate methods can perform well. A new approach that re-introduces spatial information through image shifting and stacking, followed by multivariate image analysis (MIA) is presented and shown to work well. It can also be used to develop optimal spatial filters for extracting texture information. Wavelet texture analysis (WTA) methods are discussed and insight into their space/frequency decomposition behavior is used to show why they are generally considered to be state of the art in texture analysis.},
	number = {1},
	urldate = {2015-10-19TZ},
	journal = {Chemometrics and Intelligent Laboratory Systems},
	author = {Bharati, Manish H. and Liu, J. Jay and MacGregor, John F.},
	month = jun,
	year = {2004},
	pages = {57--71}
}
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