Invariant and adaptive geometrical texture features for defect detection and classification

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Automatic texture defect detection is highly important for many fields of visual inspection. We introduce novel, geometrical texture features for this task, which are Euclidean motion invariant and texture adaptive: An algebraic function (rational, Padé, or polynomial) is integrated over intensities in local, circular neighborhoods on the image including an anisotropical texture analysis. Adaptiveness is achieved through the optimization of this feature kernel and further coefficients based on a simplex energy minimization, constrained by a measure of texture discrimination (Fisher criterion). A backpropagation trained, multilayer perceptron network classifies the textures locally. Our approach contains new properties, usually not common in feature theories: Theoretically implicit, multiple invariances and an automatic and specific adaptation of the features to the texture images. Experiments with a fabric data set and Brodatz textures reveal up to 98.6% recognition accuracy.

论文关键词:Surface inspection,Texture defect detection,Geometrical texture features,Rational- and Padé-based features,Rotation/translation invariance,Texture adaptive features,Simplex feature optimization,Fisher criterion discrimination,Multi-texture classification,Multilayer perceptron network

论文评审过程:Received 14 July 2003, Revised 1 February 2005, Accepted 1 February 2005, Available online 7 April 2005.

论文官网地址:https://doi.org/10.1016/j.patcog.2005.02.004