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Digital Image Processing

Class at Faculty of Mathematics and Physics |
NPGR002

Syllabus

- image sampling and quantization, Shannon theorem, aliasing

- basic image operations, histogram, contrast stretching, noise removal, image sharpening

- linear filtering in the spatial and frequency domains, convolution, Fourier transform

- edge detection, corner detection

- image degradations and their modelling, inverse and Wiener filtering, restoration of motion-blurred and out-of-focus blurred images

- image segmentation

- image registration and matching

- features for description and recognition of 2-D shapes

- invariant features, Fourier descriptors, moment invariants, differential invariants

- statistical pattern recognition, supervised and nonsupervised classification, NN- classifier, linear classifier, Bayessian classifier

- clustering in a feature space, iterative and hierarchical methods

- dimensionality reduction of a feature space

Annotation

An introductory course on image processing and pattern recognition. Major attention is paid to image sampling and quantization, image preprocessing (noise removal, contrast stretching, sharpening, and de-blurring), edge detection, geometric transformations and warping, features for shape description and recognition, and to general pattern recognition techniques.

Numerous applications and experimental results are presented in addition to the theory.