Title :
Multiscale location equivalence and wavelet image transforms on the quincunx lattice
Author :
Andrews, Richard
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Tasmania Univ., Hobart, Tas., Australia
fDate :
6/21/1905 12:00:00 AM
Abstract :
Work on wavelet based coding of images has relied almost completely on the use of the separable, ie. tensor wavelet transform. This method treats images as one-dimensional rows and columns. Treating images in a truely multidimensional way allows for much greater flexibility in the manipulation of the information. The quincunx lattice is a natural choice for applying non-separable filtering because it is the simplest non-separable lattice. Its diagonal cut-off gives it advantageous psychovisual properties. This paper shows how to determine spatial location equivalence across different levels of a wavelet decomposition on the quincunx lattice. This allows use of methods that use the continuity of features across scales such as embedded zero-tree coding and quadtree coding. A novel method of decomposition is outlined which significantly reduces resampling computational complexity
Keywords :
computational complexity; filtering theory; image coding; image sampling; transform coding; wavelet transforms; cross-scale coding; embedded zero-tree coding; image coding; multiscale location equivalence; non-separable filtering; psychovisual properties; quadtree coding; quincunx lattice; resampling computational complexity; spatial location equivalence; wavelet decomposition; wavelet image transforms; Australia; Energy resolution; Filtering; Image coding; Lattices; Sampling methods; Signal resolution; Signal sampling; Spatial resolution; Wavelet transforms;
Conference_Titel :
Signal Processing and Its Applications, 1999. ISSPA '99. Proceedings of the Fifth International Symposium on
Print_ISBN :
1-86435-451-8
DOI :
10.1109/ISSPA.1999.818115
