Fast color wavelet-Haar-Hartley-prometheus transforms for image processing

Standard

Fast color wavelet-Haar-Hartley-prometheus transforms for image processing. / Rundblad-Labunets, E.; Maidan., A.; Novák, P. и др.
NATO Science Series II-Mathematics Physics and Chemistry: book. ред. / J. Byrnes. Том 136 Springer Netherlands, 2004. стр. 401-411 (COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS).

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Harvard

Rundblad-Labunets, E, Maidan., A, Novák, P & Labunets, V 2004, Fast color wavelet-Haar-Hartley-prometheus transforms for image processing. в J Byrnes (ред.), NATO Science Series II-Mathematics Physics and Chemistry: book. Том. 136, COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS, Springer Netherlands, стр. 401-411, Conference of the NATO-Advanced-Study-Institute on Computational Noncommutative Algebra Applications, Ciocco, Италия, 06/07/2003.

APA

Rundblad-Labunets, E., Maidan., A., Novák, P., & Labunets, V. (2004). Fast color wavelet-Haar-Hartley-prometheus transforms for image processing. в J. Byrnes (Ред.), NATO Science Series II-Mathematics Physics and Chemistry: book (Том 136, стр. 401-411). (COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS). Springer Netherlands.

Vancouver

Rundblad-Labunets E, Maidan. A, Novák P, Labunets V. Fast color wavelet-Haar-Hartley-prometheus transforms for image processing. в Byrnes J, Редактор, NATO Science Series II-Mathematics Physics and Chemistry: book. Том 136. Springer Netherlands. 2004. стр. 401-411. (COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS).

Author

Rundblad-Labunets, E. ; Maidan., A. ; Novák, P. и др. / Fast color wavelet-Haar-Hartley-prometheus transforms for image processing. NATO Science Series II-Mathematics Physics and Chemistry: book. Редактор / J. Byrnes. Том 136 Springer Netherlands, 2004. стр. 401-411 (COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS).

BibTeX

@inproceedings{165acd9222e44b9996f3db40bad2b99c,

title = "Fast color wavelet-Haar-Hartley-prometheus transforms for image processing",

abstract = "This paper present a new approach to the Color Fourier Transformation. Color image processing is investigated in this paper using an algebraic approach based on triplet (color) numbers. In the algebraic approach, each image color pixel is considered not as a 3D vector, but as a triplet (color) number. The so-called orthounitary transforms are introduced and used for color image processing. These transforms are similar to a fast orthogonal and unitary transforms. Simulations using the color Wavelet-Haar-Prometheus transforms on color image compression have also been performed.",

author = "E. Rundblad-Labunets and A. Maidan. and P. Nov{\'a}k and V. Labunets",

year = "2004",

language = "English",

volume = "136",

series = "COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS",

publisher = "Springer Netherlands",

pages = "401--411",

editor = "J. Byrnes",

booktitle = "NATO Science Series II-Mathematics Physics and Chemistry",

address = "Netherlands",

note = "Conference of the NATO-Advanced-Study-Institute on Computational Noncommutative Algebra Applications ; Conference date: 06-07-2003 Through 19-07-2003",

}

RIS

TY - GEN

T1 - Fast color wavelet-Haar-Hartley-prometheus transforms for image processing

AU - Rundblad-Labunets, E.

AU - Maidan., A.

AU - Novák, P.

AU - Labunets, V.

PY - 2004

Y1 - 2004

N2 - This paper present a new approach to the Color Fourier Transformation. Color image processing is investigated in this paper using an algebraic approach based on triplet (color) numbers. In the algebraic approach, each image color pixel is considered not as a 3D vector, but as a triplet (color) number. The so-called orthounitary transforms are introduced and used for color image processing. These transforms are similar to a fast orthogonal and unitary transforms. Simulations using the color Wavelet-Haar-Prometheus transforms on color image compression have also been performed.

AB - This paper present a new approach to the Color Fourier Transformation. Color image processing is investigated in this paper using an algebraic approach based on triplet (color) numbers. In the algebraic approach, each image color pixel is considered not as a 3D vector, but as a triplet (color) number. The so-called orthounitary transforms are introduced and used for color image processing. These transforms are similar to a fast orthogonal and unitary transforms. Simulations using the color Wavelet-Haar-Prometheus transforms on color image compression have also been performed.

UR - https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=tsmetrics&SrcApp=tsm_test&DestApp=WOS_CPL&DestLinkType=FullRecord&KeyUT=000225473500015

M3 - Conference contribution

VL - 136

T3 - COMPUTATIONAL NONCOMMUTATIVE ALGEBRA AND APPLICATIONS

SP - 401

EP - 411

BT - NATO Science Series II-Mathematics Physics and Chemistry

A2 - Byrnes, J.

PB - Springer Netherlands

T2 - Conference of the NATO-Advanced-Study-Institute on Computational Noncommutative Algebra Applications

Y2 - 6 July 2003 through 19 July 2003

ER -

ID: 44312214