We apologize for a recent technical issue with our email system, which temporarily affected account activations. Accounts have now been activated. Authors may proceed with paper submissions. PhDFocusTM
CFP last date
20 December 2024
Call for Paper
January Edition
IJCA solicits high quality original research papers for the upcoming January edition of the journal. The last date of research paper submission is 20 December 2024

Submit your paper
Know more
The week's pick
Responsive image
Improved Shuffled Frog Leaping Algorithm with Self-Adaptive Shuffling for Fuzzy Logic PD+G Controller Optimization in Robotic Manipulators

Duc Hoang Nguyen
Random Articles
Reseach Article

Modeling Curves via Fractal Interpolation with VSFF

Published on March 2014 by Bhagwati Prasad, Bani Singh, Kuldip Katiyar
journal_cover_thumbnail

International Conference on Advances in Computer Engineering and Applications
Foundation of Computer Science USA
ICACEA - Number 1
March 2014
Authors: Bhagwati Prasad, Bani Singh, Kuldip Katiyar
43f6918b-c1a6-4cf8-954a-cc938215230f

Bhagwati Prasad, Bani Singh, Kuldip Katiyar . Modeling Curves via Fractal Interpolation with VSFF. International Conference on Advances in Computer Engineering and Applications. ICACEA, 1 (March 2014), 26-29.

@article{
author = { Bhagwati Prasad, Bani Singh, Kuldip Katiyar },
title = { Modeling Curves via Fractal Interpolation with VSFF },
journal = { International Conference on Advances in Computer Engineering and Applications },
issue_date = { March 2014 },
volume = { ICACEA },
number = { 1 },
month = { March },
year = { 2014 },
issn = 0975-8887,
pages = { 26-29 },
numpages = 4,
url = { /proceedings/icacea/number1/15612-1430/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on Advances in Computer Engineering and Applications
%A Bhagwati Prasad
%A Bani Singh
%A Kuldip Katiyar
%T Modeling Curves via Fractal Interpolation with VSFF
%J International Conference on Advances in Computer Engineering and Applications
%@ 0975-8887
%V ICACEA
%N 1
%P 26-29
%D 2014
%I International Journal of Computer Applications
Abstract

M. F. Barnsley proposed the concept of fractal interpolation function (FIF) using iterated function systems (IFS) to describe the real world objects. The purpose of this paper is to study the parameter identification method for FIF with vertical scaling factor functions (VSFF) for one dimensional data set and establish the generalized version of the analytic approach of Mazel [13].

References
  1. Barnsley, M. F. 1986. Fractal functions and interpolation. Constr. Approx. 2, 303-329.
  2. Barnsley, M. F. , Elton, J. H. , and Hardin, D. P. 1989. Recurrent iterated Function Systems. Constructive Approximation 5, 3-31.
  3. Barnsley, M. F. 1993. Fractals Everywhere, 2nd edition, Revised with the assistance of and a foreword by Hawley Rising, III. Boston MA, Academic Press Professional.
  4. Bouboulis, P. , Drakopoulos, V. P. , and Theodoridis, S. 2006. Image compression using affine fractal interpolation surfaces. Fractals 14(4) 1-11.
  5. Cochran, W. O. , Hart, J. C. , and Flynn, P. J. 1998. On approximating rough curves with fractal functions. Proc. Graphics Interface 1, 65–72.
  6. Dalla, L. , and Drakopoulos, V. 1999. On the parameter identi?cation problem in the plane and the polar fractal interpolation functions. J. Approx. Theory 101, 290–303.
  7. Drakopoulos, V. , Bouboulis, P. , and Theodoridis, S. 2006. Image Compression Using Affine Fractal Interpolation on Rectangular Lattices 14, 259-269.
  8. Feng, Z. , Feng, Y. , and Yuan, Z. 2012. Fractal interpolation surfaces with function vertical scaling factors. Applied Mathematics Letters 25, 1896–1900.
  9. Geronimo, J. S. , Hardin, D. P. , and Massopust, P. R. 1994. Fractal functions and wavelet expansions based on several scaling functions. J. Approx. Theory 78, 373 – 401.
  10. Hutchinson, J. 1981. Fractals and self-similarity. Indiana Univ. J. Math. 30, 713-747.
  11. Manousopoulos, P. , Drakopoulos, V. , and Theoharis, T. 2008. Curve ?tting by fractal interpolation. Trans. Comput. Sci. 1, 85–103.
  12. Manousopoulos, P. , Drakopoulos, V. , and Theoharis, T. 2009. Parameter identi?cation of 1 D fractal interpolation functions using bounding volumes. Journal of Computational and Applied Mathematics 233, 1063–1082.
  13. Mazel, D. S. , and Hayes, M. H. 1992. Using iterated function systems to model discrete sequences. IEEE Trans. Signal Process 40, 1724–1734.
  14. Navascues, M. A. , and Sebastian, M. V. 2004. Fitting curves by fractal interpolation: an application to the quantification of cognitive brain processes," in: M. Miroslav Michal Novak (ed. ), Thinking in patterns fractals and related phenomena in nature, World Scientific, 143-154.
  15. Prasad, B. , and Katiyar, K. 2011. Fractals via Ishikawa iteration. CCIS, Springer Berlin Heidelberg 140(2), 197-203,
  16. Prasad, B. , Sing, B. , and Katiyar, K. 2012. A method of curve fitting by recurrent fractal interpolation. International Journal of Computer Applications, iccia (3), 1-4.
Index Terms

Computer Science
Information Sciences

Keywords

Iterated Function System Fractal Interpolation Function Vertical Scaling Factor Functions.