A graph-theoretic approach for studying the convergence of fractal encoding algorithm

Jayanta Mukherjee; Pramod Kumar; S. K. Ghosh

doi:10.1109/83.826775

A graph-theoretic approach for studying the convergence of fractal encoding algorithm

Jayanta Mukherjee, Pramod Kumar, S. K. Ghosh

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

In this paper, we present a graph-theoretic interpretation of convergence of fractal encoding based on partial iterated function system (PIFS). First we have considered a special circumstance, where no spatial contraction has been allowed in the encoding process. The concept leads to the development of a linear time fast decoding algorithm from the compressed image. This concept is extended for the general scheme of fractal compression allowing spatial contraction (on averaging) from larger domains to smaller ranges. A linear time fast decoding algorithm is also proposed in this situation, which produces a decoded image very close to the result obtained by an ordinary iterative decompression algorithm.

Original language	English
Pages (from-to)	366-377
Number of pages	12
Journal	IEEE Transactions on Image Processing
Volume	9
Issue number	3
DOIs	https://doi.org/10.1109/83.826775
State	Published - 1 Dec 2000
Externally published	Yes

Keywords

Attractor
Contractive transform
Fixed point
Fractal compression
Partial iterated function system (PIFS)

ASJC Scopus subject areas

Software
Computer Graphics and Computer-Aided Design

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10.1109/83.826775

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abstract = "In this paper, we present a graph-theoretic interpretation of convergence of fractal encoding based on partial iterated function system (PIFS). First we have considered a special circumstance, where no spatial contraction has been allowed in the encoding process. The concept leads to the development of a linear time fast decoding algorithm from the compressed image. This concept is extended for the general scheme of fractal compression allowing spatial contraction (on averaging) from larger domains to smaller ranges. A linear time fast decoding algorithm is also proposed in this situation, which produces a decoded image very close to the result obtained by an ordinary iterative decompression algorithm.",

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AU - Kumar, Pramod

AU - Ghosh, S. K.

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N2 - In this paper, we present a graph-theoretic interpretation of convergence of fractal encoding based on partial iterated function system (PIFS). First we have considered a special circumstance, where no spatial contraction has been allowed in the encoding process. The concept leads to the development of a linear time fast decoding algorithm from the compressed image. This concept is extended for the general scheme of fractal compression allowing spatial contraction (on averaging) from larger domains to smaller ranges. A linear time fast decoding algorithm is also proposed in this situation, which produces a decoded image very close to the result obtained by an ordinary iterative decompression algorithm.

AB - In this paper, we present a graph-theoretic interpretation of convergence of fractal encoding based on partial iterated function system (PIFS). First we have considered a special circumstance, where no spatial contraction has been allowed in the encoding process. The concept leads to the development of a linear time fast decoding algorithm from the compressed image. This concept is extended for the general scheme of fractal compression allowing spatial contraction (on averaging) from larger domains to smaller ranges. A linear time fast decoding algorithm is also proposed in this situation, which produces a decoded image very close to the result obtained by an ordinary iterative decompression algorithm.

KW - Attractor

KW - Contractive transform

KW - Fixed point

KW - Fractal compression

KW - Partial iterated function system (PIFS)

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JO - IEEE Transactions on Image Processing

JF - IEEE Transactions on Image Processing

IS - 3

ER -

A graph-theoretic approach for studying the convergence of fractal encoding algorithm

Abstract

Keywords

ASJC Scopus subject areas

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