Fractal image compression using digital cone metric space

T. Gopalakrishnan; Hussein Z. Almngoshi; Vijaya Kumar Koppula; K. Dinesh; Vijaya Krishna Sonthi; Sudhakar Sengan; Pankaj Dadheech

doi:10.47974/JIM-2108

Fractal image compression using digital cone metric space

T. Gopalakrishnan^*
, Hussein Z. Almngoshi
, Vijaya Kumar Koppula
, K. Dinesh
, Vijaya Krishna Sonthi
, Sudhakar Sengan
, Pankaj Dadheech

^*Corresponding author for this work

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

5 Citations (Scopus)

Abstract

This work presents Fixed Point Theorems (FPT) on Digital Images (DI) based on the Banach contraction concept developed. The study aims to develop the application of Banach Contraction Mapping Theory (BCMT) for DI, which was presented. The following finding generates a single Fixed Point (FP) for DI, exploring the core idea of DI and implementing the FPT in the context of Digital Image Compression (DIC). Fractal Image Compression (FIC) is a standard method for DIC. It is founded on a search for an object that is accurately in the image. However, a significant problem with DIC is its computational weight. The study proposed a method to reduce data transmission time by applying Image Compression (IC). It highlights the challenges of maximizing Image Quality (IQ) or reducing transmission time for definite IQ. The classic FIC method, which uses non-linear contractive mapping as a constant contractive factor, can attain this.

Original language	English
Pages (from-to)	647-658
Number of pages	12
Journal	Journal of Interdisciplinary Mathematics
Volume	28
Issue number	2
DOIs	https://doi.org/10.47974/JIM-2108
Publication status	Published - 03-2025

All Science Journal Classification (ASJC) codes

Analysis
Applied Mathematics

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10.47974/JIM-2108

Cite this

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title = "Fractal image compression using digital cone metric space",

abstract = "This work presents Fixed Point Theorems (FPT) on Digital Images (DI) based on the Banach contraction concept developed. The study aims to develop the application of Banach Contraction Mapping Theory (BCMT) for DI, which was presented. The following finding generates a single Fixed Point (FP) for DI, exploring the core idea of DI and implementing the FPT in the context of Digital Image Compression (DIC). Fractal Image Compression (FIC) is a standard method for DIC. It is founded on a search for an object that is accurately in the image. However, a significant problem with DIC is its computational weight. The study proposed a method to reduce data transmission time by applying Image Compression (IC). It highlights the challenges of maximizing Image Quality (IQ) or reducing transmission time for definite IQ. The classic FIC method, which uses non-linear contractive mapping as a constant contractive factor, can attain this.",

author = "T. Gopalakrishnan and Almngoshi, \{Hussein Z.\} and Koppula, \{Vijaya Kumar\} and K. Dinesh and Sonthi, \{Vijaya Krishna\} and Sudhakar Sengan and Pankaj Dadheech",

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TY - JOUR

T1 - Fractal image compression using digital cone metric space

AU - Gopalakrishnan, T.

AU - Almngoshi, Hussein Z.

AU - Koppula, Vijaya Kumar

AU - Dinesh, K.

AU - Sonthi, Vijaya Krishna

AU - Sengan, Sudhakar

AU - Dadheech, Pankaj

PY - 2025/3

Y1 - 2025/3

N2 - This work presents Fixed Point Theorems (FPT) on Digital Images (DI) based on the Banach contraction concept developed. The study aims to develop the application of Banach Contraction Mapping Theory (BCMT) for DI, which was presented. The following finding generates a single Fixed Point (FP) for DI, exploring the core idea of DI and implementing the FPT in the context of Digital Image Compression (DIC). Fractal Image Compression (FIC) is a standard method for DIC. It is founded on a search for an object that is accurately in the image. However, a significant problem with DIC is its computational weight. The study proposed a method to reduce data transmission time by applying Image Compression (IC). It highlights the challenges of maximizing Image Quality (IQ) or reducing transmission time for definite IQ. The classic FIC method, which uses non-linear contractive mapping as a constant contractive factor, can attain this.

AB - This work presents Fixed Point Theorems (FPT) on Digital Images (DI) based on the Banach contraction concept developed. The study aims to develop the application of Banach Contraction Mapping Theory (BCMT) for DI, which was presented. The following finding generates a single Fixed Point (FP) for DI, exploring the core idea of DI and implementing the FPT in the context of Digital Image Compression (DIC). Fractal Image Compression (FIC) is a standard method for DIC. It is founded on a search for an object that is accurately in the image. However, a significant problem with DIC is its computational weight. The study proposed a method to reduce data transmission time by applying Image Compression (IC). It highlights the challenges of maximizing Image Quality (IQ) or reducing transmission time for definite IQ. The classic FIC method, which uses non-linear contractive mapping as a constant contractive factor, can attain this.

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JO - Journal of Interdisciplinary Mathematics

JF - Journal of Interdisciplinary Mathematics

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Fractal image compression using digital cone metric space

Abstract

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