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Main Authors: Firas Abdulla Mahmood, Auday H.AL-Wattar
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.18299289
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author Firas Abdulla Mahmood
Auday H.AL-Wattar
author_facet Firas Abdulla Mahmood
Auday H.AL-Wattar
contents <p>This Study Presents A Comprehensive Evaluation Of An Advanced Chaotic Substitution Box (S-Box) Encryption System Enhanced With Multiple Chaotic Maps (Lorenz, Henon, Ikeda, Logistic, Tent, And Sine) For Securing Diverse Data Types. In Response To The Growing Need For Versatile Cryptographic Solutions Capable Of Protecting Heterogeneous Data Formats, We Developed And Tested A Unified Encryption Framework Adaptable To Image, Text, And Video Protection. Through Systematic Testing Across Six Standard Datasets Per Domain, The Research Demonstrates The System's Exceptional Versatility, Achieving Superior Security Metrics Including Avalanche Effects Exceeding 49.5% (Peaking At 52.8% For 4K Video), Near-Optimal Bit Entropy (7.86-7.98/8.0), And Minimal Temporal Correlation (0.002-0.005) For Video Encryption. Performance Analysis Reveals Efficient Throughput (10+ MB/S For Text, 285 MB/S For 1080p Video) With Minimal Storage Overhead (1-3% For Video) And Real-Time Capability Up To 1080p Resolution. The Study Establishes Clear Guidelines For Chaotic Map Selection: Henon And Lorenz Maps For Maximum Security Applications, Ikeda For Real-Time Processing, And Logistic/Tent Maps For ResourceConstrained Environments. Results Validate That Properly Integrated Chaotic Systems Provide Enterprise-Grade Security While Maintaining Practical Performance Across Heterogeneous Data Formats, Offering A Unified Cryptographic Framework Adaptable To Modern Digital Protection Requirements.</p>
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publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle DIMENSIONAL ADAPTIVE S-BOX (1D/2D) GENERATION FOR VARIABLE-SIZED MEDIA ENCRYPTION
Firas Abdulla Mahmood
Auday H.AL-Wattar
<p>This Study Presents A Comprehensive Evaluation Of An Advanced Chaotic Substitution Box (S-Box) Encryption System Enhanced With Multiple Chaotic Maps (Lorenz, Henon, Ikeda, Logistic, Tent, And Sine) For Securing Diverse Data Types. In Response To The Growing Need For Versatile Cryptographic Solutions Capable Of Protecting Heterogeneous Data Formats, We Developed And Tested A Unified Encryption Framework Adaptable To Image, Text, And Video Protection. Through Systematic Testing Across Six Standard Datasets Per Domain, The Research Demonstrates The System's Exceptional Versatility, Achieving Superior Security Metrics Including Avalanche Effects Exceeding 49.5% (Peaking At 52.8% For 4K Video), Near-Optimal Bit Entropy (7.86-7.98/8.0), And Minimal Temporal Correlation (0.002-0.005) For Video Encryption. Performance Analysis Reveals Efficient Throughput (10+ MB/S For Text, 285 MB/S For 1080p Video) With Minimal Storage Overhead (1-3% For Video) And Real-Time Capability Up To 1080p Resolution. The Study Establishes Clear Guidelines For Chaotic Map Selection: Henon And Lorenz Maps For Maximum Security Applications, Ikeda For Real-Time Processing, And Logistic/Tent Maps For ResourceConstrained Environments. Results Validate That Properly Integrated Chaotic Systems Provide Enterprise-Grade Security While Maintaining Practical Performance Across Heterogeneous Data Formats, Offering A Unified Cryptographic Framework Adaptable To Modern Digital Protection Requirements.</p>
title DIMENSIONAL ADAPTIVE S-BOX (1D/2D) GENERATION FOR VARIABLE-SIZED MEDIA ENCRYPTION
url https://doi.org/10.5281/zenodo.18299289