Application of high performance one-dimensional chaotic map in key expansion algorithm

Li, Yuxuan

doi:10.21203/rs.3.rs-3091298/v1

Cited by 2 publications

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References 29 publications

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“…We choose 0.5  = , and the 1D chaotic map f is a classical logistic map, as shown in Eq. ( 2) [32].…”

Section: Classic and Improved Cross-coupled Mapping Latticementioning

confidence: 99%

Advanced Spatiotemporal Chaos-Based Hash Functions for Enhanced Security

2024

Preprint

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The domain of nonlinear science has witnessed a burgeoning interest in the study of spatiotemporal chaos, prompting a deeper investigation into its complex dynamics. This research introduces an innovative enhancement to the cross-coupled map lattice, presenting a novel spatiotemporal chaotic map that signifies a leap forward in chaotic systems' modeling. Our comprehensive experimental analysis demonstrates that this updated cross-coupled map lattice significantly surpasses its predecessor in terms of chaotic behavior and performance. Considering the escalating relevance of hash functions across various sectors—most notably in cryptography, data integrity verification, and data indexing—our work leverages this pioneering spatiotemporal chaos framework to forge new paths in hash function development. We have engineered a state-of-the-art hash function that harnesses the sophisticated dynamics of the enhanced cross-coupled map lattice. This function adeptly processes variable-length input data, producing fixed-size hash outputs of 128, 256, or 512 bits. Through a series of rigorous tests designed to simulate a range of potential cryptographic attacks, we have validated the exceptional security and resilience of our hash function. Our thorough experimental scrutiny reveals the hash function's robust security features, confirming its suitability for critical applications that demand high levels of data integrity and enhanced cryptographic protection. This exploration into spatiotemporal chaos not only sets a new benchmark for hash function design but also contributes significantly to the broader field of cryptography, offering robust solutions to the contemporary challenges faced in digital security.

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“…We choose 0.5  = , and the 1D chaotic map f is a classical logistic map, as shown in Eq. ( 2) [32].…”

Section: Classic and Improved Cross-coupled Mapping Latticementioning

confidence: 99%

Advanced Spatiotemporal Chaos-Based Hash Functions for Enhanced Security

2024

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…We choose 0.5 ε = , and the 1D chaotic map f is a classical logistic map, as shown in Eq. ( 2) [32].…”

Section: Improvement Of Spatiotemporal Chaos 21 Classic and Improved ...mentioning

confidence: 99%

Advanced Spatiotemporal Chaos-Based Hash Functions for Enhanced Security

2024

Preprint

View full text Add to dashboard Cite

The exploration of spatiotemporal chaos within nonlinear science has attracted significant attention recently. This research unveils an advanced framework for the cross-coupled map lattice, introducing a new spatiotemporal chaotic map. Our experimental assessments show that this refined cross-coupled map lattice outperforms its traditional version in chaotic dynamics. Given the increasing importance of hash functions in cryptography, data integrity verification, and data indexing, our study capitalizes on this innovative spatiotemporal chaos model. We devise a cutting-edge hash function utilizing the enhanced cross-coupled map lattice, capable of converting variable-length input data into fixed-size hash outputs of 128, 256, or 512 bits. Rigorous evaluation against diverse attack scenarios confirms the hash function's security and robustness. Our extensive experimental investigation underscores the hash function's solid security attributes, affirming its aptness for applications requiring stringent data integrity and cryptographic safeguards.

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Application of high performance one-dimensional chaotic map in key expansion algorithm

Cited by 2 publications

References 29 publications

Advanced Spatiotemporal Chaos-Based Hash Functions for Enhanced Security

Advanced Spatiotemporal Chaos-Based Hash Functions for Enhanced Security

Advanced Spatiotemporal Chaos-Based Hash Functions for Enhanced Security

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