Lower-Complexity Multi-Layered Security Partitioning Algorithm Based on Chaos Mapping-DWT Transform for WA/SNs DOI Creative Commons

Tarek Srour,

Mohsen A. M. El‐Bendary,

Mostafa A. R. Eltokhy

et al.

Journal of Sensor and Actuator Networks, Journal Year: 2025, Volume and Issue: 14(2), P. 36 - 36

Published: March 31, 2025

The resource limitations of Low-Power Wireless Networks (LP-WNs), such as Sensor (WSNs), Actuator/Sensor (WA/SNs), and Internet Things (IoT) outdoor applications, restrict the utilization error-performance-enhancing techniques use powerful robust security tools. Therefore, these LP-WN applications require special to satisfy requirements a low data loss rate while considering accepted level complexity power efficiency techniques. This paper focuses on proposing power-efficient, cryptographic algorithm for WA/SNs. lower-complexity is proposed, based merging composition tools utilizing transforms chaos mapping decomposing tool performed by various transforms: Discrete Cosine Transform (DCT), Wavelet (DWT), Fast Fourier (FFT), Walsh Hadamard (WHT); DWT performs better with efficient complexity. It utilized separate plaintext into main portion side information portions reduce more than 50% ciphered in series cryptography increase capabilities proposed two mappings. process reduction saves employed feed without increasing mappings are used, two-dimensional (2D) logistic maps used due their high sensitivity noise attacks. 2D baker map its secret key managing flexibility initial conditions dimensions. Several computer experiments demonstrated evaluate robustness, reliability, applicability complexity-efficient crypto-system presence results prove suitability WASN robustness attacks efficiency.

Language: Английский

Lower-Complexity Multi-Layered Security Partitioning Algorithm Based on Chaos Mapping-DWT Transform for WA/SNs DOI Creative Commons

Tarek Srour,

Mohsen A. M. El‐Bendary,

Mostafa A. R. Eltokhy

et al.

Journal of Sensor and Actuator Networks, Journal Year: 2025, Volume and Issue: 14(2), P. 36 - 36

Published: March 31, 2025

The resource limitations of Low-Power Wireless Networks (LP-WNs), such as Sensor (WSNs), Actuator/Sensor (WA/SNs), and Internet Things (IoT) outdoor applications, restrict the utilization error-performance-enhancing techniques use powerful robust security tools. Therefore, these LP-WN applications require special to satisfy requirements a low data loss rate while considering accepted level complexity power efficiency techniques. This paper focuses on proposing power-efficient, cryptographic algorithm for WA/SNs. lower-complexity is proposed, based merging composition tools utilizing transforms chaos mapping decomposing tool performed by various transforms: Discrete Cosine Transform (DCT), Wavelet (DWT), Fast Fourier (FFT), Walsh Hadamard (WHT); DWT performs better with efficient complexity. It utilized separate plaintext into main portion side information portions reduce more than 50% ciphered in series cryptography increase capabilities proposed two mappings. process reduction saves employed feed without increasing mappings are used, two-dimensional (2D) logistic maps used due their high sensitivity noise attacks. 2D baker map its secret key managing flexibility initial conditions dimensions. Several computer experiments demonstrated evaluate robustness, reliability, applicability complexity-efficient crypto-system presence results prove suitability WASN robustness attacks efficiency.

Language: Английский

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