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DNA-PRESENT: An Improved Security and Low-Latency, Lightweight Cryptographic Solution for IoT.

Maria Imdad1,2, Adnan Fazil1, Sofia Najwa Binti Ramli2

  • 1Department of Avionics Engineering, Air University, E-9, Islamabad 44000, Pakistan.

Sensors (Basel, Switzerland)
|January 8, 2025
PubMed
Summary

This study introduces DNA-PRESENT, a novel lightweight block cipher for the Internet of Things (IoT). DNA-PRESENT enhances security by improving key and plaintext sensitivity, offering a better trade-off between security and performance for IoT data protection.

Keywords:
DNA cryptographyInternet of Things (IoT)PRESENT block cipherdiffusion propertylightweight cryptographyperformance analysissecurity analysis

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Area of Science:

  • Cryptography and Network Security
  • Internet of Things (IoT) Security
  • Lightweight Cryptography

Background:

  • The Internet of Things (IoT) faces significant security threats due to massive data exchange and resource-constrained devices.
  • Lightweight cryptographic algorithms are crucial for enhancing IoT data security without compromising performance.
  • The PRESENT block cipher, while efficient, suffers from slow confusion and diffusion due to static bits in its permutation layer.

Purpose of the Study:

  • To address the slow confusion and diffusion properties of the PRESENT block cipher.
  • To enhance the security of lightweight cryptography for IoT environments.
  • To develop a novel block cipher, DNA-PRESENT, by integrating Deoxyribonucleic Acid (DNA) replication and shift-aided operations.

Main Methods:

  • Modification of the PRESENT block cipher using Deoxyribonucleic Acid (DNA) replication principles and shift-aided operations.
  • Implementation of the proposed DNA-PRESENT block cipher.
  • Comprehensive security, cost, and performance analyses to evaluate improvements.

Main Results:

  • DNA-PRESENT achieved a 73.57% increase in key sensitivity and a 33% increase in plaintext sensitivity.
  • The algorithm maintained an average bit error rate (BER) of 50.2%.
  • Throughput increased by 176.47 kb/s, latency reduced to 17 cycles/block, and hardware efficiency remained high at 43.41 kbps/KGE, with a 0.2333 s reduction in execution time.

Conclusions:

  • DNA-PRESENT effectively overcomes the confusion and diffusion limitations of the original PRESENT cipher.
  • The enhanced security features of DNA-PRESENT offer a favorable trade-off for its marginal cost increase.
  • The proposed algorithm presents a viable solution for securing data in resource-constrained IoT environments.