Abstract:
Aim: This study presents an efficient implementation of the Novel Data Encryption Standard (DES) algorithm with an improved key generation method and the result is compar...Show MoreMetadata
Abstract:
Aim: This study presents an efficient implementation of the Novel Data Encryption Standard (DES) algorithm with an improved key generation method and the result is compared with the Viterbi decoder algorithm. Materials and Methods: The proposed implementation of the novel Data Encryption Standard (DES) and Viterbi algorithm requires a computer with VHDL synthesis tool and Modelsim software installed. The encryption and decryption are implemented in VHDL language, while the key generation process is executed using the Modelsim software. The runtime analysis of the proposed algorithm was conducted using a set of test data and the results were compared with the Viterbi algorithm. The research consisted of 10 samples and applied the DES and Viterbi algorithms with an equal number of samples. The analysis was conducted using G-power (0.8) with alpha and beta set at 0.05 and 0.2, and a 95% confidence interval. Result: In terms of performance, the proposed implementation showed a run time of 3.3 ns, while the traditional Viterbi decoder showed a run time of 6.6 ns. The research's significance level was determined to be p =0.002(p<0.05). Conclusion: The results of the proposed implementation indicate its potential as a valuable addition to the field of data encryption technology and its potential for wider implementation in real-world applications.
Published in: 2023 Eighth International Conference on Science Technology Engineering and Mathematics (ICONSTEM)
Date of Conference: 06-07 April 2023
Date Added to IEEE Xplore: 07 June 2023
ISBN Information: