Analysis of key randomness in improved one-time pad cryptography
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Abstract
In cryptography, one-time pad (OTP) is claimed to be the perfect secrecy algorithm in several works if all of its features are applied correctly. Its secrecy depends mostly on random keys, which must be truly random and unpredictable. Random number generators are used in key generation. In Psuedo Random Number Generator (PRNG), the possibility of producing numbers that are predictable and repeated exists. In this study, a proposed method using True Random Number Generator (TRNG) and Fisher-Yates shuffling algorithm are implemented to generate random keys for OTP. Frequency (monobit) test, frequency test within a block, and runs tests are performed and showed that the proposed method produces more random keys. Sufficient confusion and diffusion properties are obtained using Pearson correlation analysis.
Recommended Citation
Manucom, E. M. M., Gerardo, B. D., & Medina, R. P. (2019, October). Analysis of key randomness in improved one-time pad cryptography. In 2019 IEEE 13th International Conference on Anti-counterfeiting, Security, and Identification (ASID) (pp. 11-16). IEEE. https://doi.org/10.1109/ICASID.2019.8925173
Type
Conference paperISSN
2163-5048; 2163-5056ISBN
978-1-7281-2458-2Keywords
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