Title
Statistical Characterization of Decryption Errors in Block-Ciphered Systems
Document Type
Article
Publication Date
11-1-2015
Abstract
It is well known that avalanche effect errors in received noisy ciphertexts will cause severe error propagation in block-ciphered encryption systems, thus resulting in a large reduction in the achievable throughput. However, little is known about the statistical properties of the underlying error sequences in decrypted plaintexts in block-ciphered systems when channel errors are present. A rigorous study of the statistical properties of the errors in block-ciphered crypto-systems operating in cipher block chaining (CBC) mode is provided. The equivalent channel transition probability is obtained and then used to derive error statistics including both error weight probabilities and gap distributions. The validity of the theoretical analyses is confirmed by the excellent match with results obtained by simulated data encryption standard (DES)-based and advanced encryption standard (AES)-based crypto-systems operating in CBC mode. The error statistics will be valuable in the design and performance evaluation of communication protocols, as well as in error-control schemes for block-ciphered crypto-systems in the presence of erroneous ciphertexts, where errors are intentionally left to enhance security against passive eavesdroppers.
Publication Source (Journal or Book title)
IEEE Transactions on Communications
First Page
4363
Last Page
4376
Recommended Citation
Wang, J., Mu, J., Wei, S., Jiang, C., & Beaulieu, N. (2015). Statistical Characterization of Decryption Errors in Block-Ciphered Systems. IEEE Transactions on Communications, 63 (11), 4363-4376. https://doi.org/10.1109/TCOMM.2015.2474860