Title :
Error-free perfect-secrecy systems
Author :
Ho, Siu-Wai ; Chan, Terence ; Uduwerelle, Chinthani
Author_Institution :
Inst. for Telecommun. Res., Univ. of South Australia, Adelaide, SA, Australia
fDate :
July 31 2011-Aug. 5 2011
Abstract :
Shannon´s fundamental bound for perfect secrecy says that the entropy of the secret message U cannot be larger than the entropy of the secret key R shared by the sender and the legitimate receiver. Massey gave an information theoretic proof of this result and the proof does not require U and R to be independent. By adding an extra assumption that I(U; R) = 0, we show a tighter lower bound on H(R) by proving that the logarithm of the message sample size cannot be larger than the entropy of the secret key. Then we consider that a perfect secrecy system is used multiple times. A new parameter, namely effective key consumption, is defined and justified. This paper shows the existence of a fundamental tradeoff between the effective key consumption and the number of channel uses for transmitting a ciphertext.
Keywords :
cryptography; entropy; telecommunication security; Shannon fundamental bound; ciphertext transmission; effective key consumption; error-free perfect-secrecy system; information theoretic proof; legitimate receiver; lower bound; message sample size logarithm; secret key entropy; secret message; Decoding; Encoding; Entropy; Manganese; Radio access networks; Random variables; Receivers;
Conference_Titel :
Information Theory Proceedings (ISIT), 2011 IEEE International Symposium on
Conference_Location :
St. Petersburg
Print_ISBN :
978-1-4577-0596-0
Electronic_ISBN :
2157-8095
DOI :
10.1109/ISIT.2011.6033797
