Title :
Secret key generation in correlated multi-dimensional Gaussian channels
Author :
Pasolini, Gianni ; Dardari, Davide
Author_Institution :
DEI, Univ. of Bologna, Bologna, Italy
Abstract :
Wireless channel reciprocity can be successfully exploited as a common source of randomness for the generation of a secret key by two legitimate users willing to achieve confidential communications over a public channel. This paper presents an analytical framework to investigate the theoretical limits of secret-key generation when wireless multi-dimensional Gaussian channels are used as source of randomness. The intrinsic secrecy content of wide-sense stationary wireless channels in frequency, time and spatial domains is derived through asymptotic analysis as the number of observations in a given domain tends to infinity. Some significant case studies are presented where single and multiple antenna eavesdroppers are considered. In the numerical results, the role of signal-to-noise ratio, spatial correlation, frequency and time selectivity is investigated.
Keywords :
Gaussian channels; antenna arrays; frequency-domain analysis; public key cryptography; radio networks; telecommunication security; time-domain analysis; wireless channels; analytical framework; asymptotic analysis; confidential communications; correlated multidimensional Gaussian channels; frequency domains; intrinsic secrecy content; multiple antenna eavesdroppers; public channel; secret key generation; signal-to-noise ratio; spatial correlation; spatial domains; time domains; time selectivity; wide-sense stationary wireless channels; wireless channel reciprocity; wireless networks; Communication system security; Covariance matrices; Security; Signal to noise ratio; Time-frequency analysis; Wireless communication;
Conference_Titel :
Communications (ICC), 2014 IEEE International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/ICC.2014.6883645
