DocumentCode
647073
Title
Effective eavesdropping in the Artificial noise aided security scheme
Author
Feilong Wu ; Wenjie Wang ; Bobin Yao ; Qinye Yin
Author_Institution
Minist. of Educ. Key Lab. for Intell. Networks & Network Security, Xi´an Jiaotong Univ., Xi´an, China
fYear
2013
fDate
12-14 Aug. 2013
Firstpage
214
Lastpage
218
Abstract
The Artificial noise (AN) injection scheme is recently proposed to secure wireless transmissions. By simultaneously transmitting data symbols and artificial interference, it prevents the eavesdropper from decoding the secret message intended for the legitimate receiver. In this paper, we mainly focus on weakness of the AN security scheme. First, we analyze the necessary condition for such a scheme to guarantee that the legitimate transmitter-receiver pair can achieve a positive secrecy communication rate. And then, we further propose an effective eavesdropping strategy to counteract such a security scheme once the condition does not hold up in some wireless systems. Our proposed wiretap method involves complex-valued independent component analysis (ICA) and requires the antenna number of the eavesdropper´s is larger or equal to that of the transmitter´s. Simulation results demonstrate the effectiveness of this wiretap method.
Keywords
independent component analysis; telecommunication security; AN security scheme; ICA; artificial interference; artificial noise aided security scheme; artificial noise injection scheme; complex-valued independent component analysis; data symbols; eavesdropping strategy; secret message decoding; wiretap method; Algorithm design and analysis; Noise; Quality of service; Security; Signal processing algorithms; Transmitting antennas; Vectors; Physical-layer security; artificial noise; eavesdropping; independent component analysis (ICA); secrecy rate;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications in China (ICCC), 2013 IEEE/CIC International Conference on
Conference_Location
Xi´an
Type
conf
DOI
10.1109/ICCChina.2013.6671117
Filename
6671117
Link To Document