DocumentCode
653758
Title
PHY-layer authentication by introducing controlled inter symbol interference
Author
Kumar, Vipin ; Jung-Min Park ; Clancy, T. Charles ; Kaigui Bian
Author_Institution
Bradley Dept. of Electr. & Comput. Eng., Virginia Tech, Blacksburg, VA, USA
fYear
2013
fDate
14-16 Oct. 2013
Firstpage
10
Lastpage
18
Abstract
Spectrum security and enforcement is one of the major challenges that need to be addressed before spectrum-agile and opportunistic spectrum access technologies can be deployed. Rogue transmitters are a major threat to opportunistic spectrum access. One approach for deterring rogue transmissions is to enable receivers to authenticate or uniquely identify secondary transmitters. Although cryptographic mechanisms at the higher layers have been widely used to authenticate transmitters, the ability to authenticate transmitters at the physical (PHY) layer has a number of key advantages over higher-layer approaches. In existing schemes, the authentication signal is added to the message signal in such a way that the authentication signal appears as noise to the message signal and vice versa. Hence, existing schemes are constrained by a fundamental tradeoff between the message signal´s signal-to-noise ratio (SNR) and the authentication signal´s SNR. In this paper, we propose a novel PHY-layer authentication scheme called Precoded Duobinary Signaling for Authentication (P-DSA). P-DSA introduces some controlled amount of inter-symbol interference (ISI) into the data stream. The addition of the controlled ISI introduces redundancy in the message signal which can be utilized to embed the authentication signal. In this way, P-DSA relaxes the constraint on the aforementioned tradeoff. Our results show that P-DSA achieves superior detection performance compared to the prior art without sacrificing message throughput or increasing power.
Keywords
intersymbol interference; message authentication; precoding; telecommunication security; PHY layer authentication; authentication signal; controlled intersymbol interference; data stream; opportunistic spectrum access; physical layer; precoded duobinary signaling for authentication; spectrum security; Authentication; Bit error rate; Encoding; Phase shift keying; Receivers; Signal to noise ratio; Transmitters;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications and Network Security (CNS), 2013 IEEE Conference on
Conference_Location
National Harbor, MD
Type
conf
DOI
10.1109/CNS.2013.6682687
Filename
6682687
Link To Document