2 research outputs found
Location Aided Cooperative Detection of Primary User Emulation Attacks in Cognitive Wireless Sensor Networks Using Nonparametric Techniques
Primary user emulation (PUE) attacks are a major security challenge to cognitive wireless
sensor networks (CWSNs). In this paper, we propose two variants of the PUE attack, namely,
the relay and replay attacks. Such threats are conducted by malicious nodes that replicate
the transmissions of a real primary user (PU), thus making them resilient to many defensive
procedures. However, we show that those PUE attacks can be effectively detected by a set of cooperating secondary users (SUs), using location information and received signal strength
(RSS) measurements. Two strategies for the detection of PUE relay and replay attacks are
presented in the paper: parametric and nonparametric. The parametric scheme is based on
the likelihood ratio test (LRT) and requires the existence of a precise path loss model for
the observed RSS values. On the contrary, the nonparametric procedure is not tied to any
particular propagation model; so, it does not require any calibration process and is robust
to changing environmental conditions. Simulations show that the nonparametric detection
approach is comparable in performance to the LRT under moderate shadowing conditions,
specially in case of replay attacks
Location Aided Cooperative Detection of Primary User Emulation Attacks in Cognitive Wireless Sensor Networks Using Nonparametric Techniques
Primary user emulation (PUE) attacks are a major security challenge to cognitive wireless sensor networks (CWSNs). In this paper, we propose two variants of the PUE attack, namely, the relay and replay attacks. Such threats are conducted by malicious nodes that replicate the transmissions of a real primary user (PU), thus making them resilient to many defensive procedures. However, we show that those PUE attacks can be effectively detected by a set of cooperating secondary users (SUs), using location information and received signal strength (RSS) measurements. Two strategies for the detection of PUE relay and replay attacks are presented in the paper: parametric and nonparametric. The parametric scheme is based on the likelihood ratio test (LRT) and requires the existence of a precise path loss model for the observed RSS values. On the contrary, the nonparametric procedure is not tied to any particular propagation model; so, it does not require any calibration process and is robust to changing environmental conditions. Simulations show that the nonparametric detection approach is comparable in performance to the LRT under moderate shadowing conditions, specially in case of replay attacks