Collaborative Spectrum Sensing under Primary User Emulation Attack in Cognitive Radio Networks

Sharifi, Abbas Ali; Sharifi, Morteza; Niya, Javad Musevi

doi:10.1080/03772063.2015.1083907

Cited by 14 publications

(7 citation statements)

References 18 publications

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“…Whenever the PU transmitter does not send in the desired channel, the PUEA transmits its fake signal to the CR sensors, deceiving them to believe that the channel is occupied by the PU. This type of attack has been studied extensively [8][9][10][11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

“…A smart PUEA was considered in the case that it is located near the PU tower and adjusts its transmitted power to be the Sharifi and Mofarreh-Bonab. Dynamic Threshold Selection Approach for Detection of PUEA same as the PU's power [9]. The malicious incumbent emulator only occupies a portion of the vacant frequency band and the channel occupancy rate of the attacker was estimated and applied in N-P criteria to improve the performance of cooperative sensing.…”

Section: Introductionmentioning

confidence: 99%

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Dynamic Threshold Selection Approach in Voting Rule for Detection of Primary User Emulation Attack

Sharifi¹,

Mofarreh-Bonab²

2018

Electrica

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Cognitive radio (CR) technology presents a mechanism for efficient spectrum usage. Spectrum sensing is an essential CR function which includes an intelligent signal processing algorithm to identify the vacant frequency bands. Cooperative spectrum sensing (CSS) has been widely adopted to improve the performance of CR networks. Unfortunately, CR networks are vulnerable to security threats. In this study, we propose an optimal threshold selection approach to address one of the most important attacks called primary user emulation attack (PUEA). In PUEA, a malicious attacker mimics some important primary signal features and deceives CR sensors to prevent them from accessing the available channels. In this study, we assume a malicious PUEA which is relatively located near the potential user (PU) transmitter and senses the spectrum and accurately detects the vacant frequency bands to transmit its fake signal. We estimate attack strength and then apply the K-out-of-N rule to obtain an optimum and dynamic threshold K, minimizing the global error probability. Here, the attack strength is defined as the ratio of the average transmission power of the PUEA to the average power of the PU. The achieved simulation results indicate that the performance of the suggested method is satisfactory in detecting the malicious PUEA compared with conventional methods.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Dynamic Threshold Selection Approach in Voting Rule for Detection of Primary User Emulation Attack

Sharifi¹,

Mofarreh-Bonab²

2018

Electrica

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“…Finally, we verify the efficiency of the proposed method via simulation results and show that the optimal regulated rate is determined based on the priority of given constraints. the frequency band when the primary users (PUs) give up the channel [1][2][3]. A general summary of radio frequency energy harvesting systems was discussed in [4], including new research, system architecture, useful techniques, and available applications.…”

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confidence: 99%

Performance improvement of multiuser cognitive relay networks with full-duplex cooperative sensing and energy harvesting

Moradi¹,

Farrokhi²

2019

Turk J Elec Eng & Comp Sci

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Energy harvesting cognitive radio has been considered as a promising technology in the fifth generation (5G) of wireless networks to solve the lack of spectrum and energy. In this paper, a novel wireless energy harvesting relay network is proposed for a multiuser cognitive radio to obtain the maximum throughput and decrease the false alarm and misdetection probabilities. The secondary user (SU) can harvest energy from solar sources while utilizing the licensed spectrum of the primary user (PU). Cooperative spectrum sensing is applied to improve the performance of the secondary network and decrease collision and sensing time. In this paper, the SU can carry out the transmitting, harvesting, and sensing using a full-duplex technique at the same time. Furthermore, we analyze the spectrum sensing of the proposed multiuser network under a data fusion scheme to discover the frequency hole. We demonstrate that the optimization problem can convert into a convex problem and achieve the optimal regulated rate of energy harvesting based on the Lagrangian function. This new network provides improved throughput, precise spectrum sensing, and high energy harvesting compared to the existing works studied so far. Finally, we verify the efficiency of the proposed method via simulation results and show that the optimal regulated rate is determined based on the priority of given constraints. the frequency band when the primary users (PUs) give up the channel [1][2][3]. A general summary of radio frequency energy harvesting systems was discussed in [4], including new research, system architecture, useful techniques, and available applications. Additionally, the applications of radio frequency energy harvesting are investigated in different networks, such as wireless sensor networks [5] and wireless charging networks [6]. An optimal cooperation protocol was proposed for an energy harvesting cognitive radio system in [7] to maximize the achievable throughput and provide the optimal decision, which consists of a two-level test. Furthermore, the average throughput was formulated under collision and energy constraints in [8] in order to achieve the optimal sensing time and threshold of the energy detector.Relay technology was investigated for cognitive radio networks in [9][10][11][12]. In [13], the effect of relaying * Correspondence: hfarrokhi@birjand.ac.ir This work is licensed under a Creative Commons Attribution 4.0 International License.

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“…An innovative technique for the detection of orthogonal frequency division multiplexing-(OFDM-) based PU signal is proposed under the constant false alarm rate (CFAR) in [15]. CSS is investigated as an efficient detection method in the presence of primary user emulation attack in [16]. Priority values are assigned to SUs based on reputation results of each SU in [17][18][19][20] to give less importance to the sensing results of SUs with a reputation below threshold.…”

Section: Introductionmentioning

confidence: 99%

Defense against Malicious Users in Cooperative Spectrum Sensing Using Genetic Algorithm

Gul

Qureshi

Elahi

et al. 2018

International Journal of Antennas and Propagation

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In cognitive radio network (CRN), secondary users (SUs) try to sense and utilize the vacant spectrum of the legitimate primary user (PU) in an efficient manner. The process of cooperation among SUs makes the sensing more authentic with minimum disturbance to the PU in achieving maximum utilization of the vacant spectrum. One problem in cooperative spectrum sensing (CSS) is the occurrence of malicious users (MUs) sending false data to the fusion center (FC). In this paper, the FC takes a global decision based on the hard binary decisions received from all SUs. Genetic algorithm (GA) using one-to-many neighbor distance along with z-score as a fitness function is used for the identification of accurate sensing information in the presence of MUs. The proposed scheme is able to avoid the effect of MUs in CSS without identification of MUs. Four types of abnormal SUs, opposite malicious user (OMU), random opposite malicious user (ROMU), always yes malicious user (AYMU), and always no malicious user (ANMU), are discussed in this paper. Simulation results show that the proposed hard fusion scheme has surpassed the existing hard fusion scheme, equal gain combination (EGC), and maximum gain combination (MGC) schemes by employing GA.

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Collaborative Spectrum Sensing under Primary User Emulation Attack in Cognitive Radio Networks

Cited by 14 publications

References 18 publications

Dynamic Threshold Selection Approach in Voting Rule for Detection of Primary User Emulation Attack

Dynamic Threshold Selection Approach in Voting Rule for Detection of Primary User Emulation Attack

Performance improvement of multiuser cognitive relay networks with full-duplex cooperative sensing and energy harvesting

Defense against Malicious Users in Cooperative Spectrum Sensing Using Genetic Algorithm

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