Abstract
Unmanned aerial vehicles (UAVs) can be integrated into wireless sensor networks (WSNs) for smart city applications in several ways. Among them, a UAV can be employed as a relay in a "store-carry and forward" fashion by uploading data from ground sensors and metering devices and, then, downloading it to a central unit. However, both the uploading and downloading phases can be prone to potential threats and attacks. As a legacy from traditional wireless networks, the jamming attack is still one of the major and serious threats to UAV-aided communications, especially when also the jammer is mobile, e.g., it is mounted on a UAV or inside a terrestrial vehicle. In this paper, we investigate anti-jamming communications for UAV-aided WSNs operating over doubly-selective channels in the downloading phase. In such a scenario, the signals transmitted by the UAV and the malicious mobile jammer undergo both time dispersion due to multipath propagation effects and frequency dispersion caused by their mobility. To suppress high-power jamming signals, we propose a blind physical-layer technique that jointly detects the UAV and jammer symbols through serial disturbance cancellation based on symbol-level post-sorting of the detector output. Amplitudes, phases, time delays, and Doppler shifts - required to implement the proposed detection strategy - are blindly estimated from data through the use of algorithms that exploit the almost-cyclostationarity properties of the received signal and the detailed structure of multicarrier modulation format. Simulation results corroborate the anti-jamming capabilities of the proposed method, for different mobility scenarios of the jammer.
Highlights
W IRELESS sensor networks (WSNs) are expected to play a fundamental role in realizing the vision of future smart cities [1]–[4], which represent one of the major application of Internet-of-Things (IoT)
A3): The signals transmitted by the Unmanned aerial vehicles (UAVs) and the mobile jammer propagate through doubly-selective channels [45], with maximum delay spread ∆TX and Doppler spread DTX [46], for TX ∈ {U, J}
We have investigated anti-jamming communications in UAV-aided WSNs operating over doubly-selective channels for smart city applications
Summary
W IRELESS sensor networks (WSNs) are expected to play a fundamental role in realizing the vision of future smart cities [1]–[4], which represent one of the major application of Internet-of-Things (IoT). It is common belief that, due to their limited capacity, these technologies could be unable to support the high data-rates required by future smart city applications In this respect, the employment of unmanned aerial vehicles (UAVs) as aerial “store-carry and forward” relay nodes for distributed ground sensors and meters is expected to bring significant benefits to future WSNs, such as higher data transmissions, larger service coverage, and reduced energy consumption [8], [9]. While the enabling technologies for UAVaided WSNs gradually mature, all kinds of potential threats or attacks will rise and endanger smart city applications [10] These adversarial behaviors are due to malicious users, such as criminals, terrorists, and business spies, and are driven by various motivations, such as committing crimes, jeopardizing public safety, invading secret databases, and so on
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