Recent advancements in Anti-Drone systems have exhibited growing heterogeneity in operational requirements, peripheral equipment configurations, and deployment scenarios. Addressing emerging practical demands, this paper proposes the integration of a 60 GHz millimeter-wave communication system with Anti-Drone capabilities, thereby enhancing inter-component connectivity and tactical coordination efficacy in complex electromagnetic environments. Firstly, through the calculation of jamming power requirements, a highly integrated jamming transmitter chain is proposed. This chain employs a single frequency source to generate multi-channel jamming signals while enabling rapid frequency reconfiguration for dynamically countering drones operating across diverse frequency bands. Secondly, by analyzing communication transceiver specifications for collaborative Anti-Drone operations, a superheterodyne-based 60 GHz transceiver architecture with enhanced interference robustness is developed. The functional partitioning of constituent modules is elaborated, followed by parametric simulation validating the chain's anti-jamming performance.

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A Design of Integrated Communication Reconnaissance and Anti-Drone System with Its Optimization of Key RF Modules

  • Hetai Zhang,
  • Xiaosi Zhu,
  • Danyang Wang

摘要

Recent advancements in Anti-Drone systems have exhibited growing heterogeneity in operational requirements, peripheral equipment configurations, and deployment scenarios. Addressing emerging practical demands, this paper proposes the integration of a 60 GHz millimeter-wave communication system with Anti-Drone capabilities, thereby enhancing inter-component connectivity and tactical coordination efficacy in complex electromagnetic environments. Firstly, through the calculation of jamming power requirements, a highly integrated jamming transmitter chain is proposed. This chain employs a single frequency source to generate multi-channel jamming signals while enabling rapid frequency reconfiguration for dynamically countering drones operating across diverse frequency bands. Secondly, by analyzing communication transceiver specifications for collaborative Anti-Drone operations, a superheterodyne-based 60 GHz transceiver architecture with enhanced interference robustness is developed. The functional partitioning of constituent modules is elaborated, followed by parametric simulation validating the chain's anti-jamming performance.