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In this work, we concern ourselves with the security of drone systems under jamming-based attacks. The focus is on design and synthesis structure with the anti-jamming security needs of drone systems. We explore a relatively new concept known as hardware sandboxing, to provide runtime monitoring of boundary signals and isolation through resource virtualization for non-trusted system-on-chip (SoC) components. We utilize Field Programmable Gate Array (FPGA) based development and target embedded Linux for our drone hardware/software system containing the hardware sandbox. We design and implement our working concept on the Digilent Zybo FPGA, which uses the Xilinx Zynq system. Our design is validated via simulation-based tests to mimic jamming attacks and standalone, stationary tests with commercial transmitter and receiver equipment. In both cases, we are successful in detecting and isolating unwanted behavior.
Mead et al. (Thu,) studied this question.
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