Reliability Evaluation Method of Airborne Electromechanical with 5G power
Electromechanical 5G enabling is the development trend of the future electromechanical control network.The reliability of the electromechanical control network is critical to the safety of aircraft.The existing 5G network connectivity reliability analysis is mainly based on network nodes and network models,lacking the analysis of connectivity changes caused by 5G interference,different frequency bands and other propagation signal characteristics.The network structure topology of the airborne 5G wireless network is designed,and the lower limit of multi-node con-nectivity of the 5G wireless network is analyzed.The influence of transmission power,distance attenuation power,in-terference power,and signal-to-noise ratio on the network connection probability of the nodes in the airborne electro-mechanical group network is analyzed.The operational connectivity reliability of the 5G wireless control network is simulated based on Monte Carlo.The network topology of 5G wireless electromechanical control is analyzed under dif-ferent power.The connectivity reliability of the electromechanical actuator under different powers in the network topol-ogy of 5G wireless electromechanical control is simulated and analyzed,and the connectivity of the electromechanical 5G control wireless topology connectivity up to 0.998,which lays the theoretical foundation for the new generation of electromechanical wireless power assignment control design.
Connectivity reliabilityElectromechanical controlAirborne wireless networkMonte Carlo simulation
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NSTL
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