Reliability analysis of an inertial navigation system and its active fault detection and isolation unit
Inertial navigation systems are one of the main components in advanced equipment navigation systems such as drones and satellites. Therefore, their reliability is very important for system mission success. To increase reliability while developing advanced sensors, the issue of sensor placement and arrangement, the use of redundancy, and error detection should also be considered. In this paper, different sensor configurations and reliability analysis of fault detection and isolation of an inertial navigation system are evaluated. First, the design of the navigation system is analyzed in terms of the location of the sensors, then the detection and fault detection unit based on the excess sensors. The reliability of the system is calculated based on exponential distribution and reliability block diagram, then the reliability fault detection unit is calculated using the Monte Carlo method. the sensitivity analysis has been performed and results show that the reliability depends on the noise value. Because the reliability of this system is a function of the fault detection and its threshold values, the optimal values for fault detection threshold are obtained using two iterative methods and estimating the minimum nonlinear squares.
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