MPC-based FTC with FDD against actuator faults of UAVs

Bin Yu, Youmin Zhang, Y. Qu
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引用次数: 16

Abstract

The increasing development of unmanned aerial vehicles (UAVs) and the requirements of high autonomy and safety levels require that the controller of UAVs should possess fault-tolerant/reconfigurable function to accommodate unpredicted situations such as actuator faults, sensor faults, or aircraft damage. This paper addresses the partial loss of control effectiveness (LOE) of actuators in a quadrotor UAV using model predictive control (MPC) with terminal constraints, which allows to track a reference command even if in the presence of actuator faults. The proposed fault-tolerant control system (FTCS) adopts MPC technique to design fault-tolerant controller and state-augmented Kalman filter (SAKF) to achieve fault detection and diagnosis (FDD) function. Simulation results based on a quadrotor UAV demonstrate that the proposed fault-tolerant controller has a good performance in accommodating actuator faults.
针对无人机执行器故障的FDD基于mpc的FTC
无人机的日益发展以及对高自主性和安全水平的要求,要求无人机控制器具有容错/可重构功能,以适应执行器故障、传感器故障或飞机损坏等不可预测的情况。本文采用带有终端约束的模型预测控制(MPC)解决了四旋翼无人机中执行器的部分控制有效性损失(LOE)问题,该控制允许在执行器存在故障的情况下跟踪参考命令。提出的容错控制系统(FTCS)采用MPC技术设计容错控制器和状态增强卡尔曼滤波器(SAKF),实现故障检测与诊断(FDD)功能。基于四旋翼无人机的仿真结果表明,所提出的容错控制器具有良好的容错性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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