Article ID Journal Published Year Pages File Type
5003869 ISA Transactions 2017 11 Pages PDF
Abstract

•Unsteady aerodynamic models are considered in the post-stall attitude control.•Nonlinear finite-time observers are developed to estimate the unsteady disturbances.•A finite-time auxiliary system is designed to handle the input saturation problem.•A finite-time controller is designed for the uncertain nonlinear system.

This article presents a robust finite-time maneuver control scheme for the longitudinal attitude dynamic of the aircraft with unsteady aerodynamic disturbances and input saturation. To efficiently eliminate the influence of unsteady aerodynamic disturbances, nonlinear finite-time observers are developed. Despite the existence of the nonlinearity and the coupling between aircraft states and unsteady aerodynamic disturbances, the proposed observers can still precisely estimate the unmeasurable unsteady aerodynamic disturbances in finite time. To attenuate the effect caused by input saturation, a finite-time auxiliary system is constructed. With the error between the desired control input and saturation input as the input of the auxiliary system, the additional signals are generated to compensate for the effect of input saturation. Combined with the finite-time observers and the finite-time auxiliary system, a robust finite-time backstepping attitude control design is developed. The finite-time convergence of all closed-loop system signals is rigorously proved via Lyapunov analysis method under the developed robust attitude control schemes. Finally, simulation results are presented to illustrate the effectiveness of the proposed attitude control approaches.

Related Topics
Physical Sciences and Engineering Engineering Control and Systems Engineering
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