Litcius/Paper detail

Safety Control Design With Flight Envelope Protection and Reference Command Generation

Xiang Yu, Xiaobin Zhou, Youmin Zhang, Lei Guo, Sijun Ye, Xiaoyan Peng

2022IEEE Transactions on Aerospace and Electronic Systems17 citationsDOI

Abstract

When confronting different levels of aircraft actuator faults, a safety control system without considering the postfault performance degradation raises the probability of flight incidents. This article presents a safety control scheme against actuator malfunctions, on the basis of flight envelope protection and reference command regeneration. First, with respect to a high-fidelity aircraft model, a flight envelope estimation method is developed to respect to the state limits of postfault aircraft (i.e., trim and maneuvering envelopes). Simultaneously, in an attempt to alleviate the burden of the damaged actuators, a degraded reference command is online regenerated, thus, maintaining the closed-loop aircraft within the safe flight envelope. Second, a sliding mode control scheme with the integration of a prescribed performance function is proposed to track the degraded reference command. When comparing to the existing control schemes, the gap between safety control and reference command regeneration is bridged to ameliorate practical flight safety. Finally, comparative simulation studies, based on the high-fidelity Boeing 747 longitudinal model, are conducted to examine the effectiveness of the proposed scheme.

Topics & Concepts

Flight envelopeActuatorEngineeringEnvelope (radar)TrimFidelityControl systemFly-by-wireControl theory (sociology)Flight simulatorControl engineeringComputer scienceSimulationReliability engineeringAeronauticsControl (management)Aerospace engineeringStructural engineeringTelecommunicationsArtificial intelligenceAerodynamicsRadarElectrical engineeringAerospace and Aviation TechnologyFault Detection and Control SystemsControl Systems and Identification