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Event-triggered adaptive predefined-time anti-unwinding attitude tracking control for spacecraft

Guogang Wang, Zichao Feng, Youyang Qu, Hongwei Sun

2025PLoS ONE16 citationsDOIOpen Access PDF

Abstract

This paper addresses the problem of predefined-time attitude tracking control for rigid spacecraft subject to external disturbances and unknown inertia parameters. First, a predefined-time non-singular sliding surface is designed to ensure that the closed-loop system converges within a predefined time. Second, to tackle the unwinding problem inherent in quaternion-based modeling, a potential function is introduced in the controller design to guarantee anti-unwinding performance even outside the sliding surface. The proposed controller not only suppresses chattering but also ensures both anti-unwinding behavior and predefined-time convergence. Then, an event-triggered mechanism is developed to reduce communication burden while avoiding Zeno behavior. The proposed control method can make the attitude tracking error converge to an arbitrary predefined residual set. Finally, simulation results verify the effectiveness of the proposed method.

Topics & Concepts

Control theory (sociology)SpacecraftController (irrigation)InertiaComputer scienceTracking errorTracking (education)ResidualAttitude controlControl engineeringAdaptive controlControl (management)Function (biology)Control systemRobust controlZeno's paradoxesEngineeringScheme (mathematics)AdaptabilityMechanism (biology)Adaptive Control of Nonlinear SystemsControl and Dynamics of Mobile RobotsSpacecraft Dynamics and Control
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