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Self-triggered resilient stabilization of linear systems with quantized outputs

Wenjie Liu, Masashi Wakaiki, Jian Sun, Gang Wang, Jie Chen

2023Automatica17 citationsDOIOpen Access PDF

Abstract

This paper studies the problem of stabilizing a self-triggered control system with quantized output. Employing a standard observer-based state feedback control law, a self-triggering mechanism that dictates the next sampling time based on quantized output is co-developed with an output encoding scheme. If, in addition, the transmission protocols at the controller-to-actuator (C–A) and sensor-to-controller (S–C) channels can be adapted, the self-triggered control architecture can be considerably simplified, leveraging a delicate observer-based deadbeat controller to eliminate the need for running the controller in parallel at the encoder side. To account for denial-of-service (DoS) in the S–C channel, the proposed output encoding and self-triggered control schemes are further made resilient. It is shown that a linear time-invariant system can be exponentially stabilized if some conditions on the average DoS duration time are met. There is a trade-off between the maximum inter-sampling time and the resilience against DoS attacks. Finally, a numerical example is presented to demonstrate the practical merits of the proposed self-triggered control schemes and associated theory.

Topics & Concepts

Control theory (sociology)Observer (physics)Controller (irrigation)Computer scienceResilience (materials science)LTI system theoryActuatorEncoderOutput feedbackState observerLinear systemControl (management)Control engineeringMathematicsEngineeringNonlinear systemBiologyAgronomyArtificial intelligenceMathematical analysisThermodynamicsOperating systemPhysicsQuantum mechanicsSmart Grid Security and ResilienceStability and Control of Uncertain SystemsFault Detection and Control Systems
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