Toward Event-Triggered Extended State Observer

Yuan Huang; Junzheng Wang; Dawei Shi; Ling Shi

doi:10.1109/TAC.2017.2754340

Toward Event-Triggered Extended State Observer

Yuan Huang, Junzheng Wang, Dawei Shi^*, Ling Shi

^*Corresponding author for this work

School of Automation

Research output: Contribution to journal › Article › peer-review

111 Citations (Scopus)

Abstract

In this note, we consider event-Triggered extended state observer (ET-ESO) design for a continuous-Time nonlinear system with uncertainty and disturbance. Since the convergence of the ET-ESO depends on the design of the triggering condition directly, the goal is to design a realizable triggering condition not relying on the state of the plant. For the extended state observer considered, an event-Triggered transmission strategy is proposed such that the observation error is uniformly bounded. Furthermore, under mild conditions, the observation error can be guaranteed to be bounded at any time. It is shown that there is no Zeno behavior for the event-based transmission strategy. The obtained theoretical results are validated through numerical simulations.

Original language	English
Pages (from-to)	1842-1849
Number of pages	8
Journal	IEEE Transactions on Automatic Control
Volume	63
Issue number	6
DOIs	https://doi.org/10.1109/TAC.2017.2754340
Publication status	Published - Jun 2018

Keywords

Event-Triggered transmission
extended state observer (ESO)
state estimation

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10.1109/TAC.2017.2754340

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title = "Toward Event-Triggered Extended State Observer",

abstract = "In this note, we consider event-Triggered extended state observer (ET-ESO) design for a continuous-Time nonlinear system with uncertainty and disturbance. Since the convergence of the ET-ESO depends on the design of the triggering condition directly, the goal is to design a realizable triggering condition not relying on the state of the plant. For the extended state observer considered, an event-Triggered transmission strategy is proposed such that the observation error is uniformly bounded. Furthermore, under mild conditions, the observation error can be guaranteed to be bounded at any time. It is shown that there is no Zeno behavior for the event-based transmission strategy. The obtained theoretical results are validated through numerical simulations.",

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AU - Shi, Dawei

AU - Shi, Ling

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N2 - In this note, we consider event-Triggered extended state observer (ET-ESO) design for a continuous-Time nonlinear system with uncertainty and disturbance. Since the convergence of the ET-ESO depends on the design of the triggering condition directly, the goal is to design a realizable triggering condition not relying on the state of the plant. For the extended state observer considered, an event-Triggered transmission strategy is proposed such that the observation error is uniformly bounded. Furthermore, under mild conditions, the observation error can be guaranteed to be bounded at any time. It is shown that there is no Zeno behavior for the event-based transmission strategy. The obtained theoretical results are validated through numerical simulations.

AB - In this note, we consider event-Triggered extended state observer (ET-ESO) design for a continuous-Time nonlinear system with uncertainty and disturbance. Since the convergence of the ET-ESO depends on the design of the triggering condition directly, the goal is to design a realizable triggering condition not relying on the state of the plant. For the extended state observer considered, an event-Triggered transmission strategy is proposed such that the observation error is uniformly bounded. Furthermore, under mild conditions, the observation error can be guaranteed to be bounded at any time. It is shown that there is no Zeno behavior for the event-based transmission strategy. The obtained theoretical results are validated through numerical simulations.

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Toward Event-Triggered Extended State Observer

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Keywords

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