Smooth adaptive fixed time convergent controller design for BTT missiles with uncertainties

Y. Yun; S. Tang; J. Guo; Y. Yun

doi:10.1017/aer.2019.151

Smooth adaptive fixed time convergent controller design for BTT missiles with uncertainties

Y. Yun, S. Tang, J. Guo, Y. Yun

School of Aerospace Engineering

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

4 Citations (Scopus)

Abstract

A smooth adaptive sliding-mode-based controller is developed for BTT missiles considering nonlinear couplings and aerodynamic uncertainties, wherein fixed-time stability theory is synthesised into sliding-mode control algorithm, such that control variables follow the desired command within fixed-bounded convergence time. Unlike other terminal sliding-mode-related works, the bound of settling time is independent of initial states, indicating that performance metrics, for instance the convergence rate, can be evaluated in advance. The control input is designed to be intrinsically smooth, based on adaptive estimations, and therefore the problem of singularity and chattering is effectively eliminated. Simulation results demonstrate the satisfactory performance and validate the effectiveness of the designed approach.

Original language	English
Pages (from-to)	323-345
Number of pages	23
Journal	Aeronautical Journal
Volume	124
Issue number	1273
DOIs	https://doi.org/10.1017/aer.2019.151
Publication status	Published - 1 Mar 2020

Keywords

BTT controller
fixed time convergence
robust control
smooth control input

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10.1017/aer.2019.151

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title = "Smooth adaptive fixed time convergent controller design for BTT missiles with uncertainties",

abstract = "A smooth adaptive sliding-mode-based controller is developed for BTT missiles considering nonlinear couplings and aerodynamic uncertainties, wherein fixed-time stability theory is synthesised into sliding-mode control algorithm, such that control variables follow the desired command within fixed-bounded convergence time. Unlike other terminal sliding-mode-related works, the bound of settling time is independent of initial states, indicating that performance metrics, for instance the convergence rate, can be evaluated in advance. The control input is designed to be intrinsically smooth, based on adaptive estimations, and therefore the problem of singularity and chattering is effectively eliminated. Simulation results demonstrate the satisfactory performance and validate the effectiveness of the designed approach.",

keywords = "BTT controller, fixed time convergence, robust control, smooth control input",

author = "Y. Yun and S. Tang and J. Guo and Y. Yun",

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N1 - Publisher Copyright: © Royal Aeronautical Society 2019.

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N2 - A smooth adaptive sliding-mode-based controller is developed for BTT missiles considering nonlinear couplings and aerodynamic uncertainties, wherein fixed-time stability theory is synthesised into sliding-mode control algorithm, such that control variables follow the desired command within fixed-bounded convergence time. Unlike other terminal sliding-mode-related works, the bound of settling time is independent of initial states, indicating that performance metrics, for instance the convergence rate, can be evaluated in advance. The control input is designed to be intrinsically smooth, based on adaptive estimations, and therefore the problem of singularity and chattering is effectively eliminated. Simulation results demonstrate the satisfactory performance and validate the effectiveness of the designed approach.

AB - A smooth adaptive sliding-mode-based controller is developed for BTT missiles considering nonlinear couplings and aerodynamic uncertainties, wherein fixed-time stability theory is synthesised into sliding-mode control algorithm, such that control variables follow the desired command within fixed-bounded convergence time. Unlike other terminal sliding-mode-related works, the bound of settling time is independent of initial states, indicating that performance metrics, for instance the convergence rate, can be evaluated in advance. The control input is designed to be intrinsically smooth, based on adaptive estimations, and therefore the problem of singularity and chattering is effectively eliminated. Simulation results demonstrate the satisfactory performance and validate the effectiveness of the designed approach.

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Smooth adaptive fixed time convergent controller design for BTT missiles with uncertainties

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Keywords

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