Sampled-Data L2-L∞Filter-Based Fuzzy Control for Active Suspensions

Yong Jun Lee; Dong Sung Pae; Hyun Duck Choi; Myo Taeg Lim

doi:10.1109/ACCESS.2023.3250643

Sampled-Data L₂-L_∞Filter-Based Fuzzy Control for Active Suspensions

Yong Jun Lee, Dong Sung Pae, Hyun Duck Choi, Myo Taeg Lim

Media IT Engineering Program

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5 Scopus citations

Abstract

In this paper, we present a new sampled-data L2-L∞ filter-based output feedback fuzzy control design technique for active suspension systems subjected to hard constraints. The sampled-data problem of continuous-time suspension systems is solved using an input delay approach. In this manner, the conservatism that occurs when designing filters and controllers is effectively alleviated by using Wirtinger's inequality with the extended reciprocally convex combination bounding technique. We designed an L2-L∞ filter-based output-feedback fuzzy controller by using the Lyapunov-Krasovskii theorem to ensure that the closed-loop system is robust against external disturbances and sampled noise. The results of simulations involving different types of road disturbances and noise demonstrate the effectiveness of the proposed approach.

Original language	English
Pages (from-to)	21068-21080
Number of pages	13
Journal	IEEE Access
Volume	11
DOIs	https://doi.org/10.1109/ACCESS.2023.3250643
State	Published - 2023

Keywords

Active suspension system
input delay approach
L2-Lâfilter
sampled-data system
Takagi-Sugeno fuzzy system

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10.1109/ACCESS.2023.3250643

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title = "Sampled-Data L2-L∞Filter-Based Fuzzy Control for Active Suspensions",

abstract = "In this paper, we present a new sampled-data L2-L∞ filter-based output feedback fuzzy control design technique for active suspension systems subjected to hard constraints. The sampled-data problem of continuous-time suspension systems is solved using an input delay approach. In this manner, the conservatism that occurs when designing filters and controllers is effectively alleviated by using Wirtinger's inequality with the extended reciprocally convex combination bounding technique. We designed an L2-L∞ filter-based output-feedback fuzzy controller by using the Lyapunov-Krasovskii theorem to ensure that the closed-loop system is robust against external disturbances and sampled noise. The results of simulations involving different types of road disturbances and noise demonstrate the effectiveness of the proposed approach.",

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AU - Lee, Yong Jun

AU - Pae, Dong Sung

AU - Choi, Hyun Duck

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AB - In this paper, we present a new sampled-data L2-L∞ filter-based output feedback fuzzy control design technique for active suspension systems subjected to hard constraints. The sampled-data problem of continuous-time suspension systems is solved using an input delay approach. In this manner, the conservatism that occurs when designing filters and controllers is effectively alleviated by using Wirtinger's inequality with the extended reciprocally convex combination bounding technique. We designed an L2-L∞ filter-based output-feedback fuzzy controller by using the Lyapunov-Krasovskii theorem to ensure that the closed-loop system is robust against external disturbances and sampled noise. The results of simulations involving different types of road disturbances and noise demonstrate the effectiveness of the proposed approach.

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Sampled-Data L₂-L_∞Filter-Based Fuzzy Control for Active Suspensions

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