A Fuzzy Logic Controller for Vehicle-Active Suspension Systems

Yun Quan Sun; Li Feng Zhao; Wei Xiang

doi:10.4028/www.scientific.net/AMR.805-806.1645

Paper Titles

Problems and Countermeasures in the Popularization of China's New Energy Vehicles Market
p.1627

Pure Electric Vehicle Driving State Data Collection Terminal Design and Telematics Applications
p.1632

Analysis on the Development of New Energy Vehicles in China
p.1636

Design and its Application of Hybrid Electric Vehicle Driving Status Data Acquisition Terminal
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A Fuzzy Logic Controller for Vehicle-Active Suspension Systems
p.1645

Three-Stage Precise Converter in EV Charging-Discharging-Storage Integration Station
p.1650

Online State-of-Charge Estimation of Li-Ion Battery Based on the Second-Order RC Model
p.1659

Study on Effect of Electric Vehicle Industry to Energy and Environment
p.1664

Enhanced Electrochemical Performance of [Ni₄Al(OH)₁₀]OH by Mechanically Blending Nanometric Zinc Oxide
p.1668

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 805-806A Fuzzy Logic Controller for Vehicle-Active...

A Fuzzy Logic Controller for Vehicle-Active Suspension Systems

Abstract:

This paper propose the study of automobile active suspension system for the purpose of improving ride comfort to passengers and simultaneously improving the stability of vehicle by reducing vibration effects on suspension system. A fuzzy-logic-based control for vehicle-active suspension is suggested. The vehicle vibration and disturbance are reduced considerably with a fuzzy logic controller, to enhance comfort in riding faced with uncertain road terrains. A quarter-car active suspension system is controlled to reduce the vertical acceleration, suspension stroke and tire deflection. Simulation studies clearly demonstrate the effectiveness of the fuzzy logic controller for active suspension systems. The performance of the fuzzy logic controller under variations in the suspension component characteristics are also studied and are found to give reasonably good responses.

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Periodical:

Advanced Materials Research (Volumes 805-806)

Pages:

1645-1649

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.805-806.1645

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Online since:

September 2013

Authors:

Yun Quan Sun*, Li Feng Zhao, Wei Xiang

Keywords:

Active Suspension, Fuzzy Logical Control, Vehicle

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* - Corresponding Author

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