Handbook of Vehicle Suspension Control Systems surveys the state-of-the-art in advanced suspension control theory and applications.
Topics covered include:
An overview of intelligent vehicle suspension control systems
Intelligence-based vehicle active suspension adaptive control systems
Robust active control of an integrated suspension system
An interval type-II fuzzy controller for vehicle active suspension systems
Active control for actuator uncertain half-car suspension systems
Active suspension control with finite frequency approach
Fault-tolerant control for uncertain vehicle suspension systems via fuzzy control approach
H-infinity fuzzy control of suspension systems with actuator saturation
Design of sliding mode controllers for semi-active suspension systems with magnetorheological dampers
Joint design of controller and parameters for active vehicle suspension
System approach to vehicle suspension system control in CAE environment
An LMI approach to vibration control of vehicle engine-body systems with time delay
Frequency domain analysis and design of nonlinear vehicle suspension systems
With contributions from an international selection of researchers, Handbook of Vehicle Suspension Control Systems will find a place on the bookshelves of academic researchers and industrial practitioners in control engineering, particularly those working on applications for the automotive industry.
Author(s): Honghai Lui, Huijun Gao, Ping Li
Series: IET Control Engineering Series 92
Publisher: The Institution of Engineering and Technology
Year: 2013
Language: English
Pages: xiv+408
Tags: Транспорт;Автомобильная и тракторная техника;Справочники, каталоги, таблицы
State of the Art of Vehicle Intelligent Suspension Control Systems (Dong, X.).
Intelligence-based Vehicle Active Suspension Adaptive Control Systems (Cao, J., Li, P., Liu, H.)
Robust Active Control of an Integrated Suspension System (Du, H., Lam, J., Li, W., Zhang, N.)
An Interval Type-II Fuzzy Controller for Vehicle Active Suspension Systems (Cao, J., Li, P., Liu, H.)
Active Control for Actuator Uncertain Half-Car Suspension Systems (Li, H., Gao, H., Liu, H.)
Active Suspension Control with Finite Frequency Approach (Sun, W., Pan, H., Wang, P., Gao, H.)
Fault-Tolerant Control for Uncertain Vehicle Suspension Systems via Fuzzy Control Approach (Li, H., Gao, J., Liu, H.)
H-infinity Fuzzy Control of Suspension Systems with Actuator Saturation (Saifia, D., Chadli, M., Labiod, S.)
Design of Sliding Mode Controller for Semi-Active Suspension Systems with MR Dampers (Toyama, S., Yokoyama, M., Ikeda, F.)
Joint Design of Controller and Parameters for Active Vehicle Suspension (Zhan, W., Zhang Q., Liu, Y. Gao, H.)
System approach to vehicle suspension system control in CAE environment (Vladimir M. Popovic, Dragan D. Stamenkovic)”
Vibration Control of Vehicle Engine-Body Systems with Time Delay: an LMI Approach (Karimi, H.R.)
Frequency Domain Analysis and Design of Nonlinear Vehicle Suspension Systems (Chen, Y., Jing, X., Cheng, L.)