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; an LMI approach to vibration control of vehicle engine-body
systems with time delay; and 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.