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Table of Contents
Chapter 1: Introduction
Part I Variable Geometry Suspension for Wheel Tilting Control
Chapter 2: LPV-based modeling of variable geometry suspension
Chapter 3: LPV-based control of variable geometry suspension
Chapter 4: SOS-based modeling, analysis and control
Part II Independent Steering with Variable Geometry Suspension
Chapter 5: Modeling variable geometry suspension system
Chapter 6: Hierarchical control design method for vehicle suspensions
Chapter 7: Coordinated control strategy for variable geometry suspension
Chapter 8: Control implementation on suspension testbed
Part III Guaranteed Suspension Control with Learning Methods
Chapter 9: Data-driven framework for variable geometry suspension control
Chapter 10: Guaranteeing performance requirements for suspensions via robust LPV framework
Chapter 11: Control design for Variable Geometry Suspension with learning methods
Index.
Part I Variable Geometry Suspension for Wheel Tilting Control
Chapter 2: LPV-based modeling of variable geometry suspension
Chapter 3: LPV-based control of variable geometry suspension
Chapter 4: SOS-based modeling, analysis and control
Part II Independent Steering with Variable Geometry Suspension
Chapter 5: Modeling variable geometry suspension system
Chapter 6: Hierarchical control design method for vehicle suspensions
Chapter 7: Coordinated control strategy for variable geometry suspension
Chapter 8: Control implementation on suspension testbed
Part III Guaranteed Suspension Control with Learning Methods
Chapter 9: Data-driven framework for variable geometry suspension control
Chapter 10: Guaranteeing performance requirements for suspensions via robust LPV framework
Chapter 11: Control design for Variable Geometry Suspension with learning methods
Index.