Advanced Seat Suspension Control System Design for Heavy Duty Vehicles

Advanced Seat Suspension Control System Design for Heavy Duty Vehicles provides systematic knowledge on the advanced seat suspension design and control for heavy duty vehicles. Nowadays, people are paying more and more attention to ride comfort and the health of drivers and passengers. This is especially for heavy duty vehicles, where drivers/operators are exposed to much severer vibrations than those in passenger vehicles due to a harsh working environment, operating conditions, and long hour driving, etc. Seat suspension systems can effectively help to suppress the high magnitude vibration transmitted to drivers with relatively simple structure and low cost, and hence are widely adopted in heavy duty vehicles. This book helps researchers and engineers to have a comprehensive understanding of the seat suspension system and to conduct in-depth studies on seat suspension design and control; this book covers a wide range of perspectives about seat suspension design and control methods. Describes the variable damping, variable stiffness, and, especially, variable inertance seat suspensionsProvides the advanced and comprehensive knowledge about semi-active vibration controlIntroduces the multiple-DOF seat suspensionIncludes the innovative hybrid seat suspension and nonlinear seat suspensionAll the introduced designs have been prototyped and experimentally validatedProvides Matlab Simulation programming codes INDICE: 1. Introduction 2. Controllable electromagnetic damper-based seat suspension 3. Controllable magnetorheological fluid damper-based seat suspension 4. Self-powered seat suspension 5. Variable equivalent stiffness seat suspension 6. Variable equivalent inertance seat suspension 7. Single-DOF active seat suspension 8. Multiple-DOF active seat suspension 9. Active seat suspension control algorithms 10. Hybrid active and semi-active seat suspension 11. Nonlinear stiffness seat suspension Appendix: Relevant materials for seat suspension control system design A. Vibration profile generation for seat suspension B. Simulation of seat suspension control C. Experimental setup

• ISBN: 978-0-12-819601-4
• Editorial: Academic Press
• Encuadernacion: Rústica
• Páginas: 400
• Fecha Publicación: 01/07/2020
• Nº Volúmenes: 1
• Idioma: Inglés