Vibration Control of Vehicle Suspension Systems 1st Edition

Vibration Control of Vehicle Suspension Systems (1st Edition) by Haiping Du, Panshuo Li, and Donghong Ning is an authoritative guide for engineers and researchers tackling ride comfort, handling, and NVH challenges in modern vehicles. If unwanted vibration undermines vehicle performance or passenger comfort, this book delivers the theory and practical strategies you need to solve real-world problems.

This book presents clear explanations of suspension modeling, dynamic analysis, and contemporary control techniques — from passive and semi-active approaches to advanced active control systems. Packed with illustrative examples, mathematical formulations, and comparative case studies, it bridges the gap between academic research and industry application. Readers will find chapters on sensor and actuator integration, controller design, and performance evaluation under diverse road and loading conditions.

Engineers in automotive, rail, and commercial vehicle sectors will appreciate the book’s hands-on focus: optimized control strategies that improve ride quality, stability, and safety while meeting regulatory and manufacturing constraints. Graduate students and R&D teams will benefit from the systematic treatment of modeling assumptions, simulation methods, and implementation considerations relevant to global markets in Asia, Europe, and North America.

Whether you’re designing next-generation active suspensions or refining semi-active solutions for mass production, this edition equips you with the methods to reduce vibration, enhance occupant comfort, and elevate vehicle dynamics. Practical, technically rigorous, and industry-oriented, it’s an essential reference for anyone serious about vibration control in vehicle suspension systems.

Order your copy today to bring proven control strategies and engineering insight to your next suspension project.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.