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Modelling and Control Design of Vibration Reduction Systems

Methods and Procedures of Selecting Vibro-isolation Properties

  • Tomasz Krzyzynski
  • Igor Maciejewski
  • Lutz Meyer
  • Henning Meyer

Table of contents

  1. Front Matter
    Pages i-x
  2. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 1-8
  3. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 9-27
  4. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 29-63
  5. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 65-83
  6. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 85-104
  7. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 105-130
  8. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 131-154
  9. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 155-180
  10. Tomasz Krzyzynski, Igor Maciejewski, Lutz Meyer, Henning Meyer
    Pages 181-184

About this book

Introduction

This book describes the modelling and optimisation of vibration reduction systems in an integrated fashion using nonlinear equations of motion. It proposes an effective optimisation method for determining the basic characteristics of the non-linear visco-elastic elements used in passive vibration reduction systems. In the case of semi-active and active vibration isolators, a design process of the advanced control systems is proposed that makes possible to optimise the controller settings relatively to the selected vibro-isolation criteria. The approach developed here is subsequently tested by means of experimental investigations conducted on various sample vibration reduction systems: passive, semi-active and active. 

 The book presents a biomechanical modelling approach that allows users to select the properties of vibro-isolation systems for different types of oscillation and different optimisation criteria – and can significantly reduce the harmful vibrations that can affect the human body in the process. Further, the book equips readers to evaluate the viscoelastic characteristics of passive systems and design control systems for semi-active and active systems.      

 Modelling and Control Design of Vibration Reduction Systems offers a valuable guide for researchers and practitioners alike. It also provides students and academics with systematic information on the procedures to be followed in the design process for semi-active or active vibration reduction systems.

Keywords

Vibration Reduction Mathematical Modelling Multi-criteria Optimisation Control Design Seat Suspension Vibro-isolation Properties Whole-body Vibration Control

Authors and affiliations

  • Tomasz Krzyzynski
    • 1
  • Igor Maciejewski
    • 2
  • Lutz Meyer
    • 3
  • Henning Meyer
    • 4
  1. 1.Faculty of Technology and EducationKoszalin University of TechnologyKoszalinPoland
  2. 2.Faculty of Technology and EducationKoszalin University of TechnologyKoszalinPoland
  3. 3.TestlaboratoryIsringhausen GMBH and CO. KGLemgoGermany
  4. 4.TestlaboratoryIsringhausen GMBH and CO. KGLemgoGermany

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-030-03047-6
  • Copyright Information Springer Nature Switzerland AG 2019
  • Publisher Name Springer, Cham
  • eBook Packages Engineering
  • Print ISBN 978-3-030-03046-9
  • Online ISBN 978-3-030-03047-6
  • Buy this book on publisher's site
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