Ebook: Nonlinear Vibration with Control: For Flexible and Adaptive Structures
Author: David Wagg Simon Neild (eds.)
- Tags: Vibration Dynamical Systems Control, Mechanical Engineering, Control Robotics Mechatronics, Building Construction HVAC Refrigeration, Systems Theory Control
- Series: Solid Mechanics and Its Applications 170
- Year: 2010
- Publisher: Springer Netherlands
- Language: English
- pdf
This book covers the basic principles of nonlinear vibrations which occur in flexible and/or adaptive structures, with an emphasis on engineering analysis and relevant control techniques.
Understanding nonlinear vibrations is becoming increasingly important in a range of engineering applications. This is particularly true in the design of flexible structures such as aircraft, satellites, bridges, and sports stadia. There is an increasing trend towards lighter structures, with increased slenderness, often made of new composite materials and requiring some form of deployment and/or active vibration control. There are also applications in the areas of robotics, mechatronics, micro electrical mechanical systems, non-destructive testing and related disciplines such as structural health monitoring.
Two broader themes cut across these application areas: (i) vibration
suppression -- or active damping -- and, (ii) adaptive structures and
machines. The aim of this book is to provide a comprehensive discussion
of nonlinear multi-modal structural vibration problems, and then to show
how vibration suppression can be applied to such systems by considering a
sample set of relevant control techniques. The rationale is to produce a
volume which is accessible to practitioners in the application areas, as
well as students and researchers working on related topics. In particular, the aim is to introduce the key concepts of nonlinear vibration to readers
who have an understanding of linear vibration and/or linear control, but
no specialist knowledge in nonlinear dynamics or nonlinear control.
This book covers the basic principles of nonlinear vibrations which occur in flexible and/or adaptive structures, with an emphasis on engineering analysis and relevant control techniques.
Understanding nonlinear vibrations is becoming increasingly important in a range of engineering applications. This is particularly true in the design of flexible structures such as aircraft, satellites, bridges, and sports stadia. There is an increasing trend towards lighter structures, with increased slenderness, often made of new composite materials and requiring some form of deployment and/or active vibration control. There are also applications in the areas of robotics, mechatronics, micro electrical mechanical systems, non-destructive testing and related disciplines such as structural health monitoring.
Two broader themes cut across these application areas: (i) vibration
suppression -- or active damping -- and, (ii) adaptive structures and
machines. The aim of this book is to provide a comprehensive discussion
of nonlinear multi-modal structural vibration problems, and then to show
how vibration suppression can be applied to such systems by considering a
sample set of relevant control techniques. The rationale is to produce a
volume which is accessible to practitioners in the application areas, as
well as students and researchers working on related topics. In particular, the aim is to introduce the key concepts of nonlinear vibration to readers
who have an understanding of linear vibration and/or linear control, but
no specialist knowledge in nonlinear dynamics or nonlinear control.
This book covers the basic principles of nonlinear vibrations which occur in flexible and/or adaptive structures, with an emphasis on engineering analysis and relevant control techniques.
Understanding nonlinear vibrations is becoming increasingly important in a range of engineering applications. This is particularly true in the design of flexible structures such as aircraft, satellites, bridges, and sports stadia. There is an increasing trend towards lighter structures, with increased slenderness, often made of new composite materials and requiring some form of deployment and/or active vibration control. There are also applications in the areas of robotics, mechatronics, micro electrical mechanical systems, non-destructive testing and related disciplines such as structural health monitoring.
Two broader themes cut across these application areas: (i) vibration
suppression -- or active damping -- and, (ii) adaptive structures and
machines. The aim of this book is to provide a comprehensive discussion
of nonlinear multi-modal structural vibration problems, and then to show
how vibration suppression can be applied to such systems by considering a
sample set of relevant control techniques. The rationale is to produce a
volume which is accessible to practitioners in the application areas, as
well as students and researchers working on related topics. In particular, the aim is to introduce the key concepts of nonlinear vibration to readers
who have an understanding of linear vibration and/or linear control, but
no specialist knowledge in nonlinear dynamics or nonlinear control.
Content:
Front Matter....Pages i-x
Introduction to Nonlinear Vibration and Control....Pages 1-34
Nonlinear Vibration Phenomena....Pages 35-80
Control of Nonlinear Vibrations....Pages 81-118
Approximate Methods for Analysing Nonlinear Vibrations....Pages 119-171
Modal Analysis for Nonlinear Vibration....Pages 173-213
Beams....Pages 215-256
Cables....Pages 257-301
Plates and Shells....Pages 303-347
Back Matter....Pages 349-354
This book covers the basic principles of nonlinear vibrations which occur in flexible and/or adaptive structures, with an emphasis on engineering analysis and relevant control techniques.
Understanding nonlinear vibrations is becoming increasingly important in a range of engineering applications. This is particularly true in the design of flexible structures such as aircraft, satellites, bridges, and sports stadia. There is an increasing trend towards lighter structures, with increased slenderness, often made of new composite materials and requiring some form of deployment and/or active vibration control. There are also applications in the areas of robotics, mechatronics, micro electrical mechanical systems, non-destructive testing and related disciplines such as structural health monitoring.
Two broader themes cut across these application areas: (i) vibration
suppression -- or active damping -- and, (ii) adaptive structures and
machines. The aim of this book is to provide a comprehensive discussion
of nonlinear multi-modal structural vibration problems, and then to show
how vibration suppression can be applied to such systems by considering a
sample set of relevant control techniques. The rationale is to produce a
volume which is accessible to practitioners in the application areas, as
well as students and researchers working on related topics. In particular, the aim is to introduce the key concepts of nonlinear vibration to readers
who have an understanding of linear vibration and/or linear control, but
no specialist knowledge in nonlinear dynamics or nonlinear control.
Content:
Front Matter....Pages i-x
Introduction to Nonlinear Vibration and Control....Pages 1-34
Nonlinear Vibration Phenomena....Pages 35-80
Control of Nonlinear Vibrations....Pages 81-118
Approximate Methods for Analysing Nonlinear Vibrations....Pages 119-171
Modal Analysis for Nonlinear Vibration....Pages 173-213
Beams....Pages 215-256
Cables....Pages 257-301
Plates and Shells....Pages 303-347
Back Matter....Pages 349-354
....