Central Library, Indian Institute of Technology Delhi
केंद्रीय पुस्तकालय, भारतीय प्रौद्योगिकी संस्थान दिल्ली

Dynamics and Control of Structures [electronic resource] : A Modal Approach / by Wodek K. Gawronski.

By: Gawronski, Wodek K [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Mechanical Engineering SeriesPublisher: New York, NY : Springer New York : Imprint: Springer, 1998Edition: 1st ed. 1998Description: XX, 232 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780387218557Subject(s): Buildings-Design and construction | Mechanical engineering | Mechanics | Mechanics, Applied | Solids | Control engineering | Robotics | Automation | Building Construction and Design | Mechanical Engineering | Classical Mechanics | Solid Mechanics | Control, Robotics, AutomationAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 690 LOC classification: TH1-9745Online resources: Click here to access online
Contents:
1. Dynamics -- 1 Introduction -- 2 Models -- 3 Controllability and Observability -- 4 Norms -- 5 Model Reduction -- 6 Assignment -- 7 Actuator and Sensor Placement -- 2. Control -- 8 Dissipative Controllers -- 9 LQG Controllers -- 10 H? and H2 Controllers -- Appendix A Matlab Functions -- A.1 Transformation to the Modal Representation -- A.2 Open-Loop Balanced Representation -- A.5 Hankel Modal Norm -- A.6 LQG Balanced Representation -- Appendix B Structural Parameters -- B.1 Stiffness and Mass Matrices of the 2D Truss -- B.2 State-Space Representation of the Deep Space Network Antenna -- References.
In: Springer Nature eBookSummary: Robots, aerospace structures, active earthquake-damping devices of tall buildings, and active sound suppression are examples of the application of structural dynamics and control methods. This book addresses the structural dynamics and control problems encountered by mechanical, civil, and control engineers. Many problems presented in this book originated in recent applications in the aerospace industry, and have been solved using the approach presented here. Dynamics analysis and controller design for flexible structures require a special approach due to the large size of structural models, and because flexible structure testing and control typically requires massive instrumentation (sensors and actuators). But the rapid development of new technologies and the increased power of computers allows for the formulation and solution of engineering problems that seemed to be unapproachable not so very long ago. The modal approach was chosen in this book. It has a long tradition in structural engineering (see, e.g., [84], [87], and [26]) and is also used in control system analysis, e.g., [93]. Its usefulness, thoroughly tested, does not need extensive justification. Both structural testing and analysis give priority to the modal representation, due to its compactness, simplicity, and explicit physical interpretation. Also, many useful structural properties are properly exposed only in modal coordinates. In this book the modal approach, preferred by structural engineers, is extended into control engineering, giving new analytical results, and narrowing the gap between structural and control analysis.
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1. Dynamics -- 1 Introduction -- 2 Models -- 3 Controllability and Observability -- 4 Norms -- 5 Model Reduction -- 6 Assignment -- 7 Actuator and Sensor Placement -- 2. Control -- 8 Dissipative Controllers -- 9 LQG Controllers -- 10 H? and H2 Controllers -- Appendix A Matlab Functions -- A.1 Transformation to the Modal Representation -- A.2 Open-Loop Balanced Representation -- A.5 Hankel Modal Norm -- A.6 LQG Balanced Representation -- Appendix B Structural Parameters -- B.1 Stiffness and Mass Matrices of the 2D Truss -- B.2 State-Space Representation of the Deep Space Network Antenna -- References.

Robots, aerospace structures, active earthquake-damping devices of tall buildings, and active sound suppression are examples of the application of structural dynamics and control methods. This book addresses the structural dynamics and control problems encountered by mechanical, civil, and control engineers. Many problems presented in this book originated in recent applications in the aerospace industry, and have been solved using the approach presented here. Dynamics analysis and controller design for flexible structures require a special approach due to the large size of structural models, and because flexible structure testing and control typically requires massive instrumentation (sensors and actuators). But the rapid development of new technologies and the increased power of computers allows for the formulation and solution of engineering problems that seemed to be unapproachable not so very long ago. The modal approach was chosen in this book. It has a long tradition in structural engineering (see, e.g., [84], [87], and [26]) and is also used in control system analysis, e.g., [93]. Its usefulness, thoroughly tested, does not need extensive justification. Both structural testing and analysis give priority to the modal representation, due to its compactness, simplicity, and explicit physical interpretation. Also, many useful structural properties are properly exposed only in modal coordinates. In this book the modal approach, preferred by structural engineers, is extended into control engineering, giving new analytical results, and narrowing the gap between structural and control analysis.

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