Vibration with Control.

By: Inman, Daniel JPublisher: New York : John Wiley & Sons, Incorporated, 2017Copyright date: ©2017Edition: 2nd edDescription: 1 online resource (442 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781119108238Subject(s): Damping (Mechanics)Genre/Form: Electronic books. Additional physical formats: Print version:: Vibration with ControlDDC classification: 620.3 LOC classification: TA355.I523 2017Online resources: Click to View
Contents:
Intro -- Vibration with Control -- Contents -- Preface -- About the Companion Website -- 1 Single Degree of Freedom Systems -- 1.1 Introduction -- 1.2 Spring-Mass System -- 1.3 Spring-Mass-Damper System -- 1.4 Forced Response -- 1.5 Transfer Functions and Frequency Methods -- 1.6 Complex Representation and Impedance -- 1.7 Measurement and Testing -- 1.8 Stability -- 1.9 Design and Control of Vibrations -- 1.10 Nonlinear Vibrations -- 1.11 Computing and Simulation in Matlab™ -- Chapter Notes -- References -- Problems -- 2 Lumped Parameter Models -- 2.1 Introduction -- 2.2 Modeling -- 2.3 Classifications of Systems -- 2.4 Feedback Control Systems -- 2.5 Examples -- 2.6 Experimental Models -- 2.7 Nonlinear Models and Equilibrium -- Chapter Notes -- References -- Problems -- 3 Matrices and the Free Response -- 3.1 Introduction -- 3.2 Eigenvalues and Eigenvectors -- 3.3 Natural Frequencies and Mode Shapes -- 3.4 Canonical Forms -- 3.5 Lambda Matrices -- 3.6 Eigenvalue Estimates -- 3.7 Computation Eigenvalue Problems in Matlab -- 3.8 Numerical Simulation of the Time Response in Matlab™ -- Chapter Notes -- References -- Problems -- 4 Stability -- 4.1 Introduction -- 4.2 Lyapunov Stability -- 4.3 Conservative Systems -- 4.4 Systems with Damping -- 4.5 Semidefinite Damping -- 4.6 Gyroscopic Systems -- 4.7 Damped Gyroscopic Systems -- 4.8 Circulatory Systems -- 4.9 Asymmetric Systems -- 4.10 Feedback Systems -- 4.11 Stability in the State Space -- 4.12 Stability of Nonlinear Systems -- Chapter Notes -- References -- Problems -- 5 Forced Response of Lumped Parameter Systems -- 5.1 Introduction -- 5.2 Response via State Space Methods -- 5.3 Decoupling Conditions and Modal Analysis -- 5.4 Response of Systems with Damping -- 5.5 Stability of the Forced Response -- 5.6 Response Bounds -- 5.7 Frequency Response Methods -- 5.8 Stability of Feedback Control.
5.9 Numerical Simulations in Matlab -- Chapter Notes -- References -- Problems -- 6 Vibration Suppression -- 6.1 Introduction -- 6.2 Isolators and Absorbers -- 6.3 Optimization Methods -- 6.4 Metastructures -- 6.5 Design Sensitivity and Redesign -- 6.6 Passive and Active Control -- 6.7 Controllability and Observability -- 6.8 Eigenstructure Assignment -- 6.9 Optimal Control -- 6.10 Observers (Estimators) -- 6.11 Realization -- 6.12 Reduced-Order Modeling -- 6.13 Modal Control in State Space -- 6.14 Modal Control in Physical Space -- 6.15 Robustness -- 6.16 Positive Position Feedback Control -- 6.17 Matlab Commands for Control Calculations -- Chapter Notes -- References -- Problems -- 7 Distributed Parameter Models -- 7.1 Introduction -- 7.2 Equations of Motion -- 7.3 Vibration of Strings -- 7.4 Rods and Bars -- 7.5 Vibration of Beams -- 7.6 Coupled Effects -- 7.7 Membranes and Plates -- 7.8 Layered Materials -- 7.9 Damping Models -- 7.10 Modeling Piezoelectric Wafers -- Chapter Notes -- References -- Problems -- 8 Formal Methods of Solutions -- 8.1 Introduction -- 8.2 Boundary Value Problems and Eigenfunctions -- 8.3 Modal Analysis of the Free Response -- 8.4 Modal Analysis in Damped Systems -- 8.5 Transform Methods -- 8.6 Greens Functions -- Chapter Notes -- References -- Problems -- 9 Operators and the Free Response -- 9.1 Introduction -- 9.2 Hilbert Spaces -- 9.3 Expansion Theorems -- 9.4 Linear Operators -- 9.5 Compact Operators -- 9.6 Theoretical Modal Analysis -- 9.7 Eigenvalue Estimates -- 9.8 Enclosure Theorems -- Chapter Notes -- References -- Problems -- 10 Forced Response and Control -- 10.1 Introduction -- 10.2 Response by Modal Analysis -- 10.3 Modal Design Criteria -- 10.4 Combined Dynamical Systems -- 10.5 Passive Control and Design -- 10.6 Distributed Modal Control -- 10.7 Nonmodal Distributed Control.
10.8 State Space Control Analysis -- 10.9 Vibration Suppression using Piezoelectric Materials -- Chapter Notes -- References -- Problems -- 11 Approximations of Distributed Parameter Models -- 11.1 Introduction -- 11.2 Modal Truncation -- 11.3 Rayleigh-Ritz-Galerkin Approximations -- 11.4 Finite Element Method -- 11.5 Substructure Analysis -- 11.6 Truncation in the Presence of Control -- 11.7 Impedance Method of Truncation and Control -- Chapter Notes -- References -- Problems -- 12 Vibration Measurement -- 12.1 Introduction -- 12.2 Measurement Hardware -- 12.3 Digital Signal Processing -- 12.4 Random Signal Analysis -- 12.5 Modal Data Extraction (Frequency Domain) -- 12.6 Modal Data Extraction (Time Domain) -- 12.7 Model Identification -- 12.8 Model Updating -- 12.9 Verification and Validation -- Chapter Notes -- References -- Problems -- A Comments on Units -- Reference -- B Supplementary Mathematics -- B.1 Vector Space -- B.2 Rank -- B.3 Inverses -- References -- Index -- EULA.
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Intro -- Vibration with Control -- Contents -- Preface -- About the Companion Website -- 1 Single Degree of Freedom Systems -- 1.1 Introduction -- 1.2 Spring-Mass System -- 1.3 Spring-Mass-Damper System -- 1.4 Forced Response -- 1.5 Transfer Functions and Frequency Methods -- 1.6 Complex Representation and Impedance -- 1.7 Measurement and Testing -- 1.8 Stability -- 1.9 Design and Control of Vibrations -- 1.10 Nonlinear Vibrations -- 1.11 Computing and Simulation in Matlab™ -- Chapter Notes -- References -- Problems -- 2 Lumped Parameter Models -- 2.1 Introduction -- 2.2 Modeling -- 2.3 Classifications of Systems -- 2.4 Feedback Control Systems -- 2.5 Examples -- 2.6 Experimental Models -- 2.7 Nonlinear Models and Equilibrium -- Chapter Notes -- References -- Problems -- 3 Matrices and the Free Response -- 3.1 Introduction -- 3.2 Eigenvalues and Eigenvectors -- 3.3 Natural Frequencies and Mode Shapes -- 3.4 Canonical Forms -- 3.5 Lambda Matrices -- 3.6 Eigenvalue Estimates -- 3.7 Computation Eigenvalue Problems in Matlab -- 3.8 Numerical Simulation of the Time Response in Matlab™ -- Chapter Notes -- References -- Problems -- 4 Stability -- 4.1 Introduction -- 4.2 Lyapunov Stability -- 4.3 Conservative Systems -- 4.4 Systems with Damping -- 4.5 Semidefinite Damping -- 4.6 Gyroscopic Systems -- 4.7 Damped Gyroscopic Systems -- 4.8 Circulatory Systems -- 4.9 Asymmetric Systems -- 4.10 Feedback Systems -- 4.11 Stability in the State Space -- 4.12 Stability of Nonlinear Systems -- Chapter Notes -- References -- Problems -- 5 Forced Response of Lumped Parameter Systems -- 5.1 Introduction -- 5.2 Response via State Space Methods -- 5.3 Decoupling Conditions and Modal Analysis -- 5.4 Response of Systems with Damping -- 5.5 Stability of the Forced Response -- 5.6 Response Bounds -- 5.7 Frequency Response Methods -- 5.8 Stability of Feedback Control.

5.9 Numerical Simulations in Matlab -- Chapter Notes -- References -- Problems -- 6 Vibration Suppression -- 6.1 Introduction -- 6.2 Isolators and Absorbers -- 6.3 Optimization Methods -- 6.4 Metastructures -- 6.5 Design Sensitivity and Redesign -- 6.6 Passive and Active Control -- 6.7 Controllability and Observability -- 6.8 Eigenstructure Assignment -- 6.9 Optimal Control -- 6.10 Observers (Estimators) -- 6.11 Realization -- 6.12 Reduced-Order Modeling -- 6.13 Modal Control in State Space -- 6.14 Modal Control in Physical Space -- 6.15 Robustness -- 6.16 Positive Position Feedback Control -- 6.17 Matlab Commands for Control Calculations -- Chapter Notes -- References -- Problems -- 7 Distributed Parameter Models -- 7.1 Introduction -- 7.2 Equations of Motion -- 7.3 Vibration of Strings -- 7.4 Rods and Bars -- 7.5 Vibration of Beams -- 7.6 Coupled Effects -- 7.7 Membranes and Plates -- 7.8 Layered Materials -- 7.9 Damping Models -- 7.10 Modeling Piezoelectric Wafers -- Chapter Notes -- References -- Problems -- 8 Formal Methods of Solutions -- 8.1 Introduction -- 8.2 Boundary Value Problems and Eigenfunctions -- 8.3 Modal Analysis of the Free Response -- 8.4 Modal Analysis in Damped Systems -- 8.5 Transform Methods -- 8.6 Greens Functions -- Chapter Notes -- References -- Problems -- 9 Operators and the Free Response -- 9.1 Introduction -- 9.2 Hilbert Spaces -- 9.3 Expansion Theorems -- 9.4 Linear Operators -- 9.5 Compact Operators -- 9.6 Theoretical Modal Analysis -- 9.7 Eigenvalue Estimates -- 9.8 Enclosure Theorems -- Chapter Notes -- References -- Problems -- 10 Forced Response and Control -- 10.1 Introduction -- 10.2 Response by Modal Analysis -- 10.3 Modal Design Criteria -- 10.4 Combined Dynamical Systems -- 10.5 Passive Control and Design -- 10.6 Distributed Modal Control -- 10.7 Nonmodal Distributed Control.

10.8 State Space Control Analysis -- 10.9 Vibration Suppression using Piezoelectric Materials -- Chapter Notes -- References -- Problems -- 11 Approximations of Distributed Parameter Models -- 11.1 Introduction -- 11.2 Modal Truncation -- 11.3 Rayleigh-Ritz-Galerkin Approximations -- 11.4 Finite Element Method -- 11.5 Substructure Analysis -- 11.6 Truncation in the Presence of Control -- 11.7 Impedance Method of Truncation and Control -- Chapter Notes -- References -- Problems -- 12 Vibration Measurement -- 12.1 Introduction -- 12.2 Measurement Hardware -- 12.3 Digital Signal Processing -- 12.4 Random Signal Analysis -- 12.5 Modal Data Extraction (Frequency Domain) -- 12.6 Modal Data Extraction (Time Domain) -- 12.7 Model Identification -- 12.8 Model Updating -- 12.9 Verification and Validation -- Chapter Notes -- References -- Problems -- A Comments on Units -- Reference -- B Supplementary Mathematics -- B.1 Vector Space -- B.2 Rank -- B.3 Inverses -- References -- Index -- EULA.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2019. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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