1Chapter-1
899.4 Response Analysis
2Introduction to Structural Dynamics
909.5 Stochastic Structural Dynamics
31.1 Basic Concepts and Definitions
919.6 Examples
41.2 Applications of Structural Dynamics
929.7 Auto- and Cross-Correlation Functions
51.3 Modeling Structures as Dynamic Systems
939.8 Power Spectral Density
61.4 Methods of Dynamic Analysis
94Conclusion: References
71.5 Advanced Modeling Concepts
95Chapter-10
81.6 Dynamic Analysis of Common Structural Systems
96Structural Damping Mechanisms
91.7 Design Applications of Structural Dynamics
9710.1 Viscous, Coulomb, and Structural Damping
101.8 Dynamics Analysis in Structural Design Practice
9810.2 Estimation Techniques
11Conclusion: References
9910.3 Modal Damping Models
12Chapter-2
10010.5 Damping Tests and Measurements
13Vibration Theory
10110.6 Composite Materials Damping
142.1 Simple Harmonic Motion
10210.7 Vibration Damping Solutions
152.2 Damped and Undamped Systems
10310.8 Nonlinear Damping Phenomena
162.3 Free and Forced Vibrations
10410.9 Damping Design Guidelines
172.4 Single and Multi-Degree-of-Freedom Systems
10510.10 Applications
182.5 Single Degree of Freedom Systems
10610.11 Rayleigh Damping
192.6 Two Degrees of Freedom Systems
10710.12 Non-Classical Damping Models
202.7 Continuous Systems
108Conclusion
212.8 Approximate Methods for Multidegree-of-Freedom Systems
109References
222.9 Numerical Methods for Dynamic Analysis
110Chapter-11
23Conclusion: References
111Base Excitation and Seismic Analysis
24Chapter-3
11211.1 Earthquake Ground Motion Characteristics
25Dynamic Analysis of Single–Degree–of–Freedom Systems
11311.2 Response Spectrum Method
263.1 Equation of Motion
11411.3 Time-History Analysis Method
273.2 Free Vibration Response
11511.4 Design Spectra Codes
283.3 Response to Harmonic, Periodic, and Arbitrary Excitation
11611.5 Seismic Isolation Fundamentals
293.4 Frequency Response Functions
11711.6 Soil-Structure Interaction
303.5 Numerical Solution Methods
11811.7 Seismic Retrofitting Techniques
313.6 Damping Models
11911.8 Probabilistic Seismic Hazard Analysis (PSHA)
323.7 Nonlinear Single-Degree-of-Freedom Systems
120Conclusion: References
333.8 Illustrative Examples of SDOF Systems
121Chapter 12
343.9 Limitations and Challenges
122Wind Effects on Structures
353.10 Multiple Degree of Freedom Systems
12312.1 Wind Speed Profiles
363.11 Equations of Motion
12412.2 Along-Wind, Across-Wind and Torsional Effects
373.12 Eigenvalue Solution
12512.3 Wind Loading Codes
383.13 Mode Superposition
12612.4 Performance-Based Wind Engineering
393.14 Direct Numerical Integration
12712.5 Effects of Climate Change
403.15 Modal Analysis Assumptions and Limitations
12812.6 Bridge Aerodynamics
413.16 Modeling Considerations: References
12912.7 Dynamic Wind Pressures
42Chapter-4
13012.8 Buffeting Response Analysis
43Multi–Degree–of–Freedom Systems
131Conclusion: References
444.1 Degrees of freedom and coordinates
132Chapter-13
454.2 Equation of motion, eigenproblem, natural frequencies and mode shapes
133Aeroelasticity
464.3 Modeling considerations and assumptions
13413.1 Flutter Mechanisms
474.4 Multi-degree-of-freedom systems examples
13513.2 Classical Flutter Theory
484.5 Modal Analysis
13613.3 Unsteady Aerodynamics Modeling
494.6 Response Calculations
13713.4 Flutter Analysis Methods
50Conclusion: References
13813.5 Passive Flutter Suppression
51Chapter-5
13913.6 Active Flutter Suppression Systems
52Continuous Systems
14013.7 Panel Flutter
535.1 Governing equations
14113.8 Turbulence Modeling
545.2 Solution Methods
142Conclusion: References
555.3 Rayleigh’s Quotient
143Chapter-14
565.4 Examples of Continuous System Dynamics
144Soil–Structure Interaction
57Conclusion: References
14514.1 Foundations on Elastic Half-Space
58Chapter-6
14614.2 Impedance Functions
59Approximate Methods for Continuous Systems
14714.3 Direct Methods of SSI Analysis
606.1 Rayleigh-Ritz Method
14814.4 Effects of SSI
616.2 Galerkin Method
14914.5 Base Slab Averaging
626.3 Finite Element Method
15014.6 Flexible Volume Method
636.4 Finite Element Analysis
15114.7 Modeling Considerations
64Conclusion: References
15214.8 Shallow Foundations
65Chapter-7
15314.9 Deep Foundations
66Time Integration Methods
15414.10 Direct Design Methods
677.1 Newmark’s Method
155Conclusion
687.2 Wilson-θ Method
156References
697.3 Software Implementation
157Chapter-15
707.4 Example Applications
158Nonlinear Structural Dynamics
717.5 Hilber-Hughes-Taylor Method
15915.1 Clearance and gap nonlinearities
727.6 Generalized-α Method
16015.2 Coulomb friction damping
737.7 Stability and Accuracy Considerations
16115.3 Material Nonlinearities
74Conclusion: References
16215.4 Geometric Nonlinearities
75Chapter-8
16315.5 Nonlinear Model Reduction Techniques
76Frequency Domain Analysis
164Conclusion: References
778.1 Fourier series
165Chapter-16
788.2 Discrete Fourier Transform and Fast Fourier Transform
166Structural Health Monitoring
798.3 Frequency Response Functions
16716.1 Vibration-based Damage Detection Methods
808.4 Experimental Modal Analysis
16816.2 Wave Propagation Methods
818.5 Modal Parameter Estimation
16916.3 Smart Materials and Sensors
828.6 Experimental Modal Analysis Challenges
17016.4 Operational Modal Analysis
83Conclusion: References
17116.5 Data Acquisition and Signal Processing
84Chapter-9
17216.6 Data Management and Visualization
85Random Vibration Analysis
17316.7 Uncertainty Quantification and Decision Support: References
869.1 Probability theory
174Glossary
879.2 Stationary and Ergodic Processes
175Index
889.3 Analysis Methods
