Structural Dynamics and Renewable Energy, Volume 1 (eBook, PDF)
Proceedings of the 28th IMAC, A Conference on Structural Dynamics, 2010
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Structural Dynamics and Renewable Energy, Volume 1 (eBook, PDF)
Proceedings of the 28th IMAC, A Conference on Structural Dynamics, 2010
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The Collection embraces Structural Dynamics and Renewable Energy into more than 50 categories, including Shock and Vibration, Damping in Solids, Nonlinear Modeling, Structural Health Modeling, Structural Dynamics, and Rotating Machinery. This the first volume of the five-volume set brings together 34 chapters on Structural Dynamics and Renewable Energy.
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The Collection embraces Structural Dynamics and Renewable Energy into more than 50 categories, including Shock and Vibration, Damping in Solids, Nonlinear Modeling, Structural Health Modeling, Structural Dynamics, and Rotating Machinery. This the first volume of the five-volume set brings together 34 chapters on Structural Dynamics and Renewable Energy.
Produktdetails
- Produktdetails
- Verlag: Springer New York
- Erscheinungstermin: 21. Juni 2011
- Englisch
- ISBN-13: 9781441997166
- Artikelnr.: 43730404
- Verlag: Springer New York
- Erscheinungstermin: 21. Juni 2011
- Englisch
- ISBN-13: 9781441997166
- Artikelnr.: 43730404
Dr. Tom Proulx is the Executive Director of the Society for Experimental Mechanics, Inc.
Experimental Techniques.- Damage Detection.- Modal Techniques
– Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures – Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification – Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring– Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
– Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures – Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification – Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring– Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
Experimental Techniques.- Damage Detection.- Modal Techniques
- Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures - Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification - Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring- Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
- Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures - Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification - Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring- Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
Experimental Techniques.- Damage Detection.- Modal Techniques
– Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures – Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification – Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring– Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
– Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures – Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification – Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring– Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
Experimental Techniques.- Damage Detection.- Modal Techniques
- Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures - Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification - Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring- Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.
- Excitation.- Biodynamics.- Damping of Materials and Members (Tutorial).- Modal Parameter Identification I.- Wind Turbine Structural Dynamics Applications.- Nonlinear Modeling.- Dynamics of Bridges.- Rotating Machinery.- Damping of Structures.- Modeling and Estimation of Loads on Structures - Civil Applications.- Energy Harvesting.- Nonlinear System Identification.- Identification and Diagnostics (NU-IGERT).- Model Calibration Under Uncertainty I.- Model Correlation and Updating - Civil Structures.- Tutorial on Sensors and Instrumentation I.- Wind Turbine Dynamics.- Nonlinear Experimentation.- Modal Parameter Identification II.- Model Calibration Under Uncertainty II.- Numerical Dynamic Substructuring.- Modal Parameter Identification - Civil Applications.- Electromagnetic and Magnetostrictive Energy Harvesting.- Structural Health Monitoring I.- Application of Model Validation.- Experimental Modeling Methods.- Damage Detection and Modeling - Civil Structures.- Tutorial on Sensors and Instrumentation III.- Piezoelectric Energy Harvesting.- Structural Health Monitoring II.- Shock and Vibration.- Ares IX Launch Vehicle Modal Testing.- Experimental Dynamic Substructuring.- Control of Civil Structures/Stadium Dynamics.- Application of OMA Techniques to Wind Turbines.- Bridges-Health Monitoring- Applications.- Experimental Techniques-Civil Engineering.- Sensors and Instrumentation.