| Título : |
Proceedings of the International Conference on Earthquake Engineering and Structural Dynamics |
| Tipo de documento: |
documento electrónico |
| Autores: |
Rupakhety, Rajesh, ; Ólafsson, Símon, ; Bessason, Bjarni, |
| Mención de edición: |
1 ed. |
| Editorial: |
[s.l.] : Springer |
| Fecha de publicación: |
2019 |
| Número de páginas: |
XIV, 510 p. 272 ilustraciones, 186 ilustraciones en color. |
| ISBN/ISSN/DL: |
978-3-319-78187-7 |
| Nota general: |
Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. |
| Palabras clave: |
Sistemas multicuerpo Vibración Mecánica Aplicada Ingeniería geotécnica Sólidos Desastres naturales Sistemas multicuerpo y vibraciones mecánicas Ingeniería Geotécnica y Ciencias de la Tierra Aplicadas Mecánica de sólidos Peligros Naturales |
| Índice Dewey: |
620.3 |
| Resumen: |
Este libro incluye una colección de capítulos que se presentaron en la Conferencia Internacional sobre Ingeniería Sísmica y Dinámica Estructural (ICESD), celebrada en Reykjavik, Islandia, entre el 12 y el 14 de junio de 2017. Las contribuciones abordan un amplio espectro de temas relacionados con la ingeniería eólica, la ingeniería sísmica y la dinámica estructural. ingeniería y dinámica estructural. El comportamiento dinámico de los puentes de luces ultralargas que se analizan en este volumen representa uno de los proyectos de ingeniería contemporáneos más desafiantes y ambiciosos. Los conceptos, principios y aplicaciones de la ingeniería sísmica se presentan en capítulos que abordan diversos aspectos, como el modelado del movimiento del suelo, el análisis de peligros, el análisis e identificación estructural, el diseño y detalle de estructuras, el riesgo debido a componentes no estructurales y la comunicación y mitigación de riesgos. Los capítulos presentados representan el estado del arte en estos campos, así como los desarrollos más recientes. |
| Nota de contenido: |
1. Seismic Capacity Reduction Factors for a RC Beam and two RC Columns -- 2. Characterization of the wave field around an existing end-supported pontoon bridge from simulated data -- 3. Prediction the Seismic Demands of Tall Buildings Using An Adaptive Force-based Multi-mode Pushover Analysis -- 4. Ambient vibration testing of a 3-storey substandard RC building at different levels of structural seismic damage -- 5. Identification of Rational Functions with a forced vibration technique using random motion histories -- 6. Seismic Design Procedure for Staggered Steel Plate Shear Wall -- 7. Single-Degree-of-Freedom Analytical Predictive Models for Lead-Core Bearing Devices -- 8. Floor spectra for analysis of acceleration-sensitive equipment in buildings -- 9. Finite element model updating of a long span suspension bridge -- 10. Cyclic capacity of dowel connections -- 11. Experimental Study of New Angle Steel Buckling Restrained Braced Restrained -- 12. The Ranges of Uncertainty among the Use ofNGA-West1 and NGA-West 2 Ground Motion Prediction Equations -- 13. Ductile Knee-Braced Frames for Seismic Applications -- 14. Awareness on Seismic Risk: How can Augmented Reality help? -- 15. Seismic Rehabilitation of Masonry Heritage Structures with Base-Isolation and FRP Laminates – A Case Study Comparison -- 16. The Evaluation of Nonlinear Seismic Demands of RC Shear Wall Buildings using a Modified Response Spectrum Analysis Procedure -- 17. Application of MASW in the South Iceland Seismic Zone -- 18. Seismic Fragility Assessment of Reinforced Concrete High-rise Buildings using the Uncoupled Modal Response History Analysis (UMRHA) -- 19. Seismic Response Control of Isolated Bridges Including Soil-Structure Interaction -- 20. Damage observations following the Mw 7.8 2016 Kaikoura earthquake -- 21. Performance of base isolated bridges in recent South Iceland earthquakes -- 22. How to survive earthquakes: the example of Norcia -- 23. System Identification of a Residential Building in Kathmandu Using Aftershocks of 2015 Gorkha Earthquake and Triggered Noise Data -- 24. From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in KnowRISK Project -- 25. Shaping favorable beliefs to seismic protection through risk communication: A pilot-experience in two Lisbon (Portugal) schools -- 26. Between Perception and Knowledge: the construction of the Italian questionnaire to assess the KnowRISK Project actions -- 27. New Design Spectral Acceleration of Soft and Deep Deposits in Bangkok -- 28. The participatory risk communication action of the KnowRISK project: Italy -- 29. Systematic methodology for planning and evaluation of a multi-source geohazard monitoring system. Application of a reusable template -- 30. Development of a common (European) tool to assess earthquake risk communication -- 31. KnowRISK on Seismic Risk Communication: the set-up of a participatory strategy -- 32. The dynamic intelligent bridge: A new concept in bridge dynamics -- 33. Seismicrisk communication: how to assess it? The case of Lisbon pilot-area -- 34. On the manifestation of ground motion model differences on seismic hazard in North Iceland -- 35. Bayesian Heirarchial model of peak ground acceleration for the Icelandic strong-motion arrarys -- 36. Towards an automated Kappa measurement procedure -- 37. Monitoring and Damage Detection of a 70-year-old Suspension Bridge -Ölfusá Bridge in Selfoss, Case Study -- 38. Seismic performance of non-structural elements assessed through shake table tests: The KnowRISK room set-up -- 39. KnowRISK Practical Guide for mitigation of seismic risk due to non-structural components -- 40. A study of rigid blocks rocking against rigid walls. |
| En línea: |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
| Link: |
https://biblioteca.umanizales.edu.co/ils/opac_css/index.php?lvl=notice_display&i |
Proceedings of the International Conference on Earthquake Engineering and Structural Dynamics [documento electrónico] / Rupakhety, Rajesh, ; Ólafsson, Símon, ; Bessason, Bjarni, . - 1 ed. . - [s.l.] : Springer, 2019 . - XIV, 510 p. 272 ilustraciones, 186 ilustraciones en color. ISBN : 978-3-319-78187-7 Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos.
| Palabras clave: |
Sistemas multicuerpo Vibración Mecánica Aplicada Ingeniería geotécnica Sólidos Desastres naturales Sistemas multicuerpo y vibraciones mecánicas Ingeniería Geotécnica y Ciencias de la Tierra Aplicadas Mecánica de sólidos Peligros Naturales |
| Índice Dewey: |
620.3 |
| Resumen: |
Este libro incluye una colección de capítulos que se presentaron en la Conferencia Internacional sobre Ingeniería Sísmica y Dinámica Estructural (ICESD), celebrada en Reykjavik, Islandia, entre el 12 y el 14 de junio de 2017. Las contribuciones abordan un amplio espectro de temas relacionados con la ingeniería eólica, la ingeniería sísmica y la dinámica estructural. ingeniería y dinámica estructural. El comportamiento dinámico de los puentes de luces ultralargas que se analizan en este volumen representa uno de los proyectos de ingeniería contemporáneos más desafiantes y ambiciosos. Los conceptos, principios y aplicaciones de la ingeniería sísmica se presentan en capítulos que abordan diversos aspectos, como el modelado del movimiento del suelo, el análisis de peligros, el análisis e identificación estructural, el diseño y detalle de estructuras, el riesgo debido a componentes no estructurales y la comunicación y mitigación de riesgos. Los capítulos presentados representan el estado del arte en estos campos, así como los desarrollos más recientes. |
| Nota de contenido: |
1. Seismic Capacity Reduction Factors for a RC Beam and two RC Columns -- 2. Characterization of the wave field around an existing end-supported pontoon bridge from simulated data -- 3. Prediction the Seismic Demands of Tall Buildings Using An Adaptive Force-based Multi-mode Pushover Analysis -- 4. Ambient vibration testing of a 3-storey substandard RC building at different levels of structural seismic damage -- 5. Identification of Rational Functions with a forced vibration technique using random motion histories -- 6. Seismic Design Procedure for Staggered Steel Plate Shear Wall -- 7. Single-Degree-of-Freedom Analytical Predictive Models for Lead-Core Bearing Devices -- 8. Floor spectra for analysis of acceleration-sensitive equipment in buildings -- 9. Finite element model updating of a long span suspension bridge -- 10. Cyclic capacity of dowel connections -- 11. Experimental Study of New Angle Steel Buckling Restrained Braced Restrained -- 12. The Ranges of Uncertainty among the Use ofNGA-West1 and NGA-West 2 Ground Motion Prediction Equations -- 13. Ductile Knee-Braced Frames for Seismic Applications -- 14. Awareness on Seismic Risk: How can Augmented Reality help? -- 15. Seismic Rehabilitation of Masonry Heritage Structures with Base-Isolation and FRP Laminates – A Case Study Comparison -- 16. The Evaluation of Nonlinear Seismic Demands of RC Shear Wall Buildings using a Modified Response Spectrum Analysis Procedure -- 17. Application of MASW in the South Iceland Seismic Zone -- 18. Seismic Fragility Assessment of Reinforced Concrete High-rise Buildings using the Uncoupled Modal Response History Analysis (UMRHA) -- 19. Seismic Response Control of Isolated Bridges Including Soil-Structure Interaction -- 20. Damage observations following the Mw 7.8 2016 Kaikoura earthquake -- 21. Performance of base isolated bridges in recent South Iceland earthquakes -- 22. How to survive earthquakes: the example of Norcia -- 23. System Identification of a Residential Building in Kathmandu Using Aftershocks of 2015 Gorkha Earthquake and Triggered Noise Data -- 24. From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in KnowRISK Project -- 25. Shaping favorable beliefs to seismic protection through risk communication: A pilot-experience in two Lisbon (Portugal) schools -- 26. Between Perception and Knowledge: the construction of the Italian questionnaire to assess the KnowRISK Project actions -- 27. New Design Spectral Acceleration of Soft and Deep Deposits in Bangkok -- 28. The participatory risk communication action of the KnowRISK project: Italy -- 29. Systematic methodology for planning and evaluation of a multi-source geohazard monitoring system. Application of a reusable template -- 30. Development of a common (European) tool to assess earthquake risk communication -- 31. KnowRISK on Seismic Risk Communication: the set-up of a participatory strategy -- 32. The dynamic intelligent bridge: A new concept in bridge dynamics -- 33. Seismicrisk communication: how to assess it? The case of Lisbon pilot-area -- 34. On the manifestation of ground motion model differences on seismic hazard in North Iceland -- 35. Bayesian Heirarchial model of peak ground acceleration for the Icelandic strong-motion arrarys -- 36. Towards an automated Kappa measurement procedure -- 37. Monitoring and Damage Detection of a 70-year-old Suspension Bridge -Ölfusá Bridge in Selfoss, Case Study -- 38. Seismic performance of non-structural elements assessed through shake table tests: The KnowRISK room set-up -- 39. KnowRISK Practical Guide for mitigation of seismic risk due to non-structural components -- 40. A study of rigid blocks rocking against rigid walls. |
| En línea: |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
| Link: |
https://biblioteca.umanizales.edu.co/ils/opac_css/index.php?lvl=notice_display&i |
|  |
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