Detail Cantuman
Pencarian SpesifikE Book
Proceedings of the International Conference on Earthquake Engineering and Structural Dynamics
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 of NGA-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. Seismic risk 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.This book includes a collection of chapters that were presented at the International Conference on Earthquake Engineering and Structural Dynamics (ICESD), held in Reykjavik, Iceland between 12-14 June 2017. The contributions address a wide spectrum of subjects related to wind engineering, earthquake engineering, and structural dynamics. Dynamic behavior of ultra long span bridges that are discussed in this volume represent one of the most challenging and ambitious contemporary engineering projects. Concepts, principles, and applications of earthquake engineering are presented in chapters addressing various aspects such as ground motion modelling, hazard analysis, structural analysis and identification, design and detailing of structures, risk due to non-structural components, and risk communication and mitigation. The presented chapters represent the state-of-the-art in these fields as well as the most recent developments.
Ketersediaan
9783319781877 | Koleksi E Book | Tersedia |
Informasi Detil
Judul Seri |
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No. Panggil |
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Penerbit | Springer : Cham., 2019 |
Deskripsi Fisik |
XIV, 510 p. 272 illus., 186 illus. in color.online resource.
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Bahasa |
English
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ISBN/ISSN |
9783319781877
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Klasifikasi |
620
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Tipe Isi |
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Tipe Media |
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Tipe Pembawa |
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Edisi |
1st ed.
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Subyek | |
Info Detil Spesifik |
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Pernyataan Tanggungjawab |
Rajesh Rupakhety, Simon Olafsson, Bjarni Bessason.
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Informasi Lainnya
Anak judul |
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Judul asli |
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DOI/URL |
https://doi.org/10.1007/978-3-319-78187-7
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Versi lain/terkait
Tidak tersedia versi lain