英文版《工程地震灾变模拟:从高层建筑到城市区域(第2版)》出版

《Earthquake Disaster Simulation of Civil Infrastructures: From Tall Buildings to Urban Areas (second edition)》已经出版。

如果需要本书,有Springer数据库访问权限的读者(例如通过清华校园网)可以在出版社网站免费下载电子版。

https://link.springer.com/book/10.1007/978-981-15-9532-5

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目录

1 Introduction(绪论)

2 High-fidelity computational models for earthquake disaster simulation of tall buildings(高层建筑地震灾变模拟的精细模型)

3 Earthquake disaster simulation of typical supertall buildings(典型超高层建筑地震灾变模拟)

4 Comparison of seismic design and resilience of tall buildings based on Chinese and US design codes(中美高层建筑抗震设计和韧性对比)

5 Simplified models for earthquake disaster simulation of supertall buildings(超高层建筑地震灾变模拟的简化模型)

6 Seismic resilient outriggers and multi-hazard resilient frames(抗震韧性伸臂桁架和多灾害韧性防御框架)

7 Building models for city-scale nonlinear time-history analyses(城市抗震弹塑性分析的建筑模型)

8 Regional seismic loss estimation of buildings(城市区域建筑地震经济损失预测方法)

9 Visualization and high-performance computing for city-scale nonlinear time-history analyses(城市抗震弹塑性分析的可视化和高性能计算)

10 Fire following earthquake and falling debris hazards(地震次生火灾和次生坠物灾害)

11 Emergency response and post-earthquake recovery using city-scale nonlinear time-history analysis(基于城市抗震弹塑性分析的应急响应和震后恢复)

12 Earthquake disaster simulation of typical urban areas(典型城市区域地震灾害模拟)

13 Conclusions(结论)

Preface of the Second Edition

......In the past 16 years, the authors of this monograph have systematically established a series of earthquake disaster simulation approaches for civil infrastructures through comprehensive nonlinear dynamic analyses of individual buildings and urban areas. As a summary of the outcomes of their work, the first edition of this monograph was published in 2016, covering novel computational models, high-performance computing methods, and realistic visualization techniques for tall buildings and urban areas, with particular emphasis on collapse prevention and mitigation from extreme earthquakes, earthquake loss evaluation and seismic resilience.
Since the publication of the first edition in 2016, many important advances have been made in the field of earthquake engineering. On the one hand, more attention has been paid to the aspects of seismic resilience, economic loss control, and post-earthquake rapid recovery. On the other hand, for a contemporary city being regarded as a three-domain (physics-society-information) complex system, the ultimate goal of seismic resilience cannot be achieved individually by high-performance structures. Therefore, earthquake disaster prevention and mitigation of communities and urban cities have received ever-increasing attention worldwide. In this regard, the authors of this monograph have also conducted leading-edge research work relevant to seismic resilience in recent years, and their up-to-date research outcomes have been supplemented in this new edition, including: (1) novel seismic resilient outriggers and multi-hazard resilient frames (Chapter 6), (2) a multiple level-of-detail (LOD) seismic-damage simulation framework for urban buildings (Chapter 7), (3) a numerical coupling scheme for nonlinear time-history analyses of buildings on a regional scale considering site-city interaction (SCI) effects (Chapter 7), (4) a regional seismic loss estimation method for buildings based on BIM, GIS and a new-generation performance-based design method (Chapter 8), (5) a high-fidelity visualization technique based on oblique aerial photography (Chapter 9), (6) a simulation and visualization method of fire following earthquake for single buildings and a cluster of buildings on a regional scale (Chapter 10), (7) a framework for simulating falling debris hazards and their influences on pedestrian evacuation and shelter planning strategies (Chapter 10), (8) a real-time earthquake damage assessment using recorded ground motions and city-scale nonlinear time-history analyses (Chapter 11), (9) a near-real-time post-earthquake loss estimation method based on aerial images and machine learning (Chapter 11). In this new edition, chapters incorporating new content have been adjusted accordingly, and some less-used content has been removed.

……

2020年因为疫情出差较少,把我们课题组有关工作整理汇总一下,便于国内外同行参考交流,水平有限,恳请批评指正。

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