弹性(材料科学)
风险分析(工程)
概念框架
稳健性(进化)
冗余(工程)
计算机科学
社区复原力
环境资源管理
可靠性工程
工程类
业务
环境科学
社会学
社会科学
化学
物理
基因
热力学
生物化学
作者
Michel Bruneau,Stephanie E. Chang,Ronald T. Eguchi,George C. Lee,Thomas D. O’Rourke,A. M. Reinhorn,Masanobu Shinozuka,Kathleen J. Tierney,William A. Wallace,Detlof von Winterfeldt
摘要
This paper presents a conceptual framework to define seismic resilience of communities and quantitative measures of resilience that can be useful for a coordinated research effort focusing on enhancing this resilience. This framework relies on the complementary measures of resilience: “Reduced failure probabilities,” “Reduced consequences from failures,” and “Reduced time to recovery.” The framework also includes quantitative measures of the “ends” of robustness and rapidity, and the “means” of resourcefulness and redundancy, and integrates those measures into the four dimensions of community resilience—technical, organizational, social, and economic—all of which can be used to quantify measures of resilience for various types of physical and organizational systems. Systems diagrams then establish the tasks required to achieve these objectives. This framework can be useful in future research to determine the resiliency of different units of analysis and systems, and to develop resiliency targets and detailed analytical procedures to generate these values.
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