Disaster Resilience of Urban Communities in Canada: New Probabilistic Models and Computational Methods

加拿大城市社区的抗灾能力：新的概率模型和计算方法

• 批准号: RGPIN-2019-03991
• 负责人: Haukaas, Terje
• 金额: $ 1.89万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=749354
• 关键词: Disaster; Resilience; Urban; Communities; Canada

An earthquake in the Metro Vancouver region can cause extensive damage and displacement of a significant portion of the population, but we lack knowledge about how the built environment will perform. A recent report by the British Columbia Auditor General concluded that the region is not adequately prepared for a catastrophic earthquake. Studies have shown that a strong earthquake near Vancouver, or an offshore subduction earthquake, is likely to cause billions of dollars in damage, but the impacts are uncertain. The proposed work employs that region as a testbed for a new computer simulation platform with interchangeable probabilistic models aimed at helping the region better prepare for and recover from a disaster. Rather than seeing a computer simulation program as a single deliverable from this work, an important outcome is a collection of probabilistic models for damage and recovery of bridges, ports, residential houses, and structures in the power and water grids. These models can be shared with other researchers, and models from other researchers are integrated into the framework. The information flowing between the models include calculated responses, such as earthquake intensity, and flow of power, water, and resources for repairs. The computational platform has already been employed to simulate regional losses due to earthquakes and the flow of fuel to coastal communities. A central question addressed in the proposed work is how many persons will be displaced in the next strong earthquake near Vancouver and what the timeline is for the housing recovery. Additional performance and resilience metrics are predicted and "what-if" scenarios are simulated, but population displacement and long-term housing recovery represent important gaps in our understanding of community resilience. Many models are needed to address that problem and a framework of hazard models are already in place from earlier work. The proposed work creates a new framework of probabilistic models in three categories: 1) Models for damage to residences and the structures of the power/water grids, directly affecting the number of displaced persons; 2) Models to predict the repair actions and the resources needed for repairs, without which housing recovery will be delayed; and 3) Models for damage and recovery of port and bridge structures critical to the flow of workers and materials into and within the region. The United Nations framework for disaster risk reduction urges governments to reduce the damage potential for critical infrastructure, and the Ministry of Public Safety in Canada has a mandate to develop plans to enhance the disaster resilience of Canadian communities. The proposed work addresses those challenges through the development of new tools and the training of highly qualified personnel to help managers of ports, bridges, and power and water infrastructure to assess and to reduce the risks associated with the structures they oversee.

大温哥华地区的地震可能会造成大面积的破坏，并导致相当一部分人口流离失所，但我们对建筑环境将如何表现缺乏了解。不列颠哥伦比亚省审计长最近的一份报告得出结论，该地区没有为灾难性地震做好充分准备。研究表明，温哥华附近的强烈地震或海上俯冲地震可能会造成数十亿美元的损失，但影响是不确定的。拟议的工作将该地区作为一个新的计算机模拟平台的试验台，该平台具有可互换的概率模型，旨在帮助该地区更好地准备和从灾难中恢复过来。与其将计算机模拟程序视为这项工作的单一交付成果，一个重要的成果是收集桥梁、港口、住宅以及电网和水网结构的损坏和恢复的概率模型。这些模型可以与其他研究人员共享，并且其他研究人员的模型可以集成到框架中。在模型之间流动的信息包括计算出的响应，如地震强度，以及电力、水和维修资源的流动。该计算平台已经被用于模拟地震和燃料流向沿海社区造成的区域损失。在提议的工作中解决的一个核心问题是，在温哥华附近的下一次强烈地震中，有多少人将流离失所，以及住房恢复的时间表是什么。预测了其他绩效和弹性指标，并模拟了“假设”情景，但人口流离失所和长期住房恢复代表了我们对社区弹性理解的重要差距。要解决这一问题，需要许多模型，从早期的工作中已经建立了一个危险模型框架。拟议的工作创建了一个新的概率模型框架，分为三类：1)直接影响流离失所者数量的住宅和水电网络结构损坏模型；2)预测修复行动和修复所需资源的模型，没有这些模型，住房恢复将被推迟；3)港口和桥梁结构的破坏和恢复模型，这些结构对工人和材料进入该区域和在该区域内流动至关重要。联合国减少灾害风险框架敦促各国政府减少对关键基础设施的潜在破坏，加拿大公共安全部受命制定计划，提高加拿大社区的抗灾能力。拟议的工作通过开发新工具和培训高素质人员来解决这些挑战，以帮助港口、桥梁、电力和水基础设施的管理者评估和减少与他们所监督的结构相关的风险。