RAPID: COLLABORATIVE RESEARCH: Building Infrastructure to Prevent Disasters like Hurricane Maria

快速：合作研究：建设基础设施以预防飓风玛丽亚等灾害

• 批准号: 1810172
• 负责人: Marc Edwards
• 金额: $ 3.26万
• 依托单位: Virginia Polytechnic Institute and State University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-12-15 至 2018-11-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1810172&HistoricalAwards=false
• 关键词: RAPID; COLLABORATIVE; RESEARCH; Building; Infrastructure

There is an urgent need to understand the impacts of severe flooding and infrastructure damage on public health after natural disasters. One limitation to effective disaster response is easy and rapid access to diverse information about available resources, community resource needs, baseline and current environmental conditions. This project aims to expand access to environmental and drinking water quality disaster response and recovery data in a publicly available format using a widely used collaborative online sharing platform named HydroShare. Curating a central repository of assembled data has the potential to greatly facilitate coordinated disaster responses of all types, and improve the monitoring of the recovery process. The project team will prototype this system with an assessment of drinking water, environment, and public health concerns unique to Puerto Rico in the aftermath of Hurricane Maria. By working directly with public water utilities, the project team intends to characterize and map the severity of impaired water resources and distribution systems in Puerto Rico, inform communities about how to protect themselves against hazards specific to their water, and to contribute to rebuilding so the nation is better prepared for future hurricanes. Developing cyber and social infrastructure to understand the dynamics of drinking water contamination after natural disasters will improve disaster preparedness and response, and contribute to efforts across the nation and the world to build for a resilient future.Recovery efforts from natural disasters can be more efficient with data-driven information on current needs and future risks. This project aims to advance open-source software infrastructure to support scientific investigation and data-driven decision making with a prototype system using a water quality assessment developed to investigate post-Hurricane Maria drinking water contamination in Puerto Rico. The widespread disruption of water treatment processes and uncertain drinking water quality within distribution systems in Puerto Rico poses risk to human health. However, there is no existing digital infrastructure to scientifically determine the impacts of the hurricane to inform a response to the crisis. After every natural disaster, including hurricane Maria, elementary questions on how to provide high quality water supplies and support basic human health are difficult to answer. This project will archive and make accessible data on environmental variables unique to Puerto Rico and Hurricane Maria, damage caused by the storm, and will begin to address time sensitive needs of citizens. By working directly with drinking water utilities to collect samples of biological and inorganic drinking water quality, this project aims to generate understanding and awareness of the degree to which drinking water systems were impacted by Hurricane Maria and the status of drinking water infrastructure and emergency recovery in Puerto Rico after the storm. The goal of this project is to advance understanding of how the severity of a hazard to human health (e.g., no access to safe culinary water) is related to the sophistication, connectivity, and operations of the physical and related digital infrastructure systems. By rapidly collecting data in the early stages of recovery, the team plans to test the design of an integrated cyberinfrastructure system to increase the accessibility of environmental and health data for understanding the impacts from hurricane-related natural disasters. The team will test and stress the CUAHSI HydroShare data publication mechanisms and capabilities to (1) assess the spatial and temporal presence of waterborne pathogens in public water systems impacted by a natural disaster, (2) demonstrate usability of HydroShare as a clearinghouse to centralize selected datasets related to Hurricane Maria, and (3) develop a prototype cyberinfrastructure to assess environmental conditions and public health impacted by natural disasters. By rapidly collecting data in the early stages of recovery, The team plans to test the design of an integrated cyberinfrastructure system to increase the accessibility of environmental and health data for understanding the impacts from hurricane-related natural disasters. This work will develop a prototype of a software infrastructure system to advance understanding of how data-driven information can reduce the impacts of natural disaster and serve as a platform for future research. The project thus serves to not only document post-disaster conditions, but develops a process to track the impact of recovery over time, as monitored through health, power availability and water quality.

迫切需要了解自然灾害后严重洪水和基础设施损坏对公众健康的影响。有效灾害响应的一个限制是轻松快速地获取有关可用资源、社区资源需求、基线和当前环境条件的各种信息。该项目旨在利用广泛使用的协作在线共享平台 HydroShare，以公开格式扩大对环境和饮用水质量灾难响应和恢复数据的访问。 管理汇总数据的中央存储库有可能极大地促进协调所有类型的灾难响应，并改善对恢复过程的监控。项目团队将通过评估飓风玛丽亚后波多黎各特有的饮用水、环境和公共卫生问题来构建该系统的原型。通过直接与公共水务公司合作，项目团队打算描述和绘制波多黎各水资源和分配系统受损的严重程度，告知社区如何保护自己免受水特有的危害，并为重建做出贡献，以便国家为未来的飓风做好了更好的准备。发展网络和社会基础设施以了解自然灾害后饮用水污染的动态，将改善备灾和响应，并有助于全国和全世界建设有复原力的未来。有关当前需求和未来风险的数据驱动信息。该项目旨在推进开源软件基础设施，以支持科学研究和数据驱动的决策，使用原型系统，使用为调查波多黎各飓风玛丽亚后饮用水污染而开发的水质评估。波多黎各供水系统内水处理过程的广泛破坏和不确定的饮用水质量对人类健康构成了风险。然而，现有的数字基础设施无法科学地确定飓风的影响，从而为应对危机提供信息。每次自然灾害（包括玛丽亚飓风）发生后，如何提供高质量供水和支持基本人类健康的基本问题都很难回答。 该项目将存档并提供有关波多黎各和飓风玛丽亚特有的环境变量以及风暴造成的损害的数据，并将开始满足公民对时间敏感的需求。通过直接与饮用水公用事业公司合作，收集生物和无机饮用水质量样本，该项目旨在提高人们对饮用水系统受飓风玛丽亚影响的程度以及饮用水基础设施和紧急恢复状况的了解和认识。暴风雨过后的波多黎各。该项目的目标是加深对人类健康危害（例如无法获得安全烹饪用水）的严重程度与物理和相关数字基础设施系统的复杂性、连接性和操作之间的关系的了解。通过在恢复的早期阶段快速收集数据，该团队计划测试综合网络基础设施系统的设计，以提高环境和健康数据的可访问性，从而了解飓风相关自然灾害的影响。该团队将测试并强调 CUAHSI HydroShare 数据发布机制和功能，以 (1) 评估受自然灾害影响的公共水系统中水传播病原体的空间和时间存在，(2) 证明 HydroShare 作为信息交换所的可用性，以集中选定的数据与飓风玛丽亚相关的数据集，(3) 开发原型网络基础设施来评估受自然灾害影响的环境条件和公共卫生。通过在恢复的早期阶段快速收集数据，该团队计划测试综合网络基础设施系统的设计，以提高环境和健康数据的可访问性，从而了解飓风相关自然灾害的影响。 这项工作将开发软件基础设施系统的原型，以加深对数据驱动信息如何减少自然灾害影响的理解，并作为未来研究的平台。因此，该项目不仅用于记录灾后状况，还开发了一个流程来跟踪随着时间的推移恢复的影响，通过健康状况、电力可用性和水质进行监测。