EAGER: SAI: Collaborative Research: Community-Driven Innovation for Resilient Bridges in Remote Communities

EAGER：SAI：协作研究：偏远社区弹性桥梁的社区驱动创新

• 批准号: 2121904
• 负责人: Davin Holen
• 金额: $ 4.09万
• 依托单位: University of Alaska Fairbanks Campus
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-10-01 至 2024-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2121904&HistoricalAwards=false
• 关键词: EAGER; SAI; Collaborative; Research; Community

Strengthening American Infrastructure (SAI) is an NSF Program seeking to stimulate human-centered fundamental and potentially transformative research that strengthens America’s infrastructure. Effective infrastructure provides a strong foundation for socioeconomic vitality and broad quality of life improvement. Strong, reliable, and effective infrastructure spurs private-sector innovation, grows the economy, creates jobs, makes public-sector service provision more efficient, strengthens communities, promotes equal opportunity, protects the natural environment, enhances national security, and fuels American leadership. To achieve these goals requires expertise from across the science and engineering disciplines. SAI focuses on how knowledge of human reasoning and decision making, governance, and social and cultural processes enables the building and maintenance of effective infrastructure that improves lives and society and builds on advances in technology and engineering.Bridges have become increasingly critical for remote communities in northern latitudes. Residents frequently need to cross rivers or lakes to hunt and gather traditional foods as well as access schools, healthcare facilities, and other essential services that are typically available in regional hubs. Travel by boat is common during warmer months, while frozen water bodies serve as transportation corridors during winter. Temperatures in these regions are increasing rapidly, causing rivers to freeze later, thaw earlier, and form thinner ice. There have been concurrent increases in snowmobile fatalities related to unstable and unpredictable ice. Reliable bridges connect communities and provide safe transportation corridors to larger settlements, which not only support indigenous subsistence livelihoods and remote access to goods and services, but also reduce weather-related deaths and injuries. This project aims to understand the importance of bridges for the well-being of remote communities and to develop a protocol for other remote communities to work together to fund, construct, monitor, and maintain bridges. More generally, this project potentially demonstrates methods for efficient and cost-effective assessments of infrastructure condition in remote, rural areas.Building and maintaining bridges in remote areas entails challenges common to both the social sciences and engineering. From a social science perspective, it is critical to understand how bridge construction impacts community well-being and how communities can work together effectively to secure the necessary financial resources for bridge construction. From an engineering perspective, critical infrastructure such as bridges is vulnerable to the effects of climate, including permafrost thawing and increased precipitation that accelerate corrosion, and rising sea levels that correspond with flooding. It is therefore essential to determine effective ways to monitor the stability and safety of a bridge after it is constructed. The researchers on this project examine three interconnected research questions. First, how does bridge construction affect subsistence activities, education, social ties, and health and safety? Second, how can drones be used effectively to monitor changes on a bridge? Third, how can communities effectively work together to identify and apply for bridge construction funding? The study is conducted in regions that vary in the success of recent efforts to fund and construct bridges. The researchers partner with local stakeholders to produce reports and recommendations that can benefit other bridge construction projects. The researchers use data from interviews and household surveys, complemented by the use of imagery from drones, which is collected on a biannual basis to monitor and evaluate long-term structural conditions. By combining perspectives from social science and engineering, the project demonstrates how infrastructure projects can align with local priorities. This alignment of resources becomes an ever-more pressing matter as the effects of long-term environmental change contribute to the degradation of critical transportation infrastructure. Additionally, this project engages local school districts to provide real-world learning opportunities for students and workforce development for teachersThis award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

加强美国基础设施 (SAI) 是一项 NSF 计划，旨在促进以人为本的基础性和潜在变革性研究，加强美国的基础设施，为社会经济活力和广泛的生活质量改善提供坚实的基础。私营部门创新、发展经济、创造就业机会、提供更多公共部门服务、加强社区、促进平等机会、保护自然环境、增强国家安全并增强美国的领导力。要实现这些目标，需要来自各个领域的专业知识。 SAI 专注于人类推理和决策、治理以及社会和文化过程的知识如何能够建设和维护有效的基础设施，从而改善生活和社会，并建立在技术和工程的进步之上。对于北纬地区的偏远社区来说，居民经常需要穿越河流或湖泊狩猎和采集传统食物，以及前往学校、医疗设施和其他在区域中心通常可以提供的基本服务。温暖的月份，同时冰冻的月份这些地区的水体在冬季充当交通走廊，导致河流结冰较晚，冰层较薄，连接社区的冰层不稳定且不可预测，导致雪地摩托死亡人数同时增加。并为较大的定居点提供安全的交通走廊，这不仅支持土著人民的生计和远程获取商品和服务，而且还减少与天气相关的死亡和伤害。该项目旨在了解桥梁对福祉的重要性。更广泛地说，该项目可能展示对偏远农村地区基础设施状况进行高效且具有成本效益的评估的方法。偏远地区的建筑和桥梁面临着社会科学和工程领域共同的挑战，从社会科学的角度来看，了解桥梁建设如何影响社区福祉以及社区如何有效合作以确保必要的财政资源至关重要。从工程角度来看，关键基础设施如桥梁很容易受到气候的影响，包括永久冻土融化和加速腐蚀的降水增加，以及与洪水相对应的海平面上升，因此必须确定有效的方法来监测桥梁建成后的稳定性和安全性。该项目的研究人员研究了三个相互关联的研究问题：第一，桥梁建设如何影响生存活动、教育、社会联系以及健康和安全？第三，如何有效地利用无人机来监测桥梁的变化？社区有效地共同努力，识别和申请桥梁建设资金？ 这项研究是在最近资助和建设桥梁的成功情况各不相同的地区进行的。研究人员与当地利益相关者合作，提出可以使其他桥梁建设项目受益的报告和建议。该项目通过访谈和家庭调查，辅以每两年收集一次的无人机图像，以监测和评估长期结构状况。通过结合社会科学和工程学的观点，该项目展示了基础设施项目如何与当地保持一致。资源的协调成为一个越来越紧迫的问题。由于长期环境变化的影响会导致关键交通基础设施的退化，该项目还与当地学区合作，为学生提供现实世界的学习机会，并为教师提供劳动力发展。该奖项反映了 NSF 的法定使命，并被认为是值得的。通过使用基金会的智力优势和更广泛的影响审查标准进行评估来获得支持。