EAGER: IMPRESS-U Adaptive Infrastructure Recovery from Repeated Shocks through Resilience Stress Testing in Ukraine

EAGER：IMPRESS-U 自适应基础设施通过乌克兰的弹性压力测试从反复冲击中恢复

• 批准号: 2402580
• 负责人: Rafael Munoz-Carpena
• 金额: $ 29.83万
• 依托单位: University of Florida
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2024
• 资助国家: 美国
• 起止时间: 2024-05-01 至 2026-04-30
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2402580&HistoricalAwards=false
• 关键词: EAGER; IMPRESS; Adaptive; Infrastructure; Recovery

This IMPRESS-U project is jointly funded by NSF, Estonian Research Council (ETAG), Research Council of Lithuania (LMT), National Science Center of Poland (NCN), US National Academy of Sciences, and Office of Naval Research Global (DoD). The research will be performed in a multilateral international partnership that unites the University of Florida (US), G.E. Pukhov Institute for Modelling in Energy Engineering of the NAS of Ukraine (PIMEE), Kiyv (Ukraine), National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute” (Ukraine), Institute of Theoretical & Applied Informatics, Gliwice (Poland), Mykolas Romeris University, Vilnius (Lithuania), and Tallinn University of Technology, Tallinn (Estonia). US portion of the collaborative effort will be co-funded by NSF OISE/OD and CISE/CNS. NON-TECHNICAL SUMMARY This funding is awarded through an EAGER proposal, supporting the vital development of the Resilience-Recovery Under Attack (RRUA) framework. Originating in response to global disruptions like the COVID-19 pandemic, supply chain vulnerabilities, and geopolitical conflicts, the project holds significant importance. Focusing on Ukraine's digital services sector, which has faced persistent external shocks due to the ongoing conflict, this initiative is both timely and crucial. The primary objective is to establish connections between Ukrainian scientists and their counterparts in the West, mitigating the isolation caused by geopolitical tensions and fostering a collaborative research network dedicated to systemic resilience. Involving an international partnership comprising the USA, Ukraine, Poland, Estonia, and Lithuania, the project adopts an interdisciplinary approach, leveraging network science, resilience analytics, explainable AI, and digital twin technologies. Beyond enhancing Ukraine's infrastructural resilience, the project aspires to serve as a blueprint for global resilience strategies in analogous contexts.To achieve broader impact, the Dallas-Fort Worth airport will function as the initial RRUA testbed for co-development and training. The RRUA concept and methods will undergo testing in Poland, Estonia, and Lithuania's energy and communications infrastructure, culminating in their application to Ukraine's digital infrastructure. In addition to advancing research goals, this project is steadfast in its commitment to promoting inclusivity in science and engineering. It actively involves junior Ukrainian researchers, facilitating their integration into the global scientific community. Educational opportunities will be offered through digital platforms, workshops, and simulation games, aligning with EU-Ukraine events. These initiatives aim to provide a distinctive learning experience, nurturing a new generation of scientists equipped with the skills to address complex resilience challenges and aligning with the NSF's mission to advance national health, prosperity, and welfare.TECHNICAL SUMMARYThis NSF EAGER project award aims to advance resilience science by developing the Resilience-Recovery Under Attack (RRUA) framework, with a focus on the unique challenges faced by Ukraine's digital services sector. The RRUA framework introduces an innovative and comprehensive approach to resilience science, targeting the complex interdependencies of interconnected infrastructural systems subjected to dynamic threats and shocks. Hence, the project represents a significant leap from traditional resilience strategies that emphasize prevention, instead integrating recovery as a core component of the resilience paradigm. We aim to validate the hypothesis that the recovery and resilience of systems under threats and system response stages to diverse shocks can be quantified via stress-testing of interconnected networks representing their systemic functions. We aim to provide novel insights into the lifecycle of resilience under external shocks during acute and persistent shocks, and in particular quantify the key controllers of each of the resilience-response phases to inform efficient recovery interventions. By employing a multi-faceted methodology combining network science, resilience analytics, explainable AI (xAI), and digital twin technologies, the project seeks to redefine systemic recovery modeling and adaptation of interconnected infrastructure across Ukraine, benefiting from the shared knowledge of our proposed international partnership with the USA, Ukraine, Poland, Estonia, and Lithuania. The project utilizes a three-pronged approach: refining RRUA using data-rich analyses at a US-based international airport, testing concepts and methods in Poland, Estonia and Lithuania testbeds, including human behavior components of vulnerability, and subsequently integrating RRUA within Ukraine's cyber and energy infrastructure systems in the presence of dynamic threats and variable data. Success could revolutionize Ukraine's prospects for recovery, positioning it as a global example for resilience strategies. Our research design will collaboratively explore how to operationalize our RRUA framework across varied settings.This 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.

该 IMPRESS-U 项目由 NSF、爱沙尼亚研究委员会 (ETAG)、立陶宛研究委员会 (LMT)、波兰国家科学中心 (NCN)、美国国家科学院和全球海军研究办公室 (DoD) 联合资助该研究将在佛罗里达大学（美国）、基辅乌克兰国家能源工程建模研究所 (PIMEE) 的多边国际合作伙伴关系下进行。 （乌克兰）、乌克兰国立技术大学“伊戈尔·西科斯基基辅理工学院”（乌克兰）、理论与应用信息学研究所，格利维采（波兰）、尼古拉斯·罗梅里斯大学，维尔纽斯（立陶宛）和塔林理工大学，塔林（爱沙尼亚） ) ) 的美国部分将由 NSF OISE/OD 和 CISE/CNS 共同资助。非技术摘要 这笔资金是通过 EAGER 提案授予的，用于支持攻击下恢复能力 (RRUA) 框架的重要发展，该框架旨在应对 COVID-19 大流行、供应链脆弱性和地缘政治冲突等全球性破坏。该项目针对因持续冲突而面临持续外部冲击的乌克兰数字服务行业具有重要意义，其主要目标是在乌克兰科学家之间建立联系。该项目涉及美国、乌克兰、波兰、爱沙尼亚和立陶宛等国家的国际合作伙伴关系，采用跨学科方法，充分发挥其在西方的盟友的作用，缓解地缘政治紧张局势造成的孤立，并建立一个致力于系统复原力的合作研究网络。除了增强乌克兰的基础设施复原力之外，该项目还致力于成为类似背景下的全球复原力战略的蓝图。达拉斯-沃斯堡机场将作为联合开发和培训的初始 RRUA 测试平台。 RRUA 概念和方法将在波兰、爱沙尼亚和立陶宛的能源和通信基础设施中进行测试，最终应用于乌克兰的数字基础设施。为了推进研究目标，该项目坚定不移地致力于促进科学和工程的包容性，它积极让乌克兰初级研究人员参与其中，并通过数字平台提供教育机会，促进他们融入全球科学界。这些举措与欧盟-乌克兰活动相结合，旨在提供独特的学习体验，培养具备应对复杂复原力挑战技能的新一代科学家，并与国家科学基金会促进国家健康和繁荣的使命相一致。技术摘要 NSF EAGER 项目奖项旨在通过开发攻击下的恢复恢复 (RRUA) 框架来推进恢复科学，重点关注乌克兰数字服务部门面临的独特挑战。 RRUA 框架引入了一种创新且全面的复原力科学方法，针对受到动态威胁和冲击的相互关联的基础设施系统的复杂相互依赖性。因此，该项目代表了传统复原力战略的重大飞跃，传统复原力战略强调预防，而不是将恢复作为核心。我们的目标是验证这样的假设：受到威胁的系统的恢复和恢复能力以及系统对不同冲击的响应阶段可以通过代表其系统功能的互连网络的压力测试来量化。生命周期通过采用结合网络科学、复原力分析和可解释的人工智能（xAI）的多方面方法，研究急性和持续性冲击期间外部冲击下的复原力，特别是量化每个复原力响应阶段的关键控制因素，以便为有效的恢复干预措施提供信息。 ）和数字孪生技术，该项目旨在受益于我们与美国、乌克兰、波兰、爱沙尼亚和立陶宛拟议的国际伙伴关系的共享知识，重新定义系统恢复模型和整个乌克兰互联基础设施的适应。采用三管齐下的方法：在美国国际机场使用丰富的数据分析完善 RRUA，在波兰、爱沙尼亚和立陶宛的测试平台测试概念和方法，包括脆弱性的人类行为组成部分，以及随后将 RRUA 整合到乌克兰的网络和能源中我们的研究设计将共同探索如何实施我们的 RRUA 框架。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。