Collaborative Research: Fuel Treatment Planning Optimization for Wildfire Management

合作研究：野火管理的燃料处理规划优化

• 批准号: 2002688
• 负责人: Lewis Ntaimo
• 金额: $ 28万
• 依托单位: Texas A&M Engineering Experiment Station
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-09-01 至 2024-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2002688&HistoricalAwards=false
• 关键词: Collaborative; Research; Fuel; Treatment; Planning

This award contributes to the welfare of the nation by addressing important challenges in reducing economic losses due to wildfires. Increased development and urbanization in fire-prone areas, coupled with evolving climate changes, have significantly increased the vulnerability of human communities and ecosystems to wildfires. Even with large expenditures for fire suppression efforts, annual economic losses, as well as loss of human life, due to wildfires remain high. This award supports research efforts to reduce wildfire activity by developing cost-effective methods to reduce risk through fuel treatment. Fuel treatment involves removing vegetation (i.e., fuel) from a landscape to reduce the potential and severity of large-scale fires. Fuel treatment, which forms a first line of wildfire defense, may include any combination of controlled burning, grazing, and various types of mechanical thinning. This award will contribute to better understanding of what types of fuel treatment options and associated decision-making strategies are more appropriate for particular fire-prone regions. This project will involve both graduate and undergraduate students as well as development of courses that expose students at all levels to quantitative methods to address large-scale societal problems.This award will support research into new sequential mixed-integer optimization methods to determine the appropriate location, timing and type of fuel treatments over multiple seasons in order to minimize the expected losses from wildfires in a region. The optimization framework will involve formulating and solving non-linear mathematical programming models for fuel accumulation and reduction under resource constraints. To take into account the inherent uncertainties with respect to fire ignition, the approach employs robust optimization techniques. The project will investigate analytical results that describe important structural properties of the models and will develop specialized numerical algorithms to solve realistically-sized instances of the problem. The algorithms will leverage and extend modern techniques at the intersection of robust and combinatorial optimization. The models will be calibrated and validated using historical data from the Texas A&M Forest Service, a state agency charged with overseeing forest management in the state of Texas.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.

该奖项通过解决减少野火造成的经济损失的重要挑战，为国家的福利做出贡献。火灾易发地区的发展和城市化进程加快，加上气候变化不断变化，大大增加了人类社区和生态系统对野火的脆弱性。即使有大量的支出用于灭火工作，由于野火造成的年度经济损失以及人命损失仍然很高。 该奖项支持通过开发具有成本效益的方法来减少野火活动的研究工作，以通过燃料处理降低风险。 燃料处理涉及去除植被（即，燃料），以减少大规模火灾的潜在性和严重性。 燃料处理，形成野火防御的第一道防线，可能包括控制燃烧，放牧和各种类型的机械间伐的任何组合。 该奖项将有助于更好地了解哪种类型的燃料处理方案和相关的决策战略更适合特定的火灾多发地区。 该项目将涉及研究生和本科生，并开发课程，使各级学生接触定量方法，以解决大规模的社会问题。该奖项将支持研究新的顺序混合整数优化方法，以确定多个季节的燃料处理的适当位置，时间和类型，以最大限度地减少一个地区野火的预期损失。优化框架将涉及制定和求解资源限制下燃料积累和减少的非线性数学规划模型。考虑到固有的不确定性，相对于火灾的点火，该方法采用了强大的优化技术。 该项目将研究描述模型重要结构特性的分析结果，并将开发专门的数值算法来解决实际大小的问题实例。这些算法将在鲁棒性和组合优化的交叉点上利用和扩展现代技术。该模型将被校准和验证使用的历史数据从得克萨斯州A M森林服务，一个国家机构负责监督森林管理在得克萨斯州。这个奖项反映了NSF的法定使命，并已被认为是值得的支持，通过评估使用该基金会的智力价值和更广泛的影响审查标准。