基于集合数据同化校正火锋位置的区域尺度野火蔓延预测模拟研究

M. Rochoux, C. Emery, S. Ricci, B. Cuenot, A. Trouvé
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引用次数: 16

摘要

本研究的目的是开发一个能够预测火灾蔓延动态的数据驱动野火模拟器原型。原型模拟能力的主要组成部分如下:基于水平集的火灾传播求解器,采用区域尺度的观点,将野火视为传播前沿,并基于Rothermel模型将火灾的局部传播速率(ROS)描述为植被特性和风力条件的函数;对火力前沿位置的一系列观察;以及基于集成卡尔曼滤波(EnKF)的数据同化算法。EnKF集合的成员是通过对着火位置的估计变化和/或ROS模型参数的变化产生的;数据同化算法还具有状态估计方法,其中估计目标(控制变量)是离散火线的二维坐标。原型模拟能力首先在使用合成生成的观测结果的一系列验证测试中进行评估;试验包括具有空间变化的植被特性和时间变化的风条件的代表性案例。然后在与控制草原火灾实验相对应的验证测试中评估原型的模拟能力。结果表明,数据驱动的模拟能够纠正对火锋位置的不准确预测,并随后提供对野火行为的优化预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards predictive simulation of wildfire spread at regional scale using ensemble-based data assimilation to correct the fire front position
The objective of this study is to develop a prototype data-driven wildfire simulator capable of forecasting the fire spread dynamics. The prototype simulation capability features the following main components: a level-set-based fire propagation solver that adopts a regional scale viewpoint, treats wildfires as propagating fronts, and uses a description of the local rate of spread (ROS) of the fire as a function of vegetation properties and wind conditions based on Rothermel’s model; a series of observations of the fire front position; and a data assimilation algorithm based on an Ensemble Kalman Filter (EnKF). Members of the EnKF ensemble are generated through variations in estimates of the fire ignition location and/or variations in the ROS model parameters; the data assimilation algorithm also features a state estimation approach in which the estimation targets (the control variables) are the two-dimensional coordinates of the discretized fire front. The prototype simulation capability is first evaluated in a series of verification tests using syntheticallygenerated observations; the tests include representative cases with spatially-varying vegetation properties and temporally-varying wind conditions. The prototype simulation capability is then evaluated in a validation test corresponding to a controlled grassland fire experiment. The results indicate that data-driven simulations are capable of correcting inaccurate predictions of the fire front position and of subsequently providing an optimized forecast of the wildfire behavior.
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