Fitting a stochastic fire spread model to data

Q1 Mathematics

Advances in Statistical Climatology, Meteorology and Oceanography Pub Date : 2019-04-16 DOI:10.5194/ASCMO-5-57-2019

X. J. Wang, John R. J. Thompson, W. J. Braun, D. Woolford

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引用次数: 4

Abstract

Abstract. As the climate changes, it is important to understand the effects on the environment. Changes in wildland fire risk are an important example. A stochastic lattice-based wildland fire spread model was proposed by Boychuk et al. (2007), followed by a more realistic variant (Braun and Woolford, 2013). Fitting such a model to data from remotely sensed images could be used to provide accurate fire spread risk maps, but an intermediate step on the path to that goal is to verify the model on data collected under experimentally controlled conditions. This paper presents the analysis of data from small-scale experimental fires that were digitally video-recorded. Data extraction and processing methods and issues are discussed, along with an estimation methodology that uses differential equations for the moments of certain statistics that can be derived from a sequential set of photographs from a fire. The interaction between model variability and raster resolution is discussed and an argument for partial validation of the model is provided. Visual diagnostics show that the model is doing well at capturing the distribution of key statistics recorded during observed fires.

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拟合数据的随机火灾蔓延模型

摘要随着气候的变化，了解其对环境的影响是很重要的。荒地火灾风险的变化就是一个重要的例子。Boychuket等人提出了基于Astochastic晶格的荒地火灾蔓延模型。（2007），随后提出了一个更现实的变体（Braun和Woolford，2013）。将这样的模型与遥感图像中的数据拟合可以用来提供准确的火灾蔓延风险图，但实现这一目标的中间步骤是根据在实验控制条件下收集的数据验证模型。本文对数字视频记录的小规模实验火灾数据进行了分析。讨论了数据提取、处理方法和问题，以及使用微分方程对某些统计矩的估计方法，这些统计矩可以从火灾的一组连续照片中导出。讨论了模型可变性和光栅分辨率之间的相互作用，并为模型的部分验证提供了论据。可视化诊断表明，该模型在捕捉观测到的火灾期间记录的关键统计数据的分布方面做得很好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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