Identifying power outage hotspots to support risk management planning.

IF 3 3区医学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Risk Analysis Pub Date : 2024-10-09 DOI:10.1111/risa.17663

Kaia Stødle, Roger Flage, Seth D Guikema

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引用次数: 0

Abstract

Secure and reliable power systems are vital for modern societies and economies. While there is a focus in the literature on predicting power outages caused by severe weather events, relatively little literature exists on identifying hot spots, locations where outages occur repeatedly and at a higher rate than expected. Reliably identifying hotspots can provide critical input for risk management efforts by power utilities, helping them to focus scarce resources on the most problematic portions of their system. In this article, we show how existing work on Moran's I spatial statistic can be adapted to identify power outage hotspots based on the types and quantities of data available to utilities in practice. The local Moran's I statistic was calculated on a grid cell level and a set of criteria were used to filter out which grid cells are considered hotspots. The hotspot identification approach utilized in this article is an easy method for utilities to use in practice, and it provides the type of information needed to directly support utility decisions about prioritizing areas of a power system to inspect and potentially reinforce.

查看原文本刊更多论文

确定停电热点，支持风险管理规划。

安全可靠的电力系统对现代社会和经济至关重要。虽然文献重点关注预测恶劣天气事件造成的停电，但关于识别热点（即停电事件反复发生且发生率高于预期的地点）的文献相对较少。可靠地识别热点可为电力公司的风险管理工作提供关键信息，帮助他们将稀缺资源集中用于系统中问题最严重的部分。在本文中，我们将展示如何根据电力公司实际可用的数据类型和数量，对现有的 Moran's I 空间统计工作进行调整，以识别停电热点。在网格单元层面计算本地莫兰 I 统计量，并使用一系列标准筛选出哪些网格单元被视为热点。本文中使用的热点识别方法对于电力公司来说是一种易于在实践中使用的方法，它提供了所需的信息类型，可直接支持电力公司决定优先检查和潜在加固电力系统的区域。

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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来源期刊

Risk Analysis 数学-数学跨学科应用

CiteScore

7.50

自引率

10.50%

发文量

183

审稿时长

4.2 months

期刊介绍： Published on behalf of the Society for Risk Analysis, Risk Analysis is ranked among the top 10 journals in the ISI Journal Citation Reports under the social sciences, mathematical methods category, and provides a focal point for new developments in the field of risk analysis. This international peer-reviewed journal is committed to publishing critical empirical research and commentaries dealing with risk issues. The topics covered include: • Human health and safety risks • Microbial risks • Engineering • Mathematical modeling • Risk characterization • Risk communication • Risk management and decision-making • Risk perception, acceptability, and ethics • Laws and regulatory policy • Ecological risks.