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Hurricane and Storm Surges-Induced Power System Vulnerabilities and their Socioeconomic Impact
This paper introduces a probabilistic framework to quantify community vulnerability towards power losses due to extreme weather events.
Resilience-driven Planning of Electric Power Systems Against Extreme Weather Events
With the increasing frequency of natural disasters, operators must prioritize improvements in the existing electric power grid infrastructure to enhance the resilience of the grid.
Resilience assessment and planning in power distribution systems:Past and future considerations
Moreover, this work provides an in-depth analysis of existing research on planning solutions to enhance distribution system resilience and support power distribution system operators and planners in developing effective mitigation strategies.
Sensitivity Analyses of Resilience-oriented Risk-averse Active Distribution Systems Planning
The three main parameters used in this work for sensitivity analysis are the number of scenarios, risk preference, and planning budget allocation.
A Risk-Driven Probabilistic Approach to Quantify Resilience in Power Distribution Systems
It is of growing concern to ensure resilience in power distribution systems to extreme weather events.
Spatiotemporal Impact Assessment of Hurricanes on Electric Power Systems
Due to the highly uncertain nature of hurricanes in both spatial and temporal dimensions, it is essential to quantify the effect of such hurricanes on a power grid.
