Agent-Based Recovery Model for Seismic Resilience Evaluation of Electrified Communities
Li Sun, Bozidar Stojadinovic, Giovanni Sansavini

TL;DR
This paper introduces an agent-based framework to evaluate seismic resilience of electrified communities by modeling the interaction between power systems and community recovery processes, providing insights for better risk management.
Contribution
It presents a novel agent-based modeling approach that captures the dynamic recovery interactions between electric power systems and communities after earthquakes.
Findings
Agent-based model highlights the interaction effects in recovery processes.
Power dispatch strategies influence community resilience.
Seismic hazard scenarios affect system recovery dynamics.
Abstract
In this paper, an agent-based framework to quantify the seismic resilience of an Electric Power Supply System (EPSS) and the community it serves is presented. Within the framework, the loss and restoration of the EPSS power generation and delivery capacity and of the power demand from the served community are used to assess the electric power deficit during the damage absorption and recovery processes. Damage to the components of the EPSS and of the community built environment is evaluated using the seismic fragility functions. The restoration of the community electric power demand is evaluated using the seismic recovery functions. However, the post-earthquake EPSS recovery process is modeled using an agent-based model with two agents, the EPSS Operator and the Community Administrator. The resilience of the EPSS-Community system is quantified using direct, EPSS-related, and societal,…
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