太阳能富集型网络化微电网的网络韧性：端到端DER停运实时管理框架

The increasing integration of distributed energy resources (DERs), especially solar PV with distribution automation and inherent cyber-vulnerabilities, introduces new challenges in outage detection, diagnosis, and recovery due to integrated cyber-physical dependency. Traditional outage management systems (OMS) focus primarily on load-side faults and overlook DER-specific outages, particularly those caused by cyber-induced anomalies in the data or control planes. This work proposes a cyber-resilient DER Outage Management System (DEROMS) tailored for solar-rich, networked microgrids, considering the increasing integration of solar generation within distribution systems among DERs. The developed framework includes a TraceAlign-DPI module for real-time data integrity checking and hidden outage detection, a TraceAlign-RCA engine for multi-source root cause inference, and scenario-specific restoration optimization leveraging networked microgrid flexibility. A testbed built in Real-Time Digital Simulator (RTDS) validates the developed framework for physical faults and cyberattack scenarios. Results show improved accuracy in outage classification and enhanced system resilience through adaptive restoration under uncertainty.