Super smart grids (SSGs) are a wide area transmission network that mainly uses renewable energy resources (RERs), contributing to the reduction of greenhouse gas (GHGs) emissions and supporting power infrastructure multiple countries. The SSGs comprise two-way communication between loads sources different countries, these can be mostly served with numerous types RERs tied grids. will play pivotal role in development future generation electricity. However, main challenge tackle is they intermittent nature. Due intermittency RERs, transient stability issues have become one critical research challenges SSGs. These escalated more difficult handle if vulnerable an arising kinds faults. To address problems, approaches enhance already exist current literature. After reviewing literature, flexible alternating systems (FACTS) devices proved promising improving stability. Among FACTSdevices, UPFC versatile FACTS device, which provides complete system networks form series shunt compensations. Considering this scenario, hypothetical for designed work based on interconnection two i.e., Denmark Norway, probabilistic model also system. results clearly showed insertion effective technique resilience as compared other purposed techniques contribution paper extensive simulation studies employing accurate models used analyze investigate various problems due integration many clusters

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