Litcius/Paper detail

Limiting the Failure Impact of Interdependent Power-Communication Networks via Optimal Partitioning

Rachad Atat, Muhammad Ismail, Erchin Serpedin

2022IEEE Transactions on Smart Grid13 citationsDOI

Abstract

The mutual dependency between the power grid and communication network increases the risk of large-scale cascading failure, making the mitigation of outages a difficult task. In this paper, we use the concept of joint partitioning of the power and communication subsystems by identifying the most vulnerable typed-graphlets. This results in higher-order partitions, which prevent cascading failures from propagating globally in the system. For this purpose, we first formulate the problem of partitioning the interdependent system as a large-scale optimization problem with the objective of minimizing the overall load shedding subject to: i) power flow convergence, ii) power stability, iii) partition connectivity, iv) communication congestion/delay control, and v) a high partition quality. Then, using Benders’ method, we solve the problem by decomposing it into a relaxed master problem that consists of constrained spectral clustering, and a linear subproblem that consists of minimizing the load shedding subject to power flow convergence, stability, and congestion/delay control. Simulations are conducted on an IEEE 118-bus supported by a 118-node communication network. Our investigations reveal an average of 62% decrease in damage when the system is optimally partitioned.

Topics & Concepts

LimitingInterdependenceCascading failureComputer sciencePower (physics)Reliability engineeringDistributed computingElectric power systemEngineeringPhysicsQuantum mechanicsPolitical scienceLawMechanical engineeringSmart Grid Security and ResilienceAdvanced Optical Network TechnologiesPower Line Communications and Noise