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Joint Topology Identification and State Estimation in Unobservable Distribution Grids

Hazhar Sufi Karimi, Balasubramaniam Natarajan

2021IEEE Transactions on Smart Grid64 citationsDOIOpen Access PDF

Abstract

Many distribution system operations (e.g., state estimation, control, fault detection/localization) rely on the assumption that the underlying topology is accurately defined. In general, topology identification is a challenging problem in distribution systems as these systems are unobservable with a very limited number of available measurements. In this paper, we tackle this problem by designing a compressive sensing framework that jointly estimates the systems states and network topology via an integrated mixed integer nonlinear program (MINLP) formulation. Two reformulations of the original MINLP problems are investigated. Firstly, in order to remove the nonlinearity in the MINLP formulation, a mixed integer linear programming (MILP) problem that employs auxiliary variables is derived. Furthermore, to achieve a faster solution, convex relaxation of the original formulation is derived. Finally, using a Markovian model for topology changes, prior information about system topology is used to improve topology identification particularly when a limited amount of measurements is available. Simulation results on IEEE 37-bus test feeder and IEEE 123-bus test feeder illustrate the efficiency and scalability of the proposed approaches from both state estimation and topology identification point of view (even with 30% of available data).

Topics & Concepts

UnobservableTopology (electrical circuits)Mathematical optimizationNetwork topologyNonlinear systemComputer scienceMathematicsPhysicsEconometricsCombinatoricsQuantum mechanicsOperating systemOptimal Power Flow DistributionPower System Optimization and StabilitySparse and Compressive Sensing Techniques
Joint Topology Identification and State Estimation in Unobservable Distribution Grids | Litcius