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Distributed Outage Detection in Power Distribution Networks

Ananth Narayan Samudrala, M. Hadi Amini, Soummya Kar, Rick S. Blum

2020IEEE Transactions on Smart Grid30 citationsDOIOpen Access PDF

Abstract

Real time topology knowledge is essential for situational awareness of power distribution networks. Line outages change the topology of a distribution network. Hence, outage detection is an important task. Most of the existing outage detection algorithms are centralized, in which sensors communicate their data to a control center which performs outage detection using the received data. However, with the increasing size of the distribution network and with different areas of the network being monitored by different operators, communication is a bottleneck and scalability is a major concern. To address these issues, we propose a novel outage detection algorithm using a divide and conquer approach. First, we divide a distribution network into sub-networks, such that outage detection can be run in parallel in each sub-network independently ensuring scalability to large networks. Further, to reduce the latency, bandwidth and attenuation challenges associated with communications in a large network, we divide each sub-network into multiple control areas which communicate only with their neighbors. We employ a distributed iterative load estimation across the control areas of each sub-network and then use the load estimate for local outage detection in each control area. The performance of our algorithm is evaluated for multiple feeder models and compared against traditional centralized outage detection algorithms.

Topics & Concepts

Computer scienceScalabilityBottleneckNetwork topologyDistributed computingComputer networkDivide and conquer algorithmsBandwidth (computing)Real-time computingEmbedded systemAlgorithmDatabasePower System Optimization and StabilityOptimal Power Flow DistributionIslanding Detection in Power Systems
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