Probabilistic Framework for Online Identification of Dynamic Behavior of Power Systems With Renewable Generation

Panagiotis N Papadopoulos; Tingyan Guo; Jovica Milanovic

doi:10.1109/TPWRS.2017.2688446

Probabilistic Framework for Online Identification of Dynamic Behavior of Power Systems With Renewable Generation

Panagiotis N Papadopoulos, Tingyan Guo, Jovica Milanovic

EEE - Academic & Research

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Abstract

The paper introduces a probabilistic framework for online identification of post fault dynamic behavior of power systems with renewable generation. The framework is based on decision trees and hierarchical clustering and incorporates uncertainties associated with network operating conditions, topology changes, faults and renewable generation. In addition to identifying unstable generator groups, the developed clustering methodology also facilitates identification of the sequence in which the groups lose synchronism. The framework is illustrated on a modified version of the IEEE 68 bus test network incorporating significant portion of renewable generation.

Original language	English
Pages (from-to)	45-54
Number of pages	10
Journal	IEEE Transactions on Power Systems
Volume	33
Issue number	1
Early online date	28 Mar 2017
DOIs	https://doi.org/10.1109/TPWRS.2017.2688446
Publication status	Published - Jan 2018

Keywords

clustering
data analytics
decision trees
phasor measurement units
probabilistic transient stability
renewable generation

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abstract = "The paper introduces a probabilistic framework for online identification of post fault dynamic behavior of power systems with renewable generation. The framework is based on decision trees and hierarchical clustering and incorporates uncertainties associated with network operating conditions, topology changes, faults and renewable generation. In addition to identifying unstable generator groups, the developed clustering methodology also facilitates identification of the sequence in which the groups lose synchronism. The framework is illustrated on a modified version of the IEEE 68 bus test network incorporating significant portion of renewable generation.",

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AB - The paper introduces a probabilistic framework for online identification of post fault dynamic behavior of power systems with renewable generation. The framework is based on decision trees and hierarchical clustering and incorporates uncertainties associated with network operating conditions, topology changes, faults and renewable generation. In addition to identifying unstable generator groups, the developed clustering methodology also facilitates identification of the sequence in which the groups lose synchronism. The framework is illustrated on a modified version of the IEEE 68 bus test network incorporating significant portion of renewable generation.

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KW - data analytics

KW - decision trees

KW - phasor measurement units

KW - probabilistic transient stability

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Probabilistic Framework for Online Identification of Dynamic Behavior of Power Systems With Renewable Generation

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