A methodology based on Recurrence Quantification Analysis (RQA) for the clustering of generator dynamic behavior is presented. RQA is a nonlinear data analysis method, which is used in this paper to extract features from measured generator rotor angle responses that can be used to cluster generators in groups with similar oscillatory behavior. The possibility of extracting features relevant to damping and frequency of oscillations present in power systems is studied. The k-Means clustering algorithm is further used to cluster the generator responses in groups exhibiting well or poorly damped oscillations, based on the extracted features from RQA. The effectiveness of RQA is investigated using simulated responses from a modified version of t...
This paper introduces a framework for online identification of cascading events in power systems wit...
In the study of large interconnected power systems, it is essential to aggregate, the power system i...
Establishing cleaner energy generation therefore improving the sustainability of the power system is...
This paper introduces a hybrid-methodology for online identification and clustering of generator osc...
The paper introduces a probabilistic framework for online identification of post fault dynamic behav...
This paper introduces a probabilistic framework for transient stability assessment (TSA) of power sy...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Slow coherency is one of the most relevant concepts used in power systems dynamics to group generato...
Coherency group identification is an integral constituent part of the wider field of reduction techn...
Identification of coherent generators (CGs) is necessary for the area-based monitoring and protectio...
Over the last decade, data has become a highly valuable resource. Electrical power grids deal with l...
Detection of groups of coherent generators is very important for balanced and optimal power system s...
AbstractRecurrence plot and recurrence quantification analysis (RQA) are introduced in the research ...
Renewable sources are increasing their presence in power systems to achieve the goal of decarbonizin...
Given time series data from multiple power generators containing measurements of phase angle taken a...
This paper introduces a framework for online identification of cascading events in power systems wit...
In the study of large interconnected power systems, it is essential to aggregate, the power system i...
Establishing cleaner energy generation therefore improving the sustainability of the power system is...
This paper introduces a hybrid-methodology for online identification and clustering of generator osc...
The paper introduces a probabilistic framework for online identification of post fault dynamic behav...
This paper introduces a probabilistic framework for transient stability assessment (TSA) of power sy...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Slow coherency is one of the most relevant concepts used in power systems dynamics to group generato...
Coherency group identification is an integral constituent part of the wider field of reduction techn...
Identification of coherent generators (CGs) is necessary for the area-based monitoring and protectio...
Over the last decade, data has become a highly valuable resource. Electrical power grids deal with l...
Detection of groups of coherent generators is very important for balanced and optimal power system s...
AbstractRecurrence plot and recurrence quantification analysis (RQA) are introduced in the research ...
Renewable sources are increasing their presence in power systems to achieve the goal of decarbonizin...
Given time series data from multiple power generators containing measurements of phase angle taken a...
This paper introduces a framework for online identification of cascading events in power systems wit...
In the study of large interconnected power systems, it is essential to aggregate, the power system i...
Establishing cleaner energy generation therefore improving the sustainability of the power system is...