Using Copulas for Modeling Stochastic Dependence in Power System Uncertainty Analysis

Papaefthymiou, G.; Kurowicka, Dorota

doi:10.1109/tpwrs.2008.2004728

Cited by 382 publications

(162 citation statements)

References 16 publications

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“…In addition, different uncertainty sources may not be independent since relationships exist between different uncertain variables, due to confounding factors such as weather conditions. In [15] for example, the authors demonstrate that ignoring the stochastic dependence characterizing the multivariate uncertainty around wind farms' output, can lead to suboptimal planning and operation decisions. In a similar vein, authors in [16] present numerous composite modeling approaches for capturing complex nonlinear dependency patterns in large power system datasets.…”

Section: B Motivationmentioning

confidence: 99%

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Stochastic Dual Dynamic Programming for Operation of DER Aggregators Under Multi-Dimensional Uncertainty

Fatouros

Konstantelos

Papadaskalopoulos

et al. 2019

IEEE Trans. Sustain. Energy

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Abstract--The operation of aggregators of distributed energy resources (DER) is highly complex, since it entails the optimal coordination of a diverse portfolio of DER under multiple sources of uncertainty. The large number of possible stochastic realizations that arise, can lead to complex operational models that become problematic in real-time market environments. Previous stochastic programming approaches resort to two-stage uncertainty models and scenario reduction techniques to preserve the tractability of the problem. However, two-stage models cannot fully capture the evolution of uncertain processes and the a priori scenario selection can lead to suboptimal decisions. In this context, this paper develops a novel stochastic dual dynamic programming (SDDP) approach which does not require discretization of either the state space or the uncertain variables and can be efficiently applied to a multi-stage uncertainty model. Temporal dependencies of the uncertain variables as well as dependencies among different uncertain variables can be captured through the integration of any linear multidimensional stochastic model, and it is showcased for a porder vector autoregressive (VAR) model. The proposed approach is compared against a traditional scenario-tree-based approach through a Monte-Carlo validation process, and is demonstrated to achieve a better trade-off between solution efficiency and computational effort.Index Terms--Aggregator, distributed energy resources, multidimensional uncertainty, stochastic dual dynamic programming, vector autoregressive modeling. I. NOMENCLATURE A. IndexesIndex of time periods, running from 1 to . Index of energy storage (ES) units, running from 1 to . Index of flexible loads (FL), running from 1 to . Index of wind turbines (WT), running from 1 to . Index of micro-generators, running from 1 to . B. ParametersEnergy market price at period . Operating cost of micro-generator . Cost of demand shedding. C. VariablesPower sold to (positive)/bought from (negative) the market at period . ,Power output of micro-generator at period . Demand shed at period ., Energy level of ES unit at period . ,Power input (positive) / output (negative) of ES unit at period . , ℎChange of demand of FL at period due to load shifting. ,Demand of FL at period after load shifting., Dispatched wind power output of WT at period . II. INTRODUCTIONA. Background FUNDAMENTAL feature of the emerging Smart Grid paradigm involves the integration of a large number of distributed energy resources (DER) storage units, in order to support the economic operation of the future low-carbon power system [1]- [2]. However, the large number, small individual size and inherent stochasticity characterizing these DER have complicated system scheduling and market coordination. Furthermore, driven by the wide integration of renewable generation in power systems, there is a general consensus to move energy trading as close as possible to real-time [3]- [4], which intensifies the complexity of DER coordination. These challenges have...

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Section: B Motivationmentioning

confidence: 99%

“…The problem formulation for the subsequent stages is illustrated in (15), which constitutes a generalization of (14) and symbols are used in the same context. It is assumed that the terminal cost +1 ( , +1 ) = 0, but it could be any convex function representing future costs after .…”

Section: Problem Definitionmentioning

confidence: 99%

Stochastic Dual Dynamic Programming for Operation of DER Aggregators Under Multi-Dimensional Uncertainty

Fatouros

Konstantelos

Papadaskalopoulos

et al. 2019

IEEE Trans. Sustain. Energy

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“…Copula function [3] is effective in correlation problem. [4] connects copula theory with Monte Carlo simulation method for probabilistic load flow calculation.…”

Section: Introductionmentioning

confidence: 99%

Wind Power System Risk Assessment Based on Fuzzy Clustering and Copula Function Modeling

Liu¹,

Zhao²,

Huang³

et al. 2017

EPE

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According to the characteristics of the correlation of multiple wind farm output, this paper put forwards a modeling method based on fuzzy c-means clustering and the copula function, and correlation wind farms are inserted into IEEE-RTS79 reliability system for risk assessment. By the probabilistic load flow calculated by Monte Carlo simulation method, the probability of the accident is derived, and bus voltage and branch power flow overload risk index are defined in this paper. The results show that this method can realize the modeling of the correlation of wind power output, and the risk index can identify the weakness of the system, which can provide reference for the operation and maintenance personnel.

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“…Their superiority lies in their ability to decouple marginal distribution from dependency modelling, rendering them well-suited to capture statistical properties of datasets that do not belong to standard multivariate distributions. For example, in [2] a multivariate Gaussian copula has been applied to generate synthetic wind power output from 15 sites in the Netherlands. A statistical modelling framework based on a multivariate Gaussian copula is also proposed in [3] to obtain complete temporal dependence structure and actual distributions of wind speed time series.…”

Section: Introductionmentioning

confidence: 99%

Evaluating composite approaches to modelling high-dimensional stochastic variables in power systems

Sun

Konstantelos

Štrbac

2016

2016 Power Systems Computation Conference (PSCC)

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-The large-scale integration of intermittent energy sources, the introduction of shiftable load elements and the growing interconnection that characterizes electricity systems worldwide have led to a significant increase of operational uncertainty. The construction of suitable statistical models is a fundamental step towards building Monte Carlo analysis frameworks to be used for exploring the uncertainty state-space and supporting real-time decision-making. The main contribution of the present paper is the development of novel composite modelling approaches that employ dimensionality reduction, clustering and parametric modelling techniques with a particular focus on the use of pair copula construction schemes. Large power system datasets are modelled using different combinations of the aforementioned techniques, and detailed comparisons are drawn on the basis of Kolmogorov-Smirnov tests, multivariate two-sample energy tests and visual data comparisons. The proposed methods are shown to be superior to alternative high-dimensional modelling approaches.

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Using Copulas for Modeling Stochastic Dependence in Power System Uncertainty Analysis

Cited by 382 publications

References 16 publications

Stochastic Dual Dynamic Programming for Operation of DER Aggregators Under Multi-Dimensional Uncertainty

Stochastic Dual Dynamic Programming for Operation of DER Aggregators Under Multi-Dimensional Uncertainty

Wind Power System Risk Assessment Based on Fuzzy Clustering and Copula Function Modeling

Evaluating composite approaches to modelling high-dimensional stochastic variables in power systems

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