Characterisation of Large Changes in Wind Power for the Day-Ahead Market Using a Fuzzy Logic Approach

Martínez-Arellano, Giovanna; Nolle, Lars; Cant, Richard; Lotfi, Ahmad; Windmill, Christopher

doi:10.1007/s13218-014-0322-3

Cited by 8 publications

(9 citation statements)

References 30 publications

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“…Some applications of the ramp function were described in [50] and [53]. In this line, a fuzzy approach for wind power ramp characterisation was presented in MartnezArellano et al [62]. Bossavy et al [63] proposed a comprehensive framework for evaluating and comparing different continuous-valued approaches for wind power ramp characterisation.…”

Section: Ramp Definitionmentioning

confidence: 99%

See 1 more Smart Citation

A review on the recent history of wind power ramp forecasting

Gallego-Castillo

Cuerva-Tejero

López-García

2015

Renewable and Sustainable Energy Reviews

151

113

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Forecasting large and fast variations of wind power (the so-called ramps) helps achieve the integration of large amounts of wind energy. This paper presents a survey on wind power ramp forecasting, reflecting the increasing interest on this topic observed since 2007. Three main aspects were identified from the literature: wind power ramp definition, ramp underlying meteorological causes and experiences in predicting ramps. In this framework, we additionally outline a number of recommendations and potential lines of research.

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Section: Ramp Definitionmentioning

confidence: 99%

“…Table 1 References of the works considered in Fig. 1 [57][58][59][60] - [61,62] [ [63][64][65][66] *Denotes data up to August 2014.…”

Section: Introductionmentioning

confidence: 99%

A review on the recent history of wind power ramp forecasting

Gallego-Castillo

Cuerva-Tejero

López-García

2015

Renewable and Sustainable Energy Reviews

151

113

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“…This is partly due to the wide variety of timescales over which they occur, ranging from a few minutes up to several hours (Worsnop et al, 2018). At the wind farm scale, numerical weather prediction models struggle with forecasting wind power fluctuations occurring within an hour and often fail to predict accurately the timing and the amplitude of the ramps (Zack et al, 2011;Magerman, 2014). In practice, the vast majority of operational short-term wind forecasts rely primarily on variations of the persistence method (or "naive predictor") (Wurth et al, 2018), which assumes that there will be no variation between the current conditions and the conditions at the time of the forecast.…”

Section: Introductionmentioning

confidence: 99%

“…To alleviate these shortcomings, the so-called "ramp functions" have been introduced, which provide an estimation of the ramp intensity at each time step. Gallego et al (2013Gallego et al ( , 2014 first introduced a ramp function based on a continuous wavelet transform (the "Haar" wavelet) of a wind power time series, and Martínez-Arellano et al (2014) proposed a ramp function based on a fuzzy-logic approach to characterise ramps for the dayahead market. More recently, a continuous wavelet transform (CWT) based on a Gaussian wavelet was used by Hannesdóttir and Kelly (2019).…”

Section: Introductionmentioning

confidence: 99%

Characterisation of intra-hourly wind power ramps at the wind farm scale and associated processes

et al. 2021

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Abstract. One of the main factors contributing to wind power forecast inaccuracies is the occurrence of large changes in wind power output over a short amount of time, also called “ramp events”. In this paper, we assess the behaviour and causality of 1183 ramp events at a large wind farm site located in Victoria (southeast Australia). We address the relative importance of primary engineering and meteorological processes inducing ramps through an automatic ramp categorisation scheme. Ramp features such as ramp amplitude, shape, diurnal cycle and seasonality are further discussed, and several case studies are presented. It is shown that ramps at the study site are mostly associated with frontal activity (46 %) and that wind power fluctuations tend to plateau before and after the ramps. The research further demonstrates the wide range of temporal scales and behaviours inherent to intra-hourly wind power ramps at the wind farm scale.

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“…In ML various concepts can be used such as fuzzy logic (Monfared et al, 2009), neural networks (El-Fouly and El-Saadany, 2008, Daraeepour and Echeverri, 2014, Yesilbodak et al, 2017 and statistical models (Miranda and Dunn, 2006, Jursa and Rohrig, 2008, Zhou et al, 2011. Regression models using neural networks along with techniques like particle swarm optimization, wavelet transform (Martnez-Arellano et al, 2014), REP tree, M5P tree, bagging tree (Kusiak et al, 2009b, Kusiak andZhang, 2010), K-nearest neighbor algorithm (Jursa andRohrig, 2008, Treiber et al, 2016), principal component analysis, moving average models (De Giorgi et al, 2009, Vargas et al, 2010, Markov chain (Kusiak et al, 2009a, Treiber et al, 2016 have been used for wind analysis. Support Vector Machines (SVM) and its variation, Least Square Support Vector Machines (LSSVM) have also been used for forecasting wind speed (De Giorgi et al, 2009, De Giorgi et al, 2014.…”

Section: Introductionmentioning

confidence: 99%

Comparative Analysis of Lstm, Rf and SVM Architectures for Predicting Wind Nature for Smart City Planning

Harbola

Coors

2019

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. Meteorological data and its effect have been the attention of the researchers of the smart city planning for thorough utilization and management of resources, that help in effective government management, convenient public services and sustainable industrial development. Renewable sources of energy like wind, solar, are being integrated into city planning to improve environmental quality. Wind energy is utilized through wind turbines and requires foreknowledge of wind parameters like speed and direction. The aim of this paper is to predict dominant wind speed and direction for time-series wind dataset, that can be incorporated into city planning for selecting suitable sites for wind turbines. This paper proposes three one-dimensional (1D) algorithms using Long Short Term Memory (LSTM), Random Forest (RF) and Support Vector Machine (SVM) for dominant wind speed and direction prediction. The proposed 1D LSTM (1DLSTM), RF (1DRF) and SVM (1DSVM) take successive time values in terms of wind speed and direction as input and predict the future dominant speed and direction, separately. The proposed algorithms are trained and tested using historical wind dataset of Stuttgart and Netherlands respectively. Prediction using 1DLSTM results in total accuracies reaching up to 93.9% and 94.7%, up to 92.8% and 93.8% using 1DSVM and up to 88.7% and 89.3% using 1DRF for speed and direction, respectively. Thus, prediction of wind nature using the proposed algorithms, will give city planners advanced knowledge of wind conditions.

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Characterisation of Large Changes in Wind Power for the Day-Ahead Market Using a Fuzzy Logic Approach

Cited by 8 publications

References 30 publications

A review on the recent history of wind power ramp forecasting

A review on the recent history of wind power ramp forecasting

Characterisation of intra-hourly wind power ramps at the wind farm scale and associated processes

Comparative Analysis of Lstm, Rf and SVM Architectures for Predicting Wind Nature for Smart City Planning

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