The super-turbine wind power conversion paradox: using machine learning to reduce errors caused by Jensen's inequality

McCandless, Tyler; Haupt, Sue Ellen

doi:10.5194/wes-4-343-2019

Cited by 7 publications

(4 citation statements)

References 12 publications

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“…The final prediction for a continuous variable, such as cloud fraction, is the mean of the instances in the final leaf node for an instance that follows the rules of the branches down to the final leaf. This is illustrated by the green decision nodes in Figure 2 that depicts a random forecast model, which is described in further detail in [23]. In this illustration, the darker boxes indicate how a RF model would make a prediction for a given instance by following the set of rules in each tree and computing the ensemble average of the prediction from each tree in the forest.…”

Section: Random Forest Algorithmmentioning

confidence: 99%

Examining the Potential of a Random Forest Derived Cloud Mask from GOES-R Satellites to Improve Solar Irradiance Forecasting

McCandless

Jiménez

2020

Energies

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In order for numerical weather prediction (NWP) models to correctly predict solar irradiance reaching the earth’s surface for more accurate solar power forecasting, it is important to initialize the NWP model with accurate cloud information. Knowing where the clouds are located is the first step. Using data from geostationary satellites is an attractive possibility given the low latencies and high spatio-temporal resolution provided nowadays. Here, we explore the potential of utilizing the random forest machine learning method to generate the cloud mask from GOES-16 radiances. We first perform a predictor selection process to determine the optimal predictor set for the random forest predictions of the horizontal cloud fraction and then determine the appropriate threshold to generate the cloud mask prediction. The results show that the random forest method performs as well as the GOES-16 level 2 clear sky mask product with the ability to customize the threshold for under or over predicting cloud cover. Further developments to enhance the cloud mask estimations for improved short-term solar irradiance and power forecasting with the MAD-WRF NWP model are discussed.

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Section: Random Forest Algorithmmentioning

confidence: 99%

Examining the Potential of a Random Forest Derived Cloud Mask from GOES-R Satellites to Improve Solar Irradiance Forecasting

McCandless

Jiménez

2020

Energies

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“…In multi-turbine wind plants, the use of a power curve does not account for losses that arise due to turbine wakes. Also, because we limit our wind speed estimates to a single time series for each plant and meteorological model, our estimate does not account for variation of wind speeds across turbines within each plant, which is important to consider given the non-linear nature of turbine power curves 51 . Further, some manufactures have power curves with characteristics that are slightly different from our basic description, such as mildly downward sloping curves above the rated speed.…”

Section: Methodsmentioning

confidence: 99%

A database of hourly wind speed and modeled generation for US wind plants based on three meteorological models

Millstein,

Jeong,

Ancell

et al. 2023

Sci Data

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In 2022, wind generation accounted for ~10% of total electricity generation in the United States. As wind energy accounts for a greater portion of total energy, understanding geographic and temporal variation in wind generation is key to many planning, operational, and research questions. However, in-situ observations of wind speed are expensive to make and rarely shared publicly. Meteorological models are commonly used to estimate wind speeds, but vary in quality and are often challenging to access and interpret. The Plant-Level US multi-model WIND and generation (PLUSWIND) data repository helps to address these challenges. PLUSWIND provides wind speeds and estimated generation on an hourly basis at almost all wind plants across the contiguous United States from 2018–2021. The repository contains wind speeds and generation based on three different meteorological models: ERA5, MERRA2, and HRRR. Data are publicly accessible in simple csv files. Modeled generation is compared to regional and plant records, which highlights model biases and errors and how they differ by model, across regions, and across time frames.

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“…Several supervised machine learning classification method algorithms were chosen to get the best accuracy value [9], [10]. The algorithms are logistic regression (LR) [11], [12], naive bayes (NB) [13], [14], random forest (RF) [15], [16], k-nearest neighbor (KNN) [17], [18], and support vector machine (SVM) [19], [20]. Selected five classifications supervised machine learning based on each algorithm have on different dimension metrics there are parametric-simple for LR and NB, parametric-complex for SVM, non-parametric-simple for KNN, and non-parametic-complex for RF.…”

Section: Methodsmentioning

confidence: 99%

Analysis of machine repair time prediction using machine learning at one of leading footwear manufacturers in Indonesia

Purmala

Sudarto

2023

IJ-AI

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Machine breakdowns in the production line mostly finish in more than 18 minutes, since the machine that needs repair more time is done on the production line, not in the machine warehouse. Historical machine breakdown data is digitally recorded through the Andon system, but it is still not being used adequately to aid decision-making. This research introduces an analysis of historical machine breakdown data to provide predictions of repair time intervals with a focus on finding the best algorithm accuracy. The research method uses machine learning techniques with a classification model. There are five algorithms used: logistic regression (LR), naive bayes (NB), k-nearest neighbor (KNN), support vector machine (SVM), and random forest (RF). The results of this study prove that historical machine breakdown data can be optimized to predict machine repair time intervals in the production line. The accuracy of LR algorithm is slightly better than the other algorithms. Based on the receiver operating characteristic–area under curve (ROC-AUC) performance evaluation metric, the quality value of the accuracy of LR model is satisfied with a percentage of 69% with a difference of 0.5% between the train and test data.

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The super-turbine wind power conversion paradox: using machine learning to reduce errors caused by Jensen's inequality

Cited by 7 publications

References 12 publications

Examining the Potential of a Random Forest Derived Cloud Mask from GOES-R Satellites to Improve Solar Irradiance Forecasting

Examining the Potential of a Random Forest Derived Cloud Mask from GOES-R Satellites to Improve Solar Irradiance Forecasting

A database of hourly wind speed and modeled generation for US wind plants based on three meteorological models

Analysis of machine repair time prediction using machine learning at one of leading footwear manufacturers in Indonesia

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