8,264 research outputs found
Alternative methods for forecasting GDP
An empirical forecast accuracy comparison of the non-parametric method, known as multivariate Nearest Neighbor method, with parametric VAR modelling is conducted on the euro area GDP. Using both methods for nowcasting and forecasting the GDP, through the estimation of economic indicators plugged in the bridge equations, we get more accurate forecasts when using nearest neighbor method. We prove also the asymptotic normality of the multivariate k-nearest neighbor regression estimator for dependent time series, providing confidence intervals for point forecast in time series.Forecast, economic indicators, GDP, Euro area, VAR, multivariate k-nearest neighbor regression, asymptotic normality.
Ensemble Committees for Stock Return Classification and Prediction
This paper considers a portfolio trading strategy formulated by algorithms in
the field of machine learning. The profitability of the strategy is measured by
the algorithm's capability to consistently and accurately identify stock
indices with positive or negative returns, and to generate a preferred
portfolio allocation on the basis of a learned model. Stocks are characterized
by time series data sets consisting of technical variables that reflect market
conditions in a previous time interval, which are utilized produce binary
classification decisions in subsequent intervals. The learned model is
constructed as a committee of random forest classifiers, a non-linear support
vector machine classifier, a relevance vector machine classifier, and a
constituent ensemble of k-nearest neighbors classifiers. The Global Industry
Classification Standard (GICS) is used to explore the ensemble model's efficacy
within the context of various fields of investment including Energy, Materials,
Financials, and Information Technology. Data from 2006 to 2012, inclusive, are
considered, which are chosen for providing a range of market circumstances for
evaluating the model. The model is observed to achieve an accuracy of
approximately 70% when predicting stock price returns three months in advance.Comment: 15 pages, 4 figures, Neukom Institute Computational Undergraduate
Research prize - second plac
âDust in the wind...â, deep learning application to wind energy time series forecasting
To balance electricity production and demand, it is required to use different prediction techniques extensively. Renewable energy, due to its intermittency, increases the complexity and uncertainty of forecasting, and the resulting accuracy impacts all the different players acting around the electricity systems around the world like generators, distributors, retailers, or consumers. Wind forecasting can be done under two major approaches, using meteorological numerical prediction models or based on pure time series input. Deep learning is appearing as a new method that can be used for wind energy prediction. This work develops several deep learning architectures and shows their performance when applied to wind time series. The models have been tested with the most extensive wind dataset available, the National Renewable Laboratory Wind Toolkit, a dataset with 126,692 wind points in North America. The architectures designed are based on different approaches, Multi-Layer Perceptron Networks (MLP), Convolutional Networks (CNN), and Recurrent Networks (RNN). These deep learning architectures have been tested to obtain predictions in a 12-h ahead horizon, and the accuracy is measured with the coefficient of determination, the RÂČ method. The application of the models to wind sites evenly distributed in the North America geography allows us to infer several conclusions on the relationships between methods, terrain, and forecasting complexity. The results show differences between the models and confirm the superior capabilities on the use of deep learning techniques for wind speed forecasting from wind time series data.Peer ReviewedPostprint (published version
The Multivariate k-Nearest Neighbor Model for Dependent Variables : One-Sided Estimation and Forecasting
This article gives the asymptotic properties of multivariate k-nearest neighbor regression estimators for dependent variables belonging to Rd, d > 1. The results derived here permit to provide consistent forecasts, and confidence intervals for time series An illustration of the method is given through the estimation of economic indicators used to compute the GDP with the bridge equations. An empirical forecast accuracy comparison is provided by comparing this non-parametric method with a parametric one based on ARIMA modelling that we consider as a benchmark because it is still often used in Central Banks to nowcast and forecast the GDP.Multivariate k-nearest neighbor, asymptotic normality of the regression, mixing time series, confidence intervals, forecasts, economic indicators, euro area.
Forecasting foreign exchange rates with adaptive neural networks using radial basis functions and particle swarm optimization
The motivation for this paper is to introduce a hybrid Neural Network architecture of Particle
Swarm Optimization and Adaptive Radial Basis Function (ARBF-PSO), a time varying leverage
trading strategy based on Glosten, Jagannathan and Runkle (GJR) volatility forecasts and a
Neural Network fitness function for financial forecasting purposes. This is done by
benchmarking the ARBF-PSO results with those of three different Neural Networks
architectures, a Nearest Neighbors algorithm (k-NN), an autoregressive moving average model
(ARMA), a moving average convergence/divergence model (MACD) plus a naĂŻve strategy.
More specifically, the trading and statistical performance of all models is investigated in a
forecast simulation of the EUR/USD, EUR/GBP and EUR/JPY ECB exchange rate fixing time
series over the period January 1999 to March 2011 using the last two years for out-of-sample
testing
Forecasting of electricity prices in the Spanish electricity market using machine learning tools
The objective of this research assignment was to forecast electricity prices in the Spanish electricity market using three different machine learning techniques: k-nearest neighbours, support vector regression and artificial neural networks. The achieved results were compared and the quality of developed models was evaluated. The project was implemented in Python3.Incomin
Nearest Neighbors-Based Forecasting for Electricity Demand Time Series in Streaming
This paper presents a new forecasting algorithm for time series in streaming
named StreamWNN. The methodology has two well-differentiated stages: the algorithm
searches for the nearest neighbors to generate an initial prediction model in the batch
phase. Then, an online phase is carried out when the time series arrives in streaming. In
par-ticular, the nearest neighbor of the streaming data from the training set is computed
and the nearest neighbors, previously computed in the batch phase, of this nearest
neighbor are used to obtain the predictions. Results using the electricity consumption
time series are reported, show-ing a remarkable performance of the proposed algorithm
in terms of fore-casting errors when compared to a nearest neighbors-based benchmark
algorithm. The running times for the predictions are also remarkableMinisterio de Ciencia, InnovaciĂłn y Universidades TIN2017-88209-C
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