Machine learning and oil price point and density forecasting
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Outros Autores: | , , , , |
| Tipo de documento: | Artigo |
| Idioma: | por |
| Título da fonte: | Repositório Institucional do FGV (FGV Repositório Digital) |
| Texto Completo: | https://hdl.handle.net/10438/31257 |
Resumo: | The purpose of this paper is to explore machine learning techniques to forecast the oil price. In the era of big data, we investigate whether new automated tools can improve over traditional approaches in terms of forecast accuracy. Oil price point and density forecasts are built from 22 methods, including regression trees (random forest, quantile regression forest, xgboost), regularization procedures (elastic net, lasso, ridge), standard econometric models and forecast combinations, besides the structural factor model of Schwartz and Smith (2000). The database contains 315 macroeconomic and Önancial variables, used to build high-dimensional models. To evaluate the predictive power of each method, an extensive pseudo out-of-sample forecasting exercise is built, in monthly and quarterly frequencies, with horizons from one month up to Öve years. Overall, the results indicate a good performance of the machine learning methods in the short run. Up to six months, the lasso-based models, oil future prices, and the Schwartz-Smith model provide the best forecasts. At longer horizons, forecast combinations also become relevant. In several cases, the accuracy gains in respect to the random walk forecast are statistically signiÖcant and reach two-digit Ögures, in percentage terms, using the R2 out-of-sample statistic; an expressive achievement compared to the previous literature |
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Costa, Alexandre Bonnet RodriguesGaglianone, Wagner PiazzaIssler, João VictorFerreira, Pedro CavalcantiGuillen, Osmani Teixeira CarvalhoLin, YihaoEscolas::EPGE2021-11-09T17:18:25Z2021-11-09T17:18:25Z2021https://hdl.handle.net/10438/31257The purpose of this paper is to explore machine learning techniques to forecast the oil price. In the era of big data, we investigate whether new automated tools can improve over traditional approaches in terms of forecast accuracy. Oil price point and density forecasts are built from 22 methods, including regression trees (random forest, quantile regression forest, xgboost), regularization procedures (elastic net, lasso, ridge), standard econometric models and forecast combinations, besides the structural factor model of Schwartz and Smith (2000). The database contains 315 macroeconomic and Önancial variables, used to build high-dimensional models. To evaluate the predictive power of each method, an extensive pseudo out-of-sample forecasting exercise is built, in monthly and quarterly frequencies, with horizons from one month up to Öve years. Overall, the results indicate a good performance of the machine learning methods in the short run. Up to six months, the lasso-based models, oil future prices, and the Schwartz-Smith model provide the best forecasts. At longer horizons, forecast combinations also become relevant. In several cases, the accuracy gains in respect to the random walk forecast are statistically signiÖcant and reach two-digit Ögures, in percentage terms, using the R2 out-of-sample statistic; an expressive achievement compared to the previous literatureporWorking Paper Series Brasília no. 544 February 2021 p. 1-100Aprendizado de máquinaPreços de commoditiesEconomiaAprendizado do computadorBolsa de mercadoriasPrevisão econômicaMachine learning and oil price point and density forecastinginfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlereponame:Repositório Institucional do FGV (FGV Repositório Digital)instname:Fundação Getulio Vargas (FGV)instacron:FGVinfo:eu-repo/semantics/openAccessLICENSElicense.txtlicense.txttext/plain; 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| dc.title.por.fl_str_mv |
Machine learning and oil price point and density forecasting |
| title |
Machine learning and oil price point and density forecasting |
| spellingShingle |
Machine learning and oil price point and density forecasting Costa, Alexandre Bonnet Rodrigues Aprendizado de máquina Preços de commodities Economia Aprendizado do computador Bolsa de mercadorias Previsão econômica |
| title_short |
Machine learning and oil price point and density forecasting |
| title_full |
Machine learning and oil price point and density forecasting |
| title_fullStr |
Machine learning and oil price point and density forecasting |
| title_full_unstemmed |
Machine learning and oil price point and density forecasting |
| title_sort |
Machine learning and oil price point and density forecasting |
| author |
Costa, Alexandre Bonnet Rodrigues |
| author_facet |
Costa, Alexandre Bonnet Rodrigues Gaglianone, Wagner Piazza Issler, João Victor Ferreira, Pedro Cavalcanti Guillen, Osmani Teixeira Carvalho Lin, Yihao |
| author_role |
author |
| author2 |
Gaglianone, Wagner Piazza Issler, João Victor Ferreira, Pedro Cavalcanti Guillen, Osmani Teixeira Carvalho Lin, Yihao |
| author2_role |
author author author author author |
| dc.contributor.unidadefgv.por.fl_str_mv |
Escolas::EPGE |
| dc.contributor.author.fl_str_mv |
Costa, Alexandre Bonnet Rodrigues Gaglianone, Wagner Piazza Issler, João Victor Ferreira, Pedro Cavalcanti Guillen, Osmani Teixeira Carvalho Lin, Yihao |
| dc.subject.por.fl_str_mv |
Aprendizado de máquina Preços de commodities |
| topic |
Aprendizado de máquina Preços de commodities Economia Aprendizado do computador Bolsa de mercadorias Previsão econômica |
| dc.subject.area.por.fl_str_mv |
Economia |
| dc.subject.bibliodata.por.fl_str_mv |
Aprendizado do computador Bolsa de mercadorias Previsão econômica |
| description |
The purpose of this paper is to explore machine learning techniques to forecast the oil price. In the era of big data, we investigate whether new automated tools can improve over traditional approaches in terms of forecast accuracy. Oil price point and density forecasts are built from 22 methods, including regression trees (random forest, quantile regression forest, xgboost), regularization procedures (elastic net, lasso, ridge), standard econometric models and forecast combinations, besides the structural factor model of Schwartz and Smith (2000). The database contains 315 macroeconomic and Önancial variables, used to build high-dimensional models. To evaluate the predictive power of each method, an extensive pseudo out-of-sample forecasting exercise is built, in monthly and quarterly frequencies, with horizons from one month up to Öve years. Overall, the results indicate a good performance of the machine learning methods in the short run. Up to six months, the lasso-based models, oil future prices, and the Schwartz-Smith model provide the best forecasts. At longer horizons, forecast combinations also become relevant. In several cases, the accuracy gains in respect to the random walk forecast are statistically signiÖcant and reach two-digit Ögures, in percentage terms, using the R2 out-of-sample statistic; an expressive achievement compared to the previous literature |
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2021 |
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2021-11-09T17:18:25Z |
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2021-11-09T17:18:25Z |
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2021 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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article |
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https://hdl.handle.net/10438/31257 |
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https://hdl.handle.net/10438/31257 |
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por |
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por |
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info:eu-repo/semantics/openAccess |
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openAccess |
| dc.publisher.none.fl_str_mv |
Working Paper Series Brasília no. 544 February 2021 p. 1-100 |
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Working Paper Series Brasília no. 544 February 2021 p. 1-100 |
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