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February 19, 2019 - May 1, 2026

Available Issues

February 19, 2019 - May 1, 2026

Deep Learning for Commodity Procurement: Nonlinear Data-Driven Optimization of Hedging Decisions

Published Online:16 Dec 2022https://doi.org/10.1287/ijoo.2022.0086

References

  • Alom MZ, Taha TM, Yakopcic C, Westberg S, Sidike P, Nasrin MS, Van Esesn BC, Awwal AAS, Asari VK (2018) The history began from alexnet: A comprehensive survey on deep learning approaches. Preprint, submitted March 3, https://arxiv.org/abs/1803.01164.Google Scholar
  • Aurelio YS, de Almeida GM, de Castro CL, Braga AP (2019) Learning from imbalanced data sets with weighted cross-entropy function. Neural Processing Lett. 50(2):1937–1949.Google Scholar
  • Balandat M, Karrer B, Jiang DR, Daulton S, Letham B, Wilson AG, Bakshy E (2020) BoTorch: A framework for efficient Monte-Carlo Bayesian optimization. Larochelle H, Ranzato M, Hadsell R, Balcan MF, Lin H, eds. Adv. Neural Inform. Processing Systems, vol. 33 (Curran Associates, Inc., Red Hook, NY), 21524–21538.Google Scholar
  • Ban GY, Rudin C (2019) The big data newsvendor: Practical insights from machine learning. Oper. Res. 67(1):90–108.LinkGoogle Scholar
  • Ben-Tal A, El Ghaoui L, Nemirovski A (2009) Robust Optimization (Princeton University Press, Princeton, NJ).Google Scholar
  • Bergmeir C, Hyndman RJ, Koo B (2018) A note on the validity of cross-validation for evaluating autoregressive time series prediction. Comput. Statist. Data Anal. 120:70–83.Google Scholar
  • Berling P, Martínez-de Albéniz V (2011) Optimal inventory policies when purchase price and demand are stochastic. Oper. Res. 59(1):109–124.LinkGoogle Scholar
  • Bertsimas D, Kallus N (2020) From predictive to prescriptive analytics. Management Sci. 66(3):1025–1044.LinkGoogle Scholar
  • Bertsimas D, Thiele A (2014) Robust and data-driven optimization: Modern decision making under uncertainty. Johnson MP, Norman B, Secomandi N, eds. INFORMS TutORials in Operations Research: Models, Methods, and Applications for Innovative Decision Making, Chapter 4, 95–122.Google Scholar
  • Bertsimas D, Dunn J, Mundru N (2019) Optimal prescriptive trees. INFORMS J. Optim. 1(2):164–183.LinkGoogle Scholar
  • Beutel AL, Minner S (2012) Safety stock planning under causal demand forecasting. Internat. J. Production Econom. 140(2):637–645.Google Scholar
  • Bhatia V, Basu S (2021) Causality-in-quantiles between crude oil and stock markets: Evidence from emerging economies. Finance Res. Lett. 40:101736.Google Scholar
  • Birge JR, Louveaux F (2011) Introduction to Stochastic Programming, 2nd ed. (Springer).Google Scholar
  • Box GE, Jenkins GM, Reinsel GC (2011) Time Series Analysis: Forecasting and Control, vol. 734 (John Wiley & Sons, Hoboken, NJ).Google Scholar
  • Buehler H, Gonon L, Teichmann J, Wood B (2019) Deep hedging. Quant. Finance 19(8):1271–1291.Google Scholar
  • CME Group (2020) Copper—A leading indicator for growth. Accessed November 10, 2022, https://www.cmegroup.com/education/whitepapers/copper-a-leading-indicator-for-growth.html.Google Scholar
  • Curin N, Kettler M, Kleisinger-Yu X, Komaric V, Krabichler T, Teichmann J, Wutte H (2021) A deep learning model for gas storage optimization. Decisions Econom. Finance 44(2):1021–1037.Google Scholar
  • Elkan C (2001) The foundations of cost-sensitive learning. Internat. Joint Conf. Artificial Intelligence, vol. 17 (Lawrence Erlbaum Associates, Ltd., Mahwah, NJ), 973–978.Google Scholar
  • Elmachtoub AN, Grigas P (2022) Smart “predict, then optimize.” Management Sci. 68(1):9–26.LinkGoogle Scholar
  • Elman JL (1990) Finding structure in time. Cognitive Sci. 14(2):179–211.Google Scholar
  • Fawaz HI, Forestier G, Weber J, Idoumghar L, Muller PA (2019) Deep learning for time series classification: A review. Data Mining Knowledge Discovery 33(4):917–963.Google Scholar
  • Futures Industry Association (2020) Annual volume survey. Accessed November 10, 2022, https://www.fia.org/annual-volume-survey.Google Scholar
  • Geman H (2005) Commodities and Commodity Derivatives: Modeling and Pricing for Agriculturals, Metals and Energy (John Wiley & Sons, Hoboken, NJ).Google Scholar
  • Geman H (2007) Mean reversion vs. random walk in oil and natural gas prices. Fu MC, Jarrow RA, Yen JYJ, Elliott RJ, eds. Advances in Mathematical Finance (Springer), 219–228.Google Scholar
  • Geman H, Smith WO (2013) Theory of storage, inventory and volatility in the LME base metals. Resource Policy 38(1):18–28.Google Scholar
  • Goodfellow I, Bengio Y, Courville A (2016) Deep Learning. (MIT Press, Cambridge, MA).Google Scholar
  • Hastie T, Tibshirani R, Tibshirani RJ (2017) Extended comparisons of best subset selection, forward stepwise selection, and the lasso. Preprint, submitted July 27, https://arxiv.org/abs/1707.08692.Google Scholar
  • He K, Zhang X, Ren S, Sun J (2016) Deep residual learning for image recognition. Proc. IEEE Conf. Comput. Vision Pattern Recognition, 770–778.Google Scholar
  • Heath D (2019) Macroeconomic factors in oil futures markets. Management Sci. 65(9):4407–4421.LinkGoogle Scholar
  • Hewamalage H, Bergmeir C, Bandara K (2020) Recurrent neural networks for time series forecasting: Current status and future directions. Internat. J. Forecasting 37(1):388–427.Google Scholar
  • Ho Y, Wookey S (2020) The real-world-weight cross-entropy loss function: Modeling the costs of mislabeling. IEEE Access 8:4806–4813.Google Scholar
  • Hochreiter S, Schmidhuber J (1997) Long short-term memory. Neural Comput. 9(8):1735–1780.Google Scholar
  • Huber J, Müller S, Fleischmann M, Stuckenschmidt H (2019) A data-driven newsvendor problem: From data to decision. Eur. J. Oper. Res. 278(3):904–915.Google Scholar
  • Hyndman R, Koehler AB, Ord JK, Snyder RD (2008) Forecasting with Exponential Smoothing: The State Space Approach (Springer Science & Business Media).Google Scholar
  • Kalymon BA (1971) Stochastic prices in a single-item inventory purchasing model. Oper. Res. 19(6):1434–1458.LinkGoogle Scholar
  • Kilian L (2009) Not all oil price shocks are alike: Disentangling demand and supply shocks in the crude oil market. Amer. Econom. Rev. 99(3):1053–1069.Google Scholar
  • Kingma DP, Ba J (2014) Adam: A method for stochastic optimization. Preprint, submitted December 22, https://arxiv.org/abs/1412.6980.Google Scholar
  • Kingsman BG (1969) Commodity purchasing. J. Oper. Res. Soc. 20(1):59–79.Google Scholar
  • Kraus M, Feuerriegel S, Oztekin A (2020) Deep learning in business analytics and operations research: Models, applications and managerial implications. Eur. J. Oper. Res. 281(3):628–641.Google Scholar
  • Mandl C, Minner S (2020) Data-driven optimization for commodity procurement under price uncertainty. Manufacturing Service Oper. Management, ePub ahead of print August 18, https://doi.org/10.1287/msom.2020.0890.Google Scholar
  • Mandl C, Nadarajah S, Minner S, Gavirneni S (2021) Data-driven storage operations: Cross-commodity backtest and structured policies. Preprint, submitted August 23, https://dx.doi.org/10.2139/ssrn.3398119.Google Scholar
  • McKinsey & Company (2019) Managing industrials’ commodity-price risk. Accessed November 10, 2022, https://www.mckinsey.com/industries/electric-power-and-natural-gas/our-insights/managing-industrials-commodity-price-risk.Google Scholar
  • Mohri M, Rostamizadeh A, Talwalkar A (2018) Foundations of Machine Learning (MIT Press, Cambridge, MA).Google Scholar
  • Notz PM, Pibernik R (2021) Prescriptive analytics for flexible capacity management. Management Sci. 68(3):1756–1775.LinkGoogle Scholar
  • Ping CK (2020) “Overhedging” oil prices lands some coronavirus-battered global airlines in further trouble. The Wall Street Journal Online (May 15), accessed November 10, 2022, https://www.wsj.com/articles/overhedging-oil-prices-lands-some-coronavirus-battered-global-airlines-in-further-trouble-11589555843.Google Scholar
  • Pirrong C (2011) Commodity Price Dynamics: A Structural Approach (Cambridge University Press).Google Scholar
  • Porteus EL (2002) Foundations of Stochastic Inventory Theory, 1st ed. (Stanford University Press, Stanford, CA).Google Scholar
  • Powell WB (2022) Reinforcement Learning and Stochastic Optimization: A Unified Framework for Sequential Decisions (John Wiley & Sons, Hoboken, NJ).Google Scholar
  • Schwartz ES (1997) The stochastic behavior of commodity prices: Implications for valuation and hedging. J. Finance 52(3):923–973.Google Scholar
  • Schwartz ES, Smith JE (2000) Short-term variations and long-term dynamics in commodity prices. Management Sci. 46(7):893–911.LinkGoogle Scholar
  • Secomandi N, Kekre S (2014) Optimal energy procurement in spot and forward markets. Manufacturing Service Oper. Management 16(2):270–282.LinkGoogle Scholar
  • Smyl S (2020) A hybrid method of exponential smoothing and recurrent neural networks for time series forecasting. Internat. J. Forecasting 36(1):75–85.Google Scholar
  • Snoek J, Larochelle H, Adams RP (2012) Practical Bayesian optimization of machine learning algorithms. Adv. Neural Inform. Processing Systems, 2951–2959.Google Scholar
  • Srivastava N, Hinton G, Krizhevsky A, Sutskever I, Salakhutdinov R (2014) Dropout: A simple way to prevent neural networks from overfitting. J. Machine Learn. Res. 15(1):1929–1958.Google Scholar
  • Wang Y, Wu C, Yang L (2015) Hedging with futures: Does anything beat the naïve hedging strategy? Management Sci. 61(12):2870–2889.LinkGoogle Scholar
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