Help
Cart
Skip main navigation

Available Issues

April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Robust CARA Optimization

Published Online:26 Feb 2024https://doi.org/10.1287/opre.2021.0654

References

  • Abbas AE, Howard RA (2015) Foundations of Decision Analysis (Pearson Higher Education, London, UK).Google Scholar
  • Allais M (1953) Le comportement de l’homme rationnel devant le risque: Critique des postulats et axiomes de l’école américaine. Econometrica 21(4):503–546.CrossrefGoogle Scholar
  • Anscombe FJ, Aumann RJ (1963) A definition of subjective probability. Ann. Math. Statist. 34(1):199–205.CrossrefGoogle Scholar
  • Ardestani-Jaafari A, Delage E (2016) Robust optimization of sums of piecewise linear functions with application to inventory problems. Oper. Res. 64(2):474–494.LinkGoogle Scholar
  • Arrow KJ (1965) Aspects of the Theory of Risk Bearing (Yrjö Jahnssonin Säätiö, Helsinki, Finland).Google Scholar
  • Bajeux-Besnainou I, Portait R (1998) Dynamic asset allocation in a mean-variance framework. Management Sci. 44(11-part-2):S79–S95.LinkGoogle Scholar
  • Ben-Tal A, El Ghaoui L, Nemirovski A (2009) Robust Optimization (Princeton University Press, Princeton, NJ).CrossrefGoogle Scholar
  • Ben-Tal A, El Housni O, Goyal V (2020) A tractable approach for designing piecewise affine policies in two-stage adjustable robust optimization. Math. Programming 182:57–102.CrossrefGoogle Scholar
  • Ben-Tal A, Goryashko A, Guslitzer E, Nemirovski A (2004) Adjustable robust solutions of uncertain linear programs. Math. Programming 99(2):351–376.CrossrefGoogle Scholar
  • Bertsimas D, Popescu I (2002) On the relation between option and stock prices: A convex optimization approach. Oper. Res. 50(2):358–374.LinkGoogle Scholar
  • Bertsimas D, Sim M, Zhang M (2019) Adaptive distributionally robust optimization. Management Sci. 65(2):604–618.LinkGoogle Scholar
  • Bertsimas D, Doan XV, Natarajan K, Teo CP (2010) Models for minimax stochastic linear optimization problems with risk aversion. Math. Oper. Res. 35(3):580–602.LinkGoogle Scholar
  • Bertsimas D, Hertog DD, Pauphilet J, Zhen J (2023) Robust convex optimization: A new perspective that unifies and extends. Math. Programming 200(2):877–918.CrossrefGoogle Scholar
  • Birge JR, Louveaux F (2011) Introduction to Stochastic Programming (Springer Science & Business Media, Boston).CrossrefGoogle Scholar
  • Bouakiz M, Sobel MJ (1992) Inventory control with an exponential utility criterion. Oper. Res. 40(3):603–608.LinkGoogle Scholar
  • Chen X, Zhang Y (2009) Uncertain linear programs: Extended affinely adjustable robust counterparts. Oper. Res. 57(6):1469–1482.LinkGoogle Scholar
  • Chen L, He L, Zhou YH (2023) An exponential cone programming approach for managing electric vehicle charging. Oper. Res., ePub ahead of print May 16, https://doi.org/10.1287/opre.2023.2460.Google Scholar
  • Chen X, Sim M, Sun P (2007b) A robust optimization perspective on stochastic programming. Oper. Res. 55(6):1058–1071.LinkGoogle Scholar
  • Chen Z, Sim M, Xiong P (2020) Robust stochastic optimization made easy with RSOME. Management Sci. 66(8):3329–3339.LinkGoogle Scholar
  • Chen X, Sim M, Simchi-Levi D, Sun P (2007a) Risk aversion in inventory management. Oper. Res. 55(5):828–842.LinkGoogle Scholar
  • Chen X, Sim M, Sun P, Zhang J (2008) A linear decision-based approximation approach to stochastic programming. Oper. Res. 56(2):344–357.LinkGoogle Scholar
  • Chicoisne R, Ordóñez F, Espinoza D (2018) Risk averse shortest paths: A computational study. INFORMS J. Comput. 30(3):539–553.LinkGoogle Scholar
  • Corner JL, Corner PD (1995) Characteristics of decisions in decision analysis practice. J. Oper. Res. Soc. 46(3):304–314.CrossrefGoogle Scholar
  • Dacey R (2003) The S-shaped utility function. Synthese 135:243–272.CrossrefGoogle Scholar
  • Dantzig GB (1955) Linear programming under uncertainty. Management Sci. 1(3–4):197–206.LinkGoogle Scholar
  • Delage E, Iancu DA (2015) Robust multistage decision making. INFORMS TutORials in Operations Research (INFORMS, Catonsville, MD), 20–46.Google Scholar
  • Delage E, Ye Y (2010) Distributionally robust optimization under moment uncertainty with application to data-driven problems. Oper. Res. 58(3):595–612.LinkGoogle Scholar
  • Delage E, Kuhn D, Wiesemann W (2019) “Dice”-sion–making under uncertainty: When can a random decision reduce risk? Management Sci. 65(7):3282–3301.LinkGoogle Scholar
  • Delquié P (2008) Interpretation of the risk tolerance coefficient in terms of maximum acceptable loss. Decision Anal. 5(1):5–9.LinkGoogle Scholar
  • Dowson O, Morton DP, Pagnoncelli BK (2020) Multistage Stochastic Programs with the Entropic Risk Measure (Optimization Online).Google Scholar
  • Dyer M, Stougie L (2006) Computational complexity of stochastic programming problems. Math. Programming 106(3):423–432.CrossrefGoogle Scholar
  • El Ghaoui L, Oks M, Oustry F (2003) Worst-case value-at-risk and robust portfolio optimization: A conic programming approach. Oper. Res. 51(4):543–556.LinkGoogle Scholar
  • Esfahani PM, Kuhn D (2018) Data-driven distributionally robust optimization using the Wasserstein metric: Performance guarantees and tractable reformulations. Math. Programming 171(1–2):115–166.CrossrefGoogle Scholar
  • Feng Y, Xiao B (2008) A risk-sensitive model for managing perishable products. Oper. Res. 56(5):1305–1311.LinkGoogle Scholar
  • Föllmer H, Schied A (2002) Convex measures of risk and trading constraints. Finance Stochastics 6(4):429–447.CrossrefGoogle Scholar
  • Frederick S, Loewenstein G, O’donoghue T (2002) Time discounting and time preference: A critical review. J. Econom. Literature 40(2):351–401.CrossrefGoogle Scholar
  • Garstka SJ, Wets RJB (1974) On decision rules in stochastic programming. Math. Programming 7(1):117–143.CrossrefGoogle Scholar
  • Georghiou A, Wiesemann W, Kuhn D (2015) Generalized decision rule approximations for stochastic programming via liftings. Math. Programming 152(1):301–338.CrossrefGoogle Scholar
  • Gilboa I, Schmeidler D (1989) Maxmin expected utility with non-unique prior. J. Math. Econom. 18(2):141–153.CrossrefGoogle Scholar
  • Goh J, Sim M (2010) Distributionally robust optimization and its tractable approximations. Oper. Res. 58(4):902–917.LinkGoogle Scholar
  • Hall NG, Long DZ, Qi J, Sim M (2015) Managing underperformance risk in project portfolio selection. Oper. Res. 63(3):660–675.LinkGoogle Scholar
  • Hanasusanto GA, Kuhn D, Wiesemann W (2016) A comment on “computational complexity of stochastic programming problems”. Math. Programming 159(1–2):557–569.CrossrefGoogle Scholar
  • Holmstrom B, Milgrom P (1991) Multitask principal-agent analyses: Incentive contracts, asset ownership, and job design. J. Law Econom. Organ. 7:24.CrossrefGoogle Scholar
  • Howard RA, Matheson JE (1972) Risk-sensitive Markov decision processes. Management Sci. 18(7):356–369.LinkGoogle Scholar
  • Jaillet P, Qi J, Sim M (2016) Routing optimization under uncertainty. Oper. Res. 64(1):186–200.LinkGoogle Scholar
  • Kahneman D, Tversky A (1979) Prospect theory: An analysis of decision under risk. Econometrica 47(2):363–391.CrossrefGoogle Scholar
  • Kall P, Wallace SW, Kall P (1994) Stochastic Programming (Springer, Berlin).Google Scholar
  • Kirkwood CW (2004) Approximating risk aversion in decision analysis applications. Decision Anal. 1(1):51–67.LinkGoogle Scholar
  • Knight FH (1921) Risk, Uncertainty and Profit (Houghton Mifflin, Boston).Google Scholar
  • Kydland FE, Prescott EC (1977) Rules rather than discretion: The inconsistency of optimal plans. J. Political Econom. 85(3):473–491.CrossrefGoogle Scholar
  • Laibson D (1997) Golden eggs and hyperbolic discounting. Quart. J. Econom. 112(2):443–478.CrossrefGoogle Scholar
  • Loch CH, Wu Y (2007) Behavioral Operations Management (Now Publishers, Delft, The Netherlands).Google Scholar
  • Markowitz H (1952) Portfolio selection. J. Finance 7(1):77–91.Google Scholar
  • Mehra R, Prescott EC (1985) The equity premium: A puzzle. J. Monetary Econom. 15(2):145–161.CrossrefGoogle Scholar
  • Natarajan K, Pachamanova D, Sim M (2008) Incorporating asymmetric distributional information in robust value-at-risk optimization. Management Sci. 54(3):573–585.LinkGoogle Scholar
  • Nemirovski A, Shapiro A (2007) Convex approximations of chance constrained programs. SIAM J. Optim. 17(4):969–996.CrossrefGoogle Scholar
  • Popescu I (2007) Robust mean-covariance solutions for stochastic optimization. Oper. Res. 55(1):98–112.LinkGoogle Scholar
  • Postek K, Ben-Tal A, Den Hertog D, Melenberg B (2018) Robust optimization with ambiguous stochastic constraints under mean and dispersion information. Oper. Res. 66(3):814–833.LinkGoogle Scholar
  • Pratt JW (1964) Risk aversion in the small and in the large. Econometrica 32(1/2):122–136.CrossrefGoogle Scholar
  • Prékopa A (2013) Stochastic Programming, vol. 324 (Springer Science & Business Media, Boston).Google Scholar
  • Quiggin J (1982) A theory of anticipated utility. J. Econom. Behav. Organ. 3(4):323–343.CrossrefGoogle Scholar
  • Scarf HE (1957) A min-max solution of an inventory problem. Technical report, RAND Corp., Santa Monica, CA.Google Scholar
  • See CT, Sim M (2010) Robust approximation to multiperiod inventory management. Oper. Res. 58(3):583–594.LinkGoogle Scholar
  • Shapiro A, Dentcheva D, Ruszczyński A (2014) Lectures on Stochastic Programming: Modeling and Theory (SIAM, Philadelphia).CrossrefGoogle Scholar
  • Simon HA (1955) A behavioral model of rational choice. Quart. J. Econom. 69(1):99–118.CrossrefGoogle Scholar
  • Smith JE, Winkler RL (2006) The optimizer’s curse: Skepticism and postdecision surprise in decision analysis. Management Sci. 52(3):311–322.LinkGoogle Scholar
  • Toh KC (2018) Some numerical issues in the development of SDP algorithms. INFORMS OS Today 8(2):7–20.Google Scholar
  • Varian HR (1992) Microeconomic Analysis, vol. 3 (Norton, New York).Google Scholar
  • Veronesi P (1999) Stock market overreactions to bad news in good times: A rational expectations equilibrium model. Rev. Financial Stud. 12(5):975–1007.CrossrefGoogle Scholar
  • Von Neumann J, Morgenstern O (1947) Theory of Games and Economic Behavior (Commemorative Edition) (Princeton University Press, Princeton, NJ).Google Scholar
  • Wiesemann W, Kuhn D, Sim M (2014) Distributionally robust convex optimization. Oper. Res. 62(6):1358–1376.LinkGoogle Scholar
  • Ye Q, Xie W (2021) Second-order conic and polyhedral approximations of the exponential cone: Application to mixed-integer exponential conic programs. Preprint, submitted June 16, https://arxiv.org/abs/2106.09123.Google Scholar
  • Zhang Y, Zhang Z, Lim A, Sim M (2021) Robust data-driven vehicle routing with time windows. Oper. Res. 69(2):469–485.LinkGoogle Scholar
  • Zhen J, Den Hertog D, Sim M (2018) Adjustable robust optimization via Fourier–Motzkin elimination. Oper. Res. 66(4):1086–1100.LinkGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree