Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

Distorted Optimal Transport

Published Online:24 Jul 2025https://doi.org/10.1287/moor.2024.0591

References

  • [1] Abdellaoui M (2000) Parameter-free elicitation of utility and probability weighting functions. Management Sci. 46(11):1497–1512.LinkGoogle Scholar
  • [2] Artzner P, Delbaen F, Eber J-M, Heath D (1999) Coherent measures of risk. Math. Finance 9(3):203–228.CrossrefGoogle Scholar
  • [3] Beiglböck M, Juillet N (2016) On a problem of optimal transport under marginal martingale constraints. Ann. Probab. 44(1):42–106.CrossrefGoogle Scholar
  • [4] Beiglböck M, Henry-Labordère P, Penkner F (2013) Model-independent bounds for option prices: A mass transport approach. Finance Stochastics 17(3):477–501.CrossrefGoogle Scholar
  • [5] Bernard C, Jiang X, Wang R (2014) Risk aggregation with dependence uncertainty. Insurance: Math. Econom. 54:93–108.CrossrefGoogle Scholar
  • [6] Blanchet J, Murthy K (2019) Quantifying distributional model risk via optimal transport. Math. Oper. Res. 44(2):565–600.LinkGoogle Scholar
  • [7] Blanchet J, Lam H, Liu Y, Wang R (2024) Convolution bounds on quantile aggregation. Oper. Res., ePub ahead of print October 21, https://doi.org/10.1287/opre.2021.0765.LinkGoogle Scholar
  • [8] Cheung KC (2010) Characterizing a comonotonic random vector by the distribution of the sum of its components. Insurance: Math. Econom. 47(2):130–136.CrossrefGoogle Scholar
  • [9] Cont R, Deguest R, Scandolo G (2010) Robustness and sensitivity analysis of risk measurement procedures. Quant. Finance 10(6):593–606.CrossrefGoogle Scholar
  • [10] Delbaen F (2012) Monetary Utility Functions (Osaka University Press, Osaka, Japan).Google Scholar
  • [11] Denneberg D (1994) Non-Additive Measure and Integral, Theory and Decision Library, vol. 27 (Springer, Dordrecht, Netherlands).CrossrefGoogle Scholar
  • [12] Dhaene J, Kukush A, Linders D, Tang Q (2012) Remarks on quantiles and distortion risk measures. Eur. Actuarial J. 2(2):319–328.CrossrefGoogle Scholar
  • [13] Edwards W (1954) The theory of decision making. Psych. Bull. 51(4):380–417.CrossrefGoogle Scholar
  • [14] Embrechts P, Liu H, Wang R (2018) Quantile-based risk sharing. Oper. Res. 66(4):936–949.LinkGoogle Scholar
  • [15] Embrechts P, Puccetti G, Rüschendorf L (2013) Model uncertainty and VaR aggregation. J. Banking Finance 37(8):2750–2764.CrossrefGoogle Scholar
  • [16] Embrechts P, Wang B, Wang R (2015) Aggregation-robustness and model uncertainty of regulatory risk measures. Finance Stochastics 19(4):763–790.CrossrefGoogle Scholar
  • [17] Embrechts P, Puccetti G, Rüschendorf L, Wang R, Beleraj A (2014) An academic response to Basel 3.5. Risks 2(1):25–48.CrossrefGoogle Scholar
  • [18] Ennaji H, Mérigot Q, Nenna L, Pass B (2024) Robust risk management via multi-marginal optimal transport. J. Optim. Theory Appl. 202:554–581.CrossrefGoogle Scholar
  • [19] Föllmer H, Schied A (2016) Stochastic Finance. An Introduction in Discrete Time, 4th ed. (Walter de Gruyter, Berlin).CrossrefGoogle Scholar
  • [20] Galichon A (2016) Optimal Transport Methods in Economics (Princeton University Press, Princeton, NJ).CrossrefGoogle Scholar
  • [21] Galichon A, Henry-Labordère P, Touzi N (2014) A stochastic control approach to no-arbitrage bounds given marginals, with an application to lookback options. Ann. Appl. Probab. 24(1):312–336.CrossrefGoogle Scholar
  • [22] Ghossoub M, Saunders D, Zhang S (2023) Bounds on Choquet risk measures in finite product spaces with ambiguous marginals. Statist. Risk Modeling 41(1 − 2):49–72.Google Scholar
  • [23] Gilboa I, Schmeidler D (1989) Maxmin expected utility with non-unique prior. J. Math. Econom. 18(2):141–153.CrossrefGoogle Scholar
  • [24] Goh J, Sim M (2010) Distributionally robust optimization and its tractable approximations. Oper. Res. 58(4):902–917.LinkGoogle Scholar
  • [25] Gonzalez R, Wu G (1999) On the shape of the probability weighting function. Cognitive Psych. 38(1):129–166.CrossrefGoogle Scholar
  • [26] He XD, Zhou XY (2011) Portfolio choice under cumulative prospect theory: An analytical treatment. Management Sci. 57(2):315–331.LinkGoogle Scholar
  • [27] Jorion P (2006) Value at Risk: The New Benchmark for Managing Financial Risk, 3rd ed. (McGraw-Hill, New York).Google Scholar
  • [28] Jouini E, Schachermayer W, Touzi N (2006) Law invariant risk measures have the Fatou property. Kusuoka S, Yamazaki A, eds. Advances in Mathematical Economics, vol. 9 (Springer, Tokyo), 49–71.CrossrefGoogle Scholar
  • [29] Kusuoka S (2001) On law invariant coherent risk measures. Kusuoka S, Maruyama T, eds. Advances in Mathematical Economics, vol. 3 (Springer, Tokyo), 83–95.CrossrefGoogle Scholar
  • [30] Liu F, Wang R (2021) A theory for measures of tail risk. Math. Oper. Res. 46(3):1109–1128.LinkGoogle Scholar
  • [31] Makarov GD (1981) Estimates for the distribution function of the sum of two random variables with given marginal distributions. Theory Probab. Appl. 26(4):803–806.CrossrefGoogle Scholar
  • [32] McNeil AJ, Frey R, Embrechts P (2015) Quantitative Risk Management: Concepts, Techniques and Tools, revised edition (Princeton University Press, Princeton, NJ).Google Scholar
  • [33] Müller A, Stoyan D (2002) Comparison Methods for Stochastic Models and Risks (John Wiley & Sons, Hoboken, NJ).Google Scholar
  • [34] Nelsen RB (2006) An Introduction to Copulas (Springer, New York).Google Scholar
  • [35] Nutz M, Stebegg F (2018) Canonical supermartingale couplings. Ann. Probab. 46(6):3351–3398.CrossrefGoogle Scholar
  • [36] Nutz M, Wang R (2022) The directional optimal transport. Ann. Appl. Probab. 32(2):1400–1420.CrossrefGoogle Scholar
  • [37] Pass B (2015) Multi-marginal optimal transport: Theory and applications. ESAIM: M2AN 49(6):1771–1790.CrossrefGoogle Scholar
  • [38] Peng S (2019) Nonlinear Expectations and Stochastic Calculus Under Uncertainty: With Robust CLT and G-Brownian Motion (Springer, Berlin).CrossrefGoogle Scholar
  • [39] Pratt JW (1988) Aversion to one risk in the presence of others. J. Risk Uncertainty 1(4):395–413.CrossrefGoogle Scholar
  • [40] Puccetti G, Wang R (2015) Extremal dependence concepts. Statist. Sci. 30(4):485–517.CrossrefGoogle Scholar
  • [41] Quiggin J (1982) A theory of anticipated utility. J. Econom. Behav. Organ. 3(4):323–343.CrossrefGoogle Scholar
  • [42] Rachev ST, Rüschendorf L (1998) Mass Transportation Problems: Volume I: Theory (Springer, Berlin).Google Scholar
  • [43] Rüschendorf L (1982) Random variables with maximum sums. Adv. Appl. Probab. 14(3):623–632.CrossrefGoogle Scholar
  • [44] Rüschendorf L (2013) Mathematical Risk Analysis, Springer Series in Operations Research and Financial Engineering (Springer, Berlin, Heidelberg).CrossrefGoogle Scholar
  • [45] Santambrogio F (2015) Optimal Transport for Applied Mathematicians (Springer, New York).CrossrefGoogle Scholar
  • [46] Schmeidler D (1986) Integral representation without additivity. Proc. Amer. Math. Soc. 97(2):255–261.CrossrefGoogle Scholar
  • [47] Schmeidler D (1989) Subjective probability and expected utility without additivity. Econometrica 57(3):571–587.CrossrefGoogle Scholar
  • [48] Tversky A, Kahneman D (1992) Advances in prospect theory: Cumulative representation of uncertainty. J. Risk Uncertainty 5(4):297–323.CrossrefGoogle Scholar
  • [49] Villani C (2009) Optimal Transport: Old and New (Springer-Verlag, Berlin).CrossrefGoogle Scholar
  • [50] Wakker PP (2001) Testing and characterizing properties of nonadditive measures through violations of the sure‐thing principle. Econometrica 69(4):1039–1059.CrossrefGoogle Scholar
  • [51] Wakker PP (2010) Prospect Theory: For Risk and Ambiguity (Cambridge University Press, Cambridge, UK).CrossrefGoogle Scholar
  • [52] Wald A (1950) Statistical Decision Functions (John Wiley & Sons, New York).Google Scholar
  • [53] Wang R, Zhang Z (2025) Simultaneous optimal transport. Trans. Amer. Math. Soc., ePub ahead of print May 8, https://doi.org/10.1090/tran/9393.CrossrefGoogle Scholar
  • [54] Wang R, Zitikis R (2021) An axiomatic foundation for the expected shortfall. Management Sci. 67(3):1413–1429.LinkGoogle Scholar
  • [55] Wang R, Wei Y, Willmot GE (2020) Characterization, robustness and aggregation of signed Choquet integrals. Math. Oper. Res. 45(3):993–1015.LinkGoogle Scholar
  • [56] Wang R, Xu ZQ, Zhou XY (2019) Dual utilities on risk aggregation under dependence uncertainty. Finance Stochastics 23(4):1025–1048.CrossrefGoogle Scholar
  • [57] Wiesemann W, Kuhn D, Sim M (2014) Distributionally robust convex optimization. Oper. Res. 62(6):1203–1466.LinkGoogle Scholar
  • [58] Yaari ME (1987) The dual theory of choice under risk. Econometrica 55(1):95–115.CrossrefGoogle 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