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April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

Inf-Convolution, Optimal Allocations, and Model Uncertainty for Tail Risk Measures

Published Online:3 Feb 2022https://doi.org/10.1287/moor.2021.1217

References

  • [1] Acerbi C, Tasche D (2002) On the coherence of expected shortfall. J. Bank. Finance 26(7):1487–1503.CrossrefGoogle Scholar
  • [2] Artzner P, Delbaen F, Eber JM, Heath D (1999) Coherent measures of risk. Math. Finance 9(3):203–228.CrossrefGoogle Scholar
  • [3] Baes M, Koch-Medina P, Munari C (2020) Existence, uniqueness, and stability of optimal payoffs of eligible assets. Math. Finance 30(1):128–166.CrossrefGoogle Scholar
  • [4] Barrieu P, El Karoui N (2005) Inf-convolution of risk measures and optimal risk transfer. Finance Stochastics 9(2):269–298.CrossrefGoogle Scholar
  • [5] Basel Committee on Banking Supervision (2019) Minimum capital requirements for market risk. Report, Bank for International Settlements, Basel Committee on Banking Supervision, Basel Switzerland.Google Scholar
  • [6] Belles-Sampera J, Guillén M, Santolino M (2014) Beyond value-at-risk: GlueVaR distortion risk measures. Risk Anal. 34(1):121–134.CrossrefGoogle Scholar
  • [7] Blanchet J, He F, Murthy K (2020) On distributionally robust extreme value analysis. Extremes 23(2):317–347.CrossrefGoogle Scholar
  • [8] Carlier G, Dana RA (2003) Pareto efficient insurance contracts when the insurer’s cost function is discontinuous. Econom. Theory 21(4):871–893.CrossrefGoogle Scholar
  • [9] Carlier G, Dana RA, Galichon A (2012) Pareto efficiency for the concave order and multivariate comonotonicity. J. Econom. Theory 147(1):207–229.CrossrefGoogle Scholar
  • [10] Chen Z, Kuhn D, Wiesemann W (2018) Data-driven chance constrained programs over Wasserstein balls. Preprint, submitted September 1, https://arxiv.org/abs/1809.00210.Google Scholar
  • [11] Cont R, Deguest R, Scandolo G (2010) Robustness and sensitivity analysis of risk measurement procedures. Quant. Finance 10(6):593–606.CrossrefGoogle Scholar
  • [12] Delbaen F (2012) Monetary Utility Functions (Osaka University Press, Osaka, Japan).Google Scholar
  • [13] 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
  • [14] Dhaene J, Vanduffel S, Goovaerts MJ, Kaas R, Tang Q, Vyncke D (2006) Risk measures and comonotonicity: A review. Stochastic Models 22(4):573–606.CrossrefGoogle Scholar
  • [15] Embrechts P, Liu H, Wang R (2018) Quantile-based risk sharing. Oper. Res. 66(4):936–949.LinkGoogle Scholar
  • [16] Embrechts P, Liu H, Mao T, Wang R (2020) Quantile-based risk sharing with heterogeneous beliefs. Math. Programming 181(2):319–347.CrossrefGoogle Scholar
  • [17] Esfahani PM, Kuhn D (2018) Data-driven distributionally robust optimization using the Wasserstein metric: Performance guarantees and tractable reformulations. Math. Programming 171(1):115–166.CrossrefGoogle Scholar
  • [18] European Insurance and Occupational Pensions Authority (2011) Equivalence assessment of the Swiss supervisory system in relation to articles 172, 227 and 260 of the Solvency II Directive. Report EIOPA-BoS-11-028, European Insurance and Occupational Pensions Authority, Frankfurt, Germany.Google Scholar
  • [19] Föllmer H, Schied A (2016) Stochastic Finance (De Gruyter, Berlin).CrossrefGoogle Scholar
  • [20] Furman E, Wang R, Zitikis R (2017) Gini-type measures of risk and variability: Gini shortfall, capital allocations, and heavy-tailed risks. J. Banking Finance 83(October):70–84.CrossrefGoogle Scholar
  • [21] Ghamami S, Glasserman P (2019) Submodular risk allocation. Management Sci. 65(10):4656–4675.LinkGoogle Scholar
  • [22] Gilboa I, Schmeidler D (1989) Maxmin expected utility with non-unique prior. J. Math. Econom. 18(2):141–153.CrossrefGoogle Scholar
  • [23] Hamm AM, Knispel T, Weber S (2020) Optimal risk sharing in insurance networks. Eur. Actuarial J. 10(1):203–234.CrossrefGoogle Scholar
  • [24] Ho-Nguyen N, Kılınç-Karzan F, Küçükyavuz S, Lee D (2021) Distributionally robust chance-constrained programs with right-hand side uncertainty under Wasserstein ambiguity. Math. Programming, ePub ahead of print February 4, https://doi.org/10.1007/s10107-020-01605-y.CrossrefGoogle Scholar
  • [25] Huberman G, Mayers D, Smith CW Jr (1983) Optimal insurance policy indemnity schedules. Bell J. Econom. 14(2):415–426.CrossrefGoogle Scholar
  • [26] Liu F, Wang R (2021) A theory for measures of tail risk. Math. Oper. Res. 46(3):1109–1128.LinkGoogle Scholar
  • [27] Liu P, Wang R, Wei L (2020) Is the inf-convolution of law-invariant preferences law-invariant? Insurance Math. Econom. 91:144–154.CrossrefGoogle Scholar
  • [28] Mao T, Wang R (2020) A critical comparison of three notions of fractional stochastic dominance. Preprint, submitted September 5, http://dx.doi.org/10.2139/ssrn.3642983.Google Scholar
  • [29] McNeil AJ, Frey R, Embrechts P (2015) Quantitative Risk Management: Concepts, Techniques and Tools, revised ed. (Princeton University Press, Princeton, NJ).Google Scholar
  • [30] Pflug GC (2000) Some remarks on the value-at-risk and the conditional value-at-risk. Uryasev SP, ed. Probabilistic Constrained Optimization, Nonconvex Optimization and Its Applications, vol. 49 (Springer, Boston), 272–281.CrossrefGoogle Scholar
  • [31] Pflug GC, Romisch W (2007) Modeling, Measuring and Managing Risk (World Scientific, Singapore).CrossrefGoogle Scholar
  • [32] Rockafellar RT, Uryasev S (2000) Optimization of conditional value-at-risk. J. Risk 2(3):21–42.CrossrefGoogle Scholar
  • [33] Rüschendorf L (2013) Mathematical Risk Analysis: Dependence, Risk Bounds, Optimal Allocations and Portfolios. Springer Series in Operations Research and Financial Engineering (Springer, Heidelberg, Germany).CrossrefGoogle Scholar
  • [34] Shaked M, Shanthikumar JG (2007) Stochastic Orders (Springer, New York).CrossrefGoogle Scholar
  • [35] Starr RM (2011) General Equilibrium Theory: An Introduction (Cambridge University Press, New York).CrossrefGoogle Scholar
  • [36] Wang R, Wei Y (2020) Characterizing optimal allocations in quantile-based risk sharing. Insurance Math. Econom. 93:288–300.CrossrefGoogle Scholar
  • [37] Wang R, Zitikis R (2020) Weak comonotonicity. Eur. J. Oper. Res. 282(1):386–397.CrossrefGoogle Scholar
  • [38] Wang R, Wei Y, Willmot GE (2020) Characterization, robustness, and aggregation of signed Choquet integrals. Math. Oper. Res. 45(3):993–1015.LinkGoogle Scholar
  • [39] Weber S (2018) Solvency II, or how to sweep the downside risk under the carpet. Insurance Math. Econom. 82:191–200.CrossrefGoogle Scholar
  • [40] Xia J, Zhou XY (2016) Arrow–Debreu equilibria for rank-dependent utilities. Math. Finance 26(3):558–588.CrossrefGoogle Scholar
  • [41] Xie W (2021) On distributionally robust chance constrained programs with Wasserstein distance. Math. Programming 186(1):115–155.CrossrefGoogle Scholar
  • [42] Zhu S, Fukushima M (2009) Worst-case conditional value-at-risk with application to robust portfolio management. Oper. Res. 57(5):1155–1168.LinkGoogle Scholar
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