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April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

Semistatic Variance-Optimal Hedging with Self-Exciting Jumps

Published Online:15 Sep 2025https://doi.org/10.1287/moor.2024.0804

References

  • [1] Aït-Sahalia Y, Cacho-Diaz J, Laeven RJA (2015) Modeling financial contagion using mutually exciting jump processes. J. Financial Econom. 117(3):585–606.CrossrefGoogle Scholar
  • [2] Alfonsi A (2015) Affine Diffusions and Related Processes: Simulation, Theory and Applications (Springer, Cham, Switzerland).Google Scholar
  • [3] Amann H (2011) Ordinary Differential Equations: An Introduction to Nonlinear Analysis, vol. 13 (Walter de Gruyter, Berlin).Google Scholar
  • [4] Andersen LBG, Piterbarg VV (2007) Moment explosions in stochastic volatility models. Finance Stochastics 11:29–50.CrossrefGoogle Scholar
  • [5] 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
  • [6] Brachetta M, Callegaro G, Ceci C, Sgarra C (2024) Optimal reinsurance via BSDEs in a partially observable contagion model with jump clusters. Finance Stochastics 28:453–495.CrossrefGoogle Scholar
  • [7] Brémaud P (1981) Point Processes and Queues, Martingale Dynamics (Springer-Verlag, New York).CrossrefGoogle Scholar
  • [8] Brignone R, Gonzato L, Sgarra C (2024) Commodity Asian option pricing and simulation in a 4-factor model with jump clusters. Ann. Oper. Res. 336:275–306.CrossrefGoogle Scholar
  • [9] Černý A, Czichowsky C, Kallsen J (2023) Numéraire-invariant quadratic hedging and mean variance portfolio allocation. Math. Oper. Res. 49(2):752–781.LinkGoogle Scholar
  • [10] Carr P (2011) Semi-static hedging of barrier options under Poisson jumps. Internat. J. Theoret. Appl. Finance 14(7):1091–1111.CrossrefGoogle Scholar
  • [11] Carr P, Madan DB (2001) Towards a theory of volatility trading. Jouini E, Cvitanic J, Musiela M, eds. Option Pricing, Interest Rates and Risk Management, Handbooks in Mathematical Finance (Cambridge University Press, Cambridge, UK), 458–476.CrossrefGoogle Scholar
  • [12] Cont R, Tankov P (2003) Financial Modelling with Jump Processes, Chapman and Hall/CRC Financial Mathematics Series (CRC Press, Boca Raton, FL).Google Scholar
  • [13] Dassios A, Zhao H (2011) A dynamic contagion process. Adv. Appl. Probab. 43(3):814–846.CrossrefGoogle Scholar
  • [14] Dassios A, Zhao H (2013) Exact simulation of Hawkes process with exponentially decaying intensity. Electron. Comm. Probab. 18:1–13.CrossrefGoogle Scholar
  • [15] Di Tella P, Haubold M, Keller-Ressel M (2019) Semi-static variance-optimal hedging in stochastic volatility models with Fourier representation. J. Appl. Probab. 56(3):787–809.CrossrefGoogle Scholar
  • [16] Di Tella P, Haubold M, Keller-Ressel M (2020) Semistatic and sparse variance-optimal hedging. Math. Finance 30(2):403–425.CrossrefGoogle Scholar
  • [17] Dieudonné J (1960) Foundations of Modern Analysis (Academic Press, New York).Google Scholar
  • [18] Drimus GG (2012) Options on realized variance by transform methods: A non-affine stochastic volatility model. Quant. Finance 12(11):1679–1694.CrossrefGoogle Scholar
  • [19] Eberlein E, Kallsen J (2019) Mathematical Finance (Springer Finance, Cham, Switzerland).CrossrefGoogle Scholar
  • [20] Errais E, Giesecke K, Goldberg LR (2010) Affine point processes and portfolio credit risk. SIAM J. Financial Math. 1(1):642–665.CrossrefGoogle Scholar
  • [21] Filimonov V, Bicchetti D, Maystre N, Sornette D (2014) Quantification of the high level of endogeneity and of structural regime shifts in commodity markets. J. Internat. Money Finance 42:174–192.CrossrefGoogle Scholar
  • [22] Filipović D, Mayerhofer E (2009) Affine diffusion processes: Theory and applications. Radon Ser. Comput. Appl. Math. 8:1–40.Google Scholar
  • [23] Föllmer H, Sondermann D (1986) Hedging of non-redundant contingent claims. Hildenbrand W, MasColell A, eds. Contributions to Mathematical Economics (Elsevier Science Publishing, North Holland, Netherlands), 205–223.Google Scholar
  • [24] Gatheral J (2006) The Volatility Surface: A Practitioner’s Guide (Wiley, Hoboken, NJ).Google Scholar
  • [25] Gonzato L, Sgarra C (2021) Self-exciting jumps in the oil market: Bayesian estimation and dynamic hedging. Energy Econom. 99:105279.CrossrefGoogle Scholar
  • [26] Hainaut D (2016) A model for interest rates with clustering effects. Quant. Finance 16(8):1203–1218.CrossrefGoogle Scholar
  • [27] Hainaut D, Moraux F (2018) Hedging of options in the presence of jump clustering. J. Comput. Finance 22(3):1–35.Google Scholar
  • [28] Herrera R, González N (2014) The modeling and forecasting of extreme events in electricity spot markets. Internat. J. Forecasting 30(3):477–490.CrossrefGoogle Scholar
  • [29] Hubalek F, Kallsen J, Krawczyk L (2006) Variance-optimal hedging for processes with stationary independent increments. Ann. Appl. Probab. 16(2):853–885.CrossrefGoogle Scholar
  • [30] Jacod J, Shiryaev AN (2013) Limit Theorems for Stochastic Processes (Springer, Berlin, Heidelberg).Google Scholar
  • [31] Kallsen J, Pauwels A (2010) Variance-optimal hedging in general affine stochastic volatility models. Adv. Appl. Probab. 42(1):83–105.CrossrefGoogle Scholar
  • [32] Kallsen J, Vierthauer R (2009) Quadratic hedging in affine stochastic volatility models. Rev. Derivatives Res. 12:3–27.CrossrefGoogle Scholar
  • [33] Keller-Ressel M, Mayerhofer E (2015) Exponential moments of affine processes. Ann. Appl. Probab. 25(2):714–752.CrossrefGoogle Scholar
  • [34] Kou SG (2002) A jump-diffusion model for option pricing. Management Sci. 48(8):1086–1101.LinkGoogle Scholar
  • [35] Kunita H, Watanabe S (1967) On square integrable martingales. Nagoya Math. J. 30:209–245.CrossrefGoogle Scholar
  • [36] Lim AEB (2004) Quadratic hedging and mean-variance portfolio selection with random parameters in an incomplete market. Math. Oper. Res. 29(1):3–27.LinkGoogle Scholar
  • [37] Liu W, Zhu S-P (2019) Pricing variance swaps under the Hawkes jump-diffusion process. J. Futures Markets 39(6):635–655.CrossrefGoogle Scholar
  • [38] Lukacs E (1970) Characteristic Functions (Hafner Publishing Co., New York).Google Scholar
  • [39] Merton RC (1976) Option pricing when underlying stock returns are discontinuous. J. Financial Econom. 3(1–2):125–144.CrossrefGoogle Scholar
  • [40] Neuberger A (1994) The log contract. J. Portfolio Management 20(2):74–80.CrossrefGoogle Scholar
  • [41] Prokopczuk M, Symeonidis L, Simen CW (2017) Variance risk in commodity markets. J. Banking Finance 81:136–149.CrossrefGoogle Scholar
  • [42] Rambaldi M, Pennesi P, Lillo F (2015) Modeling foreign exchange market activity around macroeconomic news: Hawkes-process approach. Phys. Rev. E 91:012819.CrossrefGoogle Scholar
  • [43] Sarychev AV (1996) On equation with convex quasi-monotone right-hand side. Nonlinear Anal.: Theory Methods Appl. 27(7):785–792.CrossrefGoogle Scholar
  • [44] Sato K-I (1999) Lévy Processes and Infinitely Divisible Distributions, Cambridge Studies in Advanced Mathematics, vol. 68 (Cambridge University Press, Cambridge, UK).Google Scholar
  • [45] Schal M (1994) On quadratic cost criteria for option hedging. Math. Oper. Res. 19(1):121–131.LinkGoogle Scholar
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