References
- Abi Jaber, E., Illand, C. and Li, S., The quintic Ornstein–Uhlenbeck volatility model that jointly calibrates SPX & VIX smiles. Available at SSRN 4308677, 2022.
- Abi Jaber, E., Larsson, M. and Pulido, S., Affine Volterra processes. Ann. Appl. Probab., 2019, 29, 3155–3200.
- Ackermann, J., Kruse, T. and Overbeck, L., Inhomogeneous affine Volterra processes. Stoch. Process. Their Appl., 2022, 150, 250–279.
- Alfeus, M. and Nikitopoulos, C., Forecasting volatility in commodity markets with long-memory models. J. Commodity Markets, 2022, 28, 100248.
- Arismendi, J., Back, J., Prokopczuk, M., Paschke, R. and Rudolf, M., Seasonal stochastic volatility: Implications for the pricing of commodity options. J. Bank. Finance, 2016, 66, 53–65.
- Baksh, G., Cao, C. and Chen, Z., Empirical performance of alternative option pricing models. J. Finance, 1997, 52, 2003–2050.
- Barone-Adesi, G. and Whaley, R., Efficient analytic approximation of American option values. J. Finance, 1987, 42, 301–320.
- Bayer, C., Friz, P. and Gatheral, J., Pricing under rough volatility. Quant. Finance, 2016, 16(6), 887–904.
- Bergomi, L., Smile dynamics II. Available at SSRN 1493302, 2005.
- Björk, T., Landén, C. and Svensson, L., Finite-dimensional Markovian realizations for stochastic volatility forward–rate models. Proc. Royal Soc. London. Ser. A: Math. Phys. Eng. Sci., 2004, 460(2041), 53–83.
- Black, F., The pricing of commodity contracts. J. Financ. Econ., 1976, 3(1), 167–179.
- Bollerslev, T., Hood, B., Huss, J. and Pedersen, L.H., Risk everywhere: Modeling and managing volatility. Rev. Financial Stud., 2018, 31(7), 2729–2773.
- Callegaro, G., Grasselli, M. and Pagès, G., Fast hybrid schemes for fractional Riccati equations (rough is not so tough). Math. Oper. Res., 2020, 46(1), 221–254.
- Cheng, B., Nikitopoulos, C. and Schögl, E., Pricing of long-dated commodity derivatives: Do stochastic interest rates matter? J. Bank. Finance, 2018, 95, 148–166.
- Chiang, I., Hughen, W.K. and Sagi, J.S., Estimating oil risk factors using information from equity and derivatives markets. J. Finance., 2015, 70(2), 769–804.
- Chiarella, C., Kang, B., Nikitopoulos, C.S. and Tô, T., Humps in the volatility structure of the crude oil futures market: New evidence. Energy Econ., 2013, 40, 989–1000.
- Chiarella, C. and Kwon, O.K., Forward rate dependent Markovian transformations of the Heath–Jarrow–Morton term structure model. Finance Stochast., 2001, 5(2), 237–257.
- Christoffersen, P. and Pan, X., Oil volatility risk and expected stock returns. J. Bank. Finance, 2018, 95, 5–26.
- Cont, R. and Purba, D., Rough volatility: Facts or artefacts. Preprint, 2023.
- Cortazar, G., Lopez, M. and Naranjo, L., A multifactor stochastic volatility model of commodity prices. Energy Econ., 2017, 67, 182–201.
- Da Fonseca, J. and Ignatieva, K., Jump activity analysis for affine jump-diffusion models: Evidence from the commodity market. J. Bank. Finance, 2019, 99, 45–62.
- Dempster, M.A.H., Medova, E. and Tang, K., Determinants of oil futures prices and convenience yields. Quant. Finance, 2012, 12, 1795–1809.
- Diethelm, K., Ford, N.J. and Freed, A.D., A predictor–corrector approach for the numerical solution of fractional differential equations. Nonlinear. Dyn., 2002, 29, 3–22.
- Diethelm, F. and Freed, L., Algorithms for the fractional calculus: A selection of numerical methods. Comput. Methods. Appl. Mech. Eng., 2004, 194(8), 751–752.
- Duffie, D., Pan, J. and Singleton, K., Transform analysis and asset pricing for affine jump-diffusions. Econometrica, 2000, 68(6), 1343–1376.
- El Euch, O. and Rosenbaum, M., The characteristic function of rough Heston models. Math. Finance, 2018, 29(1), 3–38.
- Forde, M. and Zhang, H., Asymptotics for rough stochastic volatility models. SIAM J. Financial Math., 2017, 8, 114–145.
- Fukasawa, M., Volatility has to be rough. Quant. Finance, 2021, 21, 1–8.
- Gao, L., Hitzemann, S., Shaliastovich, I. and Xu, L., Oil volatility risk. J. Financ. Econ., 2012, 114(2), 456–491.
- Gatheral, J., Jaisson, T. and Rosenbaum, T., Volatility is rough. Quant. Finance, 2018, 18(6), 933–949.
- Gatheral, J. and Keller-Ressel, M., Affine forward variance models. Finance Stochast., 2020, 23(3), 501–533.
- Gatheral, J. and Radoicic, R., Rational approximation of the rough Heston solution. Int. J. Theoretical Appl. Finance, 2019, 22(3), 13–27.
- Heston, S., A closed-form solution for options with stochastic volatility with applications to bond and currency options. Rev. Financ. Stud., 1993, 6(2), 327–343.
- Horvath, B., Jacquier, A. and Tankov, P., Volatility options in rough volatility models. SIAM J. Financial Math., 2020, 11, 437–469.
- Ingber, I., Adaptive simulated annealing (asa): Lessons learned. Control Cybern., 1996, 22(1), 33–54.
- Kang, B., Nikitopoulos, C. and Prokopczuk, M., Economic determinants of oil futures volatility: A term structure perspective. Energy Econ., 2020, 85(5), 104743.
- Mandelbrot, B.B. and van Ness, J.V., Fractional Brownian motion, fractional noises and applications. SIAM Rev., 1968, 4, 422–437.
- Rosenbaum, M. and Zhang, J., Deep calibration of the quadratic rough Heston model. Available at Arxiv 2107.01611, 2022.
- Schneider, L. and Tavin, B., From the Samuelson volatility effect to a Samuelson correlation effect: An analysis of crude oil calendar spread options. J. Bank. Finance, 2018, 95, 185–202.
- Trolle, A.B. and Schwartz, E.S., Unspanned stochastic volatility and the pricing of commodity derivatives. Rev. Financial Stud., 2009, 22(11), 4423–4461.
- Zhu, Q., Wu, C. and Diao, X., From stochastic to rough volatility: A new deep learning perspective on the hedging. Available at SSRN 4098535, 2022.