آمار
| تعداد نشریات | 43 |
| تعداد شمارهها | 1,262 |
| تعداد مقالات | 15,535 |
| تعداد مشاهده مقاله | 51,553,400 |
| تعداد دریافت فایل اصل مقاله | 14,493,527 |
European option pricing of fractional Black-Scholes model with new Lagrange multipliers | ||
| Computational Methods for Differential Equations | ||
| مقاله 1، دوره 2، شماره 1، فروردین 2014، صفحه 1-10 اصل مقاله (121.99 K) | ||
| نوع مقاله: Research Paper | ||
| نویسندگان | ||
| Mohammad Ali Mohebbi Ghandehari؛ Mojtaba Ranjbar* | ||
| Azarbijan Shahid Madani University | ||
| چکیده | ||
| In this paper, a new identification of the Lagrange multipliers by means of the Sumudu transform, is employed to btain a quick and accurate solution to the fractional Black-Scholes equation with the initial condition for a European option pricing problem. Undoubtedly this model is the most well known model for pricing financial derivatives. The fractional derivatives is described in Caputo sense. This method finds the analytical solution without any discretization or additive assumption. The analytical method has been applied in the form of convergent power series with easily computable components. Some illustrative examples are presented to explain the efficiency and simplicity of the proposed method. | ||
| کلیدواژهها | ||
| Sumudu transforms؛ Fractional Black- Scholes equation؛ European option pricing problem | ||
| مراجع | ||
|
[1] M.A. Asiru, Further properties of the Sumudu transform and its applications, International Journal of Mathematical Education in Science and Technology 33 (2002), 441-449. [2] G. Barles and H.M. Soner, Option pricing with transaction costs and a nonlinear Black-Scholes equation, Finance and Stochastics 2 (1998), 369-397. [3] F.B.M. Belgacem, A.A. Karaballi, Sumudu transform fundamental properties investigations and applications, Journal of Applied Mathematics and Stochastic Analysis, (2006), 1-23. [4] T. Bjork and H. Hult, A note on Wick products and the fractional Black-Scholes model, Finance and Stochastics 9 (2005), 197-209. [5] C. Castelli. The theory of options in stocks and shares. Fc Mathieson, London, 1877. [6] Z. Cen and A. Le, A robust and accurate finite difference method for a generalized BlackScholes equation. J. Comput. Appl. Math, 235 (2011), 3728-3733. [7] V.B.L. Chaurasia and J. Singh, Application of Sumudu transform in Schodinger equation occurring in quantum mechanics, Applied Mathematical Sciences 4 (2010), 2843- 2850. [8] M.H.A. Davis, V.G. Panas, and T. Zariphopoulou, European option pricing with transaction costs, SIAMJournal on Control and Optimization 31 (1993), 470-493. [9] K. Diethelm and N.J. Ford, Multi-order fractional differential equations and their numerical solution, Applied Mathematics and Computation 154 (2004), 621-640. [10] J.S. Duan, R. Rach, D. Buleanu, and A.M. Wazwaz, A review of the Adomian decomposition method and its applicaitons to fractional differential equations, Communications in Fractional Calculus 3 (2012), 73-99. [11] M.A.M. Ghandehari and M. Ranjbar, A numerical method for solving a fractional partial differential equation through converting it into an NLP problem, Computers and Mathematics with Applications. 65 (2013), 975-982. [12] V. Gulkac, The homotopy perturbation method for the Black-Scholes equation, J. Stat. Comput. Simul. 80 (2010), 1349-1354. [13] J.H. He, Approximate analytical solution for seepage flow with fractional derivative in porous media.Comput. Methods Appl. Mech. Eng. 167 (1998), 57-68. [14] J.H. He, Variational iteration methoda kind of non-linear analytical technique: some examples, International Journal of Non-Linear Mechanics 34 (1999), 699-708. [15] J.C. Hull, Options future and other derivatives. Sixth edition, Pearson prentice Hall, Toronto, 2006. [16] J.C. Hull and A.D. White, Thepricingof optionsonassetswith stochastic volatilities, Journal of Finance 42 (1987), 281-300. [17] M. Inokuti, H. Sekine, T. Mura, General use of the Lagrange multiplier in nonlinear mathematical physics. In: Nemat-Nassed S, editor. Variational method in the mechanics of solids, pp. 156-162, Pergamon press, 1978. [18] X.Y. Jiang and H.T. Qi, Thermal wave model of bioheat transfer with modified RiemannLiouville fractional derivative, Journal of Physics 45 (2012). [19] S. Kumar, A. Yildirim, Y. Khan, H. Jafari, K. Sayevand and L. Wey, Analytical solution of fractional Black-Scholes European option pricing equation by using laplace transform. Journal of Fractional Calculus and Applications, 2 (2012), 1-9. [20] J.R. Liang, J. Wang, W.J. Zhang, W.Y. Qiu, and F.Y. Ren, Option pricing of a bi-fractional Black-Merton-Scholes model with the Hurst exponent H in [1/2,1], Applied Mathematics Letters 23 (2010), 859-863. [21] F.W. Liu, V. Anh, and I. Turner, Numerical solutionof the space fractional Fokker-Planck equation, Journal of Computational and Applied Mathematics 166 (2004), 209-219. [22] J.H. Ma and Y.Q. Liu, Exact solutions for a generalized nonlinear fractional Fokker-Planck equation, Nonlinear Analysis. RealWorld Applications 11 (2010), 515-521. [23] R.C. Merton, On the pricing of corporate debt: the risk structure of interest rates, Journal of Finance 29 (1974), 449- 470. [24] R.C. Merton, Option pricing when underlying stock returns are discontinuous, Journal of Financial Economics, 3 (1976), 125-144. [25] F. Mainardi, On the initial value problem for the fractional diffusion-wave equation, in: S. Rionero, T. Ruggeeri, Waves and stability in continuous media, World scientific, Singapore , 1994. [26] I. Podlubny, Fractional Differential Equations, vol. 198 of Mathematics in Science and Engineering, Academic Press, San Diego, Calif, USA, 1999. [27] X.T. Wang, Scaling and long-range dependence in option pricing I: Pricing European option with transaction costs under the fractional Black-Scholes model, Physica A 389 (2010), 438- 444. [28] G.C. Wu, D. Baleanu, Variational iteration method for the Burgers flow with fractional derivatives-New Lagrange multipliers, Applied Mathematical Modelling 37 (2013), 6183-6190. | ||
|
آمار تعداد مشاهده مقاله: 4,118 تعداد دریافت فایل اصل مقاله: 3,519 |
||