Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

Pricing Discrete Barrier and Hindsight Options with the Tridiagonal Probability Algorithm

Published Online:1 Mar 2001https://doi.org/10.1287/mnsc.47.3.383.9775

References

  • Abramowitz M., Stegun I. A.Handbook of Mathematical Functions (1968) (National Bureau of Standards, Washington, D.C) Google Scholar
  • Abramowitz M.Handbook of Mathematical Functions (1972) Google Scholar
  • AitSahlia F., Lai T. L. Valuation of discrete barrier and hindsight options. J. Financial Engnrg. (1997) 6(2):169–177Google Scholar
  • Boyle P. P. Option valuation using a three-jump process. Internat. Options J. (1986) 3:7–12Google Scholar
  • Boyle P. P. A lattice framework for option pricing with two state variables. J. Financial Quant. Anal. (1988) 35:1–12CrossrefGoogle Scholar
  • Boyle P. P., Lau S. H. Bumping up against the barrier with the binomial method. J. Derivative (1994) 1:6–14CrossrefGoogle Scholar
  • Boyle P. P., Tian Y. An explicit finite difference approach to the pricing of barrier options. Appl. Math. Financ. (1998) 5:17–43CrossrefGoogle Scholar
  • Broadie M., Glasserman P., Kou S. A continuity correction for discrete barrier options. Math. Financ. (1997) 7(4):325–349CrossrefGoogle Scholar
  • Broadie M., Glasserman P., Kou S. Connecting discrete and continuous path-dependent options. Finance and Stochastic (1999) 3(1):55–82CrossrefGoogle Scholar
  • Cheuk T. H. F., Vorst T. C. F.Real-life barrier options (1994) (Erasmus University, Rotterdam, The Netherlands) . Unpublished manuscriptGoogle Scholar
  • Cheuk T. H. F., Vorst T. C. F. Breaking down barriers. Risk (1996) 9(4):64–67Google Scholar
  • Cox J. C., Ross S. A., Rubinstein M. Option pricing: A simplified approach. J. Financial Econom. (1979) 7:229–264CrossrefGoogle Scholar
  • Curnow R. N., Dunnett C. W. The numerical evaluation of certain multivariate normal integrals. Ann. Math. Statist. (1962) 33:571–579CrossrefGoogle Scholar
  • Drezner Z., Wesolowsky G. O. On the computation of the bivariate normal integral. J. Statist. Comput. Simulation (1990) 35:101–107CrossrefGoogle Scholar
  • Evans G.Practical Numer. Integration (1993) (John Wiley … Sons, Chichester U.K.) Google Scholar
  • Heynen R. C., Kat H. M. Discrete partial barrier options with a moving barrier. J. Financial Engrg. (1996) 5(3):199–209Google Scholar
  • Kunitomo N., Ikeda M. Pricing options with curved boundaries. Math. Finance (1992) 2:272–298CrossrefGoogle Scholar
  • Reiner E. Convolution methods for exotic options. (1998) Conf. Comput. Intelligence for Financial Engrg.(New York)Google Scholar
  • Ritchken P. On pricing barrier options. J. Derivatives (1995) 3:19–28CrossrefGoogle Scholar
  • Rubinstein M., Reiner E. Breaking down the barriers. Risk (1991) 4:28–35Google Scholar
  • Schroder M. A reduction method applicable to compound option formulas. Management Sci. (1989) 35(7):823–827LinkGoogle Scholar
  • Tse W. M., Li L. K., Ng K. W.Pricing discrete barrier options with the tridiagonal probability algorithm (1999) (School of Business, The University of Hong Kong, Hong Kong) . CFIRM Working Paper. 99-05Google Scholar
  • Wei J. Z. Valuation of discrete barrier options by interpolations. J. Derivatives (1998) 51(Fall):51–73CrossrefGoogle 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