A Universal Lattice

Posted: 3 Oct 1996

See all articles by Ren-Raw Chen

Ren-Raw Chen

Fordham University - Gabelli School of Business

Tyler T. Yang

Federal Home Loan Mortgage Corporation (FHLMC) - Portfolio Management

Date Written: May 1996

Abstract

Currently, when valuing derivative contracts with lattice methods, one often needs different lattice structures for different stochastic processes, different parameter values, or even different time intervals to obtain positive probabilities. In view of this stability problem, in this paper, we derive a trinomial lattice structure that can be universally applied to any diffusion process for any set of parameter values at any given time interval. It is particularly useful to the processes that cannot be transformed into constant diffusion. This lattice structure is unique in a way that it does not require branches to recombine but allow the lattice to freely evolve within the prespecified state space. This is in spirit similar to the implicit finite difference method. We demonstrate that this lattice model is easy to follow and program. The universal lattice is applied to time and state dependent processes that have recently become popular in pricing interest rate derivatives. Numerical examples are provided to verify the convergence of the model.

JEL Classification: G13

Suggested Citation

Chen, Ren-Raw and Yang, Tyler T., A Universal Lattice (May 1996). Available at SSRN: https://ssrn.com/abstract=7783

Ren-Raw Chen

Fordham University - Gabelli School of Business ( email )

113 West 60th Street
Bronx, NY 10458
United States

Tyler T. Yang (Contact Author)

Federal Home Loan Mortgage Corporation (FHLMC) - Portfolio Management ( email )

McLean, VA 22101
United States

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