Multi-period BTM

1. Multi-period BTM Dr. DAI Min

2. Outline: • Multi-period BTM • Vanilla options: European and American • Barrier options • Strongly-path dependent options: Asian, lookback • Single-state variable BTM for some strongly-path dependent options • Forward shooting grid method

3. Two-period BTM for vanilla options • Single-period BTM • A local algorithm • Two-period BTM • Assumption: two-period tree

4. S0u4 S0u3 S0u2 S0u2 S0u S0u S0 S0 S0 S0d S0d S0d2 S0d2 S0d3 S0d4 Multi-period BTM for vanilla options

5. A concise expression of BTM

6. With continuous dividend yield q

7. Multi-period BTM for American options • At any nodes of the tree, check if early exercise is optimal.

8. Barrier options • Barrier options are triggered by the action of the underlying hitting a prescribed value at some time before expiry. • Consider an up-out call: if the underlying price remains below the barrier level until maturity, the contract has a usual call payoff at expiry (red line). However, if the underlying reaches the level before expiry, then the option becomes worthless because it has ``knocked out'‘ (blue line).

9. Multi-period BTM for barrier options • Barrier options are weakly path-dependent

10. Strongly path-dependent options (I) • Strong path-dependent options: • Asian options • Lookback options • Type of payoffs: • Fixed strike • Floating strike

11. Strongly path-dependent options (II) • Type of Asian payoffs • Arithmetic average • Geometric average

12. Strongly path-dependent options (III) • Type of lookback payoffs • Maximum • Minimum

13. BTM for Asian arithmetic options (I)

14. BTM for Asian arithmetic options (II) • A concise expression

15. BTM for lookback maximum

16. Single-state variable BTM for strongly path-dependent options (I)

17. Single-state variable BTM for strongly path-dependent options (II)

18. Single-state variable BTM for floating strike lookback put A single-state variable tree:

19. Single-state variable BTM for floating strike Asian arithmetic • The single-state variable tree does not recombine! • The amount of computation grows exponentially with the number of time steps.

20. Single-state variable BTM for American-style floating strike path-dependent options

21. Single-state variable BTM for fixed strike path-dependent options • For European case, a single-state variable BTM is available by a different transformation (Roger and Shi (1995)); • For American case, not available.

22. Forward shooting grid method (FSGM) • Drawback of BTM • For some path-dependent options, the number of tree nodes may grow exponentially with the number of time steps • FSGM • A local binomial model • Implementation is confined to a lattice, instead of a tree. • The number of nodes of the lattice does not grow exponentially. • Single-state variable case • General case • Interpolation is needed in some scenarios.

23. Single-state variable FSGM for floating strike Asian arithmetic options

24. Two-state variable FSGM for arithmetic Asian options (I)

25. Two-state variable FSGM for arithmetic Asian options (II)

26. Two-state variable FSGM for lookback options • A similar procedure; • No interpolation is required.