Transformation of SDE based on term matching.

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Parallel Processing

Numerical Analysis

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Python for Excel

Python Utilities

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I.

II.

Pricing and Hedging.

1.

Basics of derivative pricing I.

2.

Change of numeraire.

A.

Definition of change of numeraire.

B.

Useful calculation.

C.

Transformation of SDE based on change of measure results.

D.

Transformation of SDE in two asset situation.

E.

Transformation of SDE based on term matching.

F.

Invariant representation for drift modification.

G.

Transformation of SDE based on delta hedging.

H.

Example. Change of numeraire in Black-Scholes economy.

I.

Other ways to look at change of numeraire.

3.

Basics of derivative pricing II.

4.

5.

Currency Exchange.

6.

7.

Incomplete markets.

III.

Explicit techniques.

IV.

V.

Implementation tools.

VI.

VII.

Implementation tools II.

VIII.

Transformation of SDE based on term matching.

e consider two assets $X_{t}$ and $Y_{t}$ that are acceptable as numeraires (see ( Suitable_numeraire )) MATH for some $\sigma$ . The drift term is absent because is a martingale in the -measure. Also, MATH for some $\omega$ . We regard these last SDEs as MATH and MATH for . We derive the connection between $dW^{X}$ and $dW^{Y}$ as follows: MATH Hence, MATH and MATH It remains to find the expression for $\sigma$ . We use the formula ( Useful formula ): MATH Hence, MATH and we conclude that MATH

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