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Some Financial Mathematics

Explore the one-period rate of return for assets, including continuous compounding and distributional properties. Learn about conditional heteroscedastic models and their application in analyzing asset price volatility.

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Some Financial Mathematics

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  1. Some Financial Mathematics

  2. The one-period rate of return of an asset at time t. where pt = the asset price at time t. Note: Also if there was continuous compounding during the period t – 1 to t at a rate rt then the value of the asset would be: rt = ln (1 + Rt) is called the log return.

  3. Note: If we have an initial capital of A0, an nominal interest rate of r with continuous compounding then the value of the capital at time T is:

  4. The k-period rate of return of an asset at time t. again Also

  5. Thus the k-period rate of return of an asset at time t. If there was continuous compounding during the period t – k to t at a rate rt (k) then the value of the asset would be at time t:

  6. Thus the k-period continuous compounding rate of return of an asset at time t is: Taking t = k,let p0 = the value that an asset is purchased at time t = 0. Then the value of the asset of time t is: If are independent identically distributed mean 0, then is a random walk.

  7. Some distributional properties of Rtand rt

  8. Ref: Analysis of Financial Time Series Ruey S. Tsay

  9. Conditional HeteroscedasticModels Models for asset price volatility

  10. Volatility is an important factor in the trading of options (calls & puts) • A European call option is an option to buy an asset at a fixed price (strike price) on a given date (expiration date) • A European put option is an option to sell an asset at a fixed price (strike price) on a given date (expiration date) • If you can exercise the option prior to the expiration date it is an American option.

  11. Black-Scholes pricing formula ct = the cost of the call option, Pt = the current price, K = the strike price, l = time to expiration r = the risk-free interest rate st = the conditional standard deviation of the log return of the specified asset F(x)= the cumulative distribution function for the standard normal distribution

  12. Pt-1] = E[(rt – mt)2| Pt-1] Conditional Heteroscedastic Models for log returns {rt} Let Pt-1 denote the information available at time t – 1 (i.e. all linear functions of { …, rt-3 , rt-2 , rt-1 }) Let mt = E [rt | Pt-1]and ut = rt – mt. Assume an “ARMA(p,q)” model, i.e.

  13. Pt-1] = E[(rt – mt)2| Pt-1] The conditional heteroscedastic models are concerned with the evolution of = var[ut| Pt-1]

  14. The ARCH(m) model where {zt} are independent identically distributed (iid) variables with mean zero variance 1. Auto-regressive conditional heteroscedastic model

  15. The GARCH(m,s) model where {zt} are independent identically distributed (iid) variables with mean zero variance 1. Generalized ARCH model

  16. Excel files illustrating ARCH and GARCH models CH models

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