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RQuantLib (version 0.4.9)

AsianOption: Asian Option evaluation using Closed-Form solution

Description

The AsianOption function evaluates an Asian-style option on a common stock using an analytic solution for continuous geometric average price. The option value, the common first derivatives ("Greeks") as well as the calling parameters are returned.

Usage

# S3 method for default
AsianOption(averageType, type, underlying, strike,
	                  dividendYield, riskFreeRate, maturity, 
	                  volatility, first=0, length=11.0/12.0, fixings=26)

Arguments

averageType

Specifiy averaging type, either “geometric” or “arithmetic”

type

A string with one of the values call or put

underlying

Current price of the underlying stock

strike

Strike price of the option

dividendYield

Continuous dividend yield (as a fraction) of the stock

riskFreeRate

Risk-free rate

maturity

Time to maturity (in fractional years)

volatility

Volatility of the underlying stock

first

(Only for arithmetic averaging) Time step to first average, can be zero

length

(Only for arithmetic averaging) Total time length for averaging period

fixings

(Only for arithmetic averaging) Total number of averaging fixings

Value

The AsianOption function returns an object of class AsianOption (which inherits from class Option). It contains a list with the following components:

value

Value of option

delta

Sensitivity of the option value for a change in the underlying

gamma

Sensitivity of the option delta for a change in the underlying

vega

Sensitivity of the option value for a change in the underlying's volatility

theta

Sensitivity of the option value for a change in t, the remaining time to maturity

rho

Sensitivity of the option value for a change in the risk-free interest rate

dividendRho

Sensitivity of the option value for a change in the dividend yield

Details

When "arithmetic" evaluation is used, only the NPV() is returned.

The well-known closed-form solution derived by Black, Scholes and Merton is used for valuation. Implied volatilities are calculated numerically.

Please see any decent Finance textbook for background reading, and the QuantLib documentation for details on the QuantLib implementation.

References

http://quantlib.org for details on QuantLib.

Examples

Run this code
# NOT RUN {
# simple call with some explicit parameters, and slightly increased vol:
AsianOption("geometric", "put", underlying=80, strike=85, div=-0.03,
            riskFree=0.05, maturity=0.25, vol=0.2)
# }

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