Hi all,
I have a question regarding the B-S method for pricing an option.
I have some actual data for a stock (shown in the image as the blue line). On the assumption from the B-S that dS changes as: ds = (u dt + o- dW) * S, I have simulated a predicted stock market change for 3 years (red line).
Given that it is random walk, there is a large variation in the predicted stock price at the end of 3 years.
Assuming someone wanted to price an option at the point indicated on the graph (Stock Price is $15), would you use a Strike price of $27.2 (the predicted one ?).
If you do, you have the variables (S = $15, K = $27.2, r = 0.03 (assumed), T = 3 (3 years to expiry) and Volatility = 4.52 (estimated)).
This gives a value to the Call option of $13.78 and the Put option at $24.84.
But given that you have dW (and I am assuming that K is generated from the end of the walk?), the Call/Put valuation would change every time you calculated it as the walk is random?
many thanks,
Hob
I have a question regarding the B-S method for pricing an option.
I have some actual data for a stock (shown in the image as the blue line). On the assumption from the B-S that dS changes as: ds = (u dt + o- dW) * S, I have simulated a predicted stock market change for 3 years (red line).
Given that it is random walk, there is a large variation in the predicted stock price at the end of 3 years.
Assuming someone wanted to price an option at the point indicated on the graph (Stock Price is $15), would you use a Strike price of $27.2 (the predicted one ?).
If you do, you have the variables (S = $15, K = $27.2, r = 0.03 (assumed), T = 3 (3 years to expiry) and Volatility = 4.52 (estimated)).
This gives a value to the Call option of $13.78 and the Put option at $24.84.
But given that you have dW (and I am assuming that K is generated from the end of the walk?), the Call/Put valuation would change every time you calculated it as the walk is random?
many thanks,
Hob
