In Hull - Risk Management and Financial Institutions, it is stated, in page 222 (10.10 using GARCH(1,1) to forecase future volatility), that: "the expected value of u(n+t−1)^2 is σ(n+t−1)^2".
Is this something obvious? Can anybody explain why this should be the case?
Thanks!
In Hull - Risk Management and Financial Institutions, it is stated, in page 222 (10.10 using GARCH(1,1) to forecase future volatility), that: "the expected value of u(n+t−1)^2 is σ(n+t−1)^2".
Is this something obvious? Can anybody explain why this should be the case?
Thanks!
You need the assumption, that the drift term of u can be neglected. If u(t) is a random variable than is it's variance defined as
σ(t)^2 = E( u(t)^2 ) - E( u(t) )^2
If you now assume, that the E( u(t) )^2 can be neglected against the E( u(t)^2 ) term than you get to your result.
u(t) is modelling the return for a time period dt:
u(t) = ( s(t) - s(t - dt) ) / s(t - dt)
that means, that E( u(t) )^2 is proportional to dt^2 while E( u(t)^2 ) scales with dt. So if dt is small enough, you can neglect the drift term.
This site uses cookies to help personalise content, tailor your experience and to keep you logged in if you register.
By continuing to use this site, you are consenting to our use of cookies.
