Realized variance

Related quantities

Unlike the variance the realized variance is a random quantity.

The realized volatility is the square root of the realized variance, or the square root of the RV multiplied by a suitable constant to bring the measure of volatility to an annualized scale. For instance, if the RV is computed as the sum of squared daily returns for some month, then an annualized realized volatility is given by 12 × R V .

Properties under ideal conditions

Under ideal circumstances the RV consistently estimates the quadratic variation of the price process that the returns are computed from. Ole E. Barndorff-Nielsen and Neil Shephard (2002), Journal of the Royal Statistical Society, Series B, 63, 2002, 253–280.

For instance suppose that the price process P t = exp ⁡ ( p t ) is given by the stochastic integral

where B s is a standard Brownian motion, and σ s is some (possibly random) process for which the integrated variance,

is well defined.

The realized variance based on n intraday returns is given by R V ( n ) = ∑ i = 1 n r i , n 2 , where the intraday returns may be defined by

Then it has been show that, as n → ∞ the realized variance converges to IV in probability. Moreover, the RV also converges in distribution in the sense that

is approximately distributed as a standard normal random variables when n is large.

Properties when prices are measured with noise

When prices are measured with noise the RV may not estimate the desired quantity. This problem motivated the development of a wide range of robust realized measures of volatility, such as the realized kernel estimator.