Asset volatility forecasting:The optimal decay parameter in the EWMA model

Investor logo

Warning

This publication doesn't include Institute of Computer Science. It includes Faculty of Economics and Administration. Official publication website can be found on muni.cz.
Authors

ARANEDA Axel Alejandro

Year of publication 2021
MU Faculty or unit

Faculty of Economics and Administration

Web https://arxiv.org/abs/2105.14382
Description The exponentially weighted moving average (EMWA) could be labeled as a competitive volatility estimator, where its main strength relies on computation simplicity, especially in a multi-asset scenario, due to dependency only on the decay parameter, ?. But, what is the best election for ? in the EMWA volatility model? Through a large time-series data set of historical returns of the top US large-cap companies; we test empirically the forecasting performance of the EWMA approach, under different time horizons and varying the decay parameter. Using a rolling window scheme, the out-of-sample performance of the variance-covariance matrix is computed following two approaches. First, if we look for a fixed decay parameter for the full sample, the results are in agreement with the RiskMetrics suggestion for 1-month forecasting. In addition, we provide the full-sample optimal decay parameter for the weekly and bi-weekly forecasting horizon cases, confirming two facts: i) the optimal value is as a function of the forecasting horizon, and ii) for lower forecasting horizons the short-term memory gains importance. In a second way, we also evaluate the forecasting performance of EWMA, but this time using the optimal time-varying decay parameter which minimizes the in-sample variance-covariance estimator, arriving at better accuracy than the use of a fixed-full-sample optimal parameter.
Related projects:

You are running an old browser version. We recommend updating your browser to its latest version.

More info