Forecasting Implied Volatility with ARIMA Model-Volatility Analysis in Python
In a previous post, we presented theory and a practical example of calculating implied volatility for a given stock option. In this post, we are going to implement a model for forecasting the implied volatility. Specifically, we are going to use the Autoregressive Integrated Moving Average (ARIMA) model to forecast the volatility index, VIX.
In statistics and econometrics, and in particular in time series analysis, an autoregressive integrated moving average (ARIMA) model is a generalization of an autoregressive moving average (ARMA) model. Both of these models are fitted to time series data either to better understand the data or to predict future points in the series (forecasting). ARIMA models are applied in some cases where data show evidence of non-stationarity, where an initial differencing step (corresponding to the “integrated” part of the model) can be applied one or more times to eliminate the non-stationarity.
The AR part of ARIMA indicates that the evolving variable of interest is regressed on its own lagged (i.e., prior) values. The MA part indicates that the regression error is actually a linear combination of error terms whose values occurred contemporaneously and at various times in the past. The I (for “integrated”) indicates that the data values have been replaced with the difference between their values and the previous values (and this differencing process may have been performed more than once). The purpose of each of these features is to make the model fit the data as well as possible. Read more
It is shown in Reference [1] that the implied volatility index can be modeled and forecasted using the ARIMA model. To apply the ARIMA model to the VIX index, we first downloaded 5 years of historical data of the VIX from Yahoo Finance. Next, we used the first 4 years of data as the training set and fit the data to the ARIMA model. The Python SARIMA program returned the following model parameters,
After obtaining the parameters, we applied the model to the remaining 1 year of data and calculated the forecasted VIX on a rolling window of 1 month. The picture below shows the rolling forecasted VIX along with the VIX index,
Click on the link below to download the Python program.
References
[1] K. Ahoniemi, Modeling and forecasting implied volatility, Helsinki School of Economics, 2009.
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