Trend-stationary process


In the statistical analysis of time series, a trend-stationary process is a stochastic process from which an underlying trend can be removed, leaving a stationary process. The trend does not have to be linear.
Conversely, if the process requires differencing to be made stationary, then it is called difference stationary and possesses one or more unit roots. Those two concepts may sometimes be confused, but while they share many properties, they are different in many aspects. It is possible for a time series to be non-stationary, yet have no unit root and be trend-stationary. In both unit root and trend-stationary processes, the mean can be growing or decreasing over time; however, in the presence of a shock, trend-stationary processes are mean-reverting while unit-root processes have a permanent impact on the mean.

Formal definition

A process is said to be trend-stationary if
where t is time, f is any function mapping from the reals to the reals, and is a stationary process. The value is said to be the trend value of the process at time t.

Simplest example: stationarity around a linear trend

Suppose the variable Y evolves according to
where t is time and et is the error term, which is hypothesized to be white noise or more generally to have been generated by any stationary process. Then one can use linear regression to obtain an estimate of the true underlying trend slope and an estimate of the underlying intercept term b; if the estimate is significantly different from zero, this is sufficient to show with high confidence that the variable Y is non-stationary. The residuals from this regression are given by
If these estimated residuals can be statistically shown to be stationary, then the residuals are referred to as the detrended data, and the original series is said to be trend-stationary even though it is not stationary.

Stationarity around other types of trend

Exponential growth trend

Many economic time series are characterized by exponential growth. For example, suppose that one hypothesizes that gross domestic product is characterized by stationary deviations from a trend involving a constant growth rate. Then it could be modeled as
with Ut being hypothesized to be a stationary error process. To estimate the parameters and B, one first takes the natural logarithm of both sides of this equation:
This log-linear equation is in the same form as the previous linear trend equation and can be detrended in the same way, giving the estimated as the detrended value of, and hence the implied as the detrended value of, assuming one can reject the hypothesis that is non-stationary.

Quadratic trend

Trends do not have to be linear or log-linear. For example, a variable could have a quadratic trend:
This can be regressed linearly in the coefficients using t and t2 as regressors; again, if the residuals are shown to be stationary then they are the detrended values of.