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I am working on an alogorithm in R to automatize a monthly forecast calculation. I am using, among others, the ets() function from the forecast package to calculate forecast. It is working very well.

Unfortunately, for some specific time series, the result I get is weird.

Please, find below the code i am using :

train_ts<- ts(values, frequency=12)
fit2<-ets(train_ts, model="ZZZ", damped=TRUE, alpha=NULL, beta=NULL, gamma=NULL, 
            phi=NULL, additive.only=FALSE, lambda=TRUE, 
            lower=c(0.0001,0.0001,0.0001,0.8),upper=c(0.9999,0.9999,0.9999,0.98), 
            opt.crit=c("lik","amse","mse","sigma","mae"), nmse=3, 
            bounds=c("both","usual","admissible"), ic=c("aicc","aic","bic"),
            restrict=TRUE)  
ets <- forecast(fit2,h=forecasthorizon,method ='ets')   

Please, you will find below the concerned history data set :

 values <- c(27, 27, 7, 24, 39, 40, 24, 45, 36, 37, 31, 47, 16, 24, 6, 21, 
35, 36, 21, 40, 32, 33, 27, 42, 14, 21, 5, 19, 31, 32, 19, 36, 
29, 29, 24, 42, 15, 24, 21)

Here, on the graph, you will see the historical data (black), the fitted value (green) and the forecast(blue). The forecast is definitely not in lines with the fitted value.

Do you have any idea on how to "bound" the forecat to be "in line" with the historical sales? enter image description here

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  • $\begingroup$ This is one of the strangest forecast that I have come across using ets. The mean/level of the historical data is around 20 and the mean/level of the forecast is around 50. Not sure why this would happen ? can you run a basic ets and see if you get the same results ? $\endgroup$
    – forecaster
    Apr 13, 2015 at 15:19
  • $\begingroup$ Thank you very much for your time and answer! I agree with you one the fact that last point may be seen as "outliers" (21 vs 7 or 6 or 5 the previous year) It can be detected as it by using confidence interval based on past data and should be clean before calclating a statistical forecast. But if we assume that it is a "normale" sale, is there a way to avoid this behavior by bounding the forecast, or at least be warned that the forecast is twice bigger that the history? Bounding alpha, beta and gamma is not relevant in that case. Again,thank you very much for your help on this point! $\endgroup$
    – MehdiK
    Apr 13, 2015 at 15:56
  • $\begingroup$ I have up voted your answer, now I assume you can leave comments. In the future, please leave the comment directly below an answer so that the people who responded will notice it. Thanks $\endgroup$
    – forecaster
    Apr 13, 2015 at 17:44
  • $\begingroup$ ETS and all univariate time series models assume that past behavior predict future behavior. If there is any abnormal data points then you need to let the model know that that there is an anomaly. The model will not know the value is normal, you need to specify in the model that the value outlier. $\endgroup$
    – forecaster
    Apr 13, 2015 at 21:54
  • $\begingroup$ could you please tell me how you predict the line based on test data? $\endgroup$ Sep 25, 2022 at 16:54

3 Answers 3

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As @forecaster has pointed out, this is caused by outliers at the end of the series. You can see the problem clearly if you plot the estimated level component over the top:

plot(forecast(fit2))
lines(fit2$states[,1],col='red')

Note the increase in the level at the end of the series.

One way to make the model more robust to outliers is to reduce the parameter space so that the smoothing parameters must take smaller values:

fit2 <- ets(train_ts, upper=c(0.3,0.2,0.2,0.98))  
plot(forecast(fit2))

enter image description here

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    $\begingroup$ what is the forecast::auto.arima equivalent of your second suggestion for handling outliers? $\endgroup$ Apr 13, 2015 at 23:12
  • 2
    $\begingroup$ With ARIMA models, you can handle outliers with dummy variables set to 1 at the problematic times. Just use the xreg argument in auto.arima or Arima. $\endgroup$ Apr 14, 2015 at 1:02
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This is textbook case of having outliers at the end of the series and its unintended consequences. The problem with your data is that the last two points are outliers, you might want to identify and treat outliers before you run the forecasting algorithms. I'll update my answer and analysis later today on some strategies to identify outliers. Below is the quick update.

When I rerun ets with last two data points removed, I get a reasonable forecast. Please see below:

values.clean <- c(27, 27, 7, 24, 39, 40, 24, 45, 36, 37, 31, 47, 16, 24, 6, 21, 
                  35, 36, 21, 40, 32, 33, 27, 42, 14, 21, 5, 19, 31, 32, 19, 36, 
                  29, 29, 24, 42, 15)## Last two points removed

train_ts.clean<- ts(values.clean, frequency=12)
fit2.clean<-ets(train_ts.clean)  
ets.f.clean <- forecast(fit2.clean,h=24)
plot(ets.f.clean)

enter image description here

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@forecaster you are correct that the last value is an outlier BUT periood 38 (the penultimate value) is not an outlier when you take into account trends and seasonal activity. This is a defining/teaching moment for testing/evaluating alternative robust approaches. If you don't identify and adjust for anomalies then the variance is inflated causing other items to not be found. Period 32 is also an outlier. Periods 3,32 and 1 are also outliers. There is a statistically significant trend in the series for the first 17 values but abates thereafter starting at period 18. So, there are really two trends in the data. The lesson to be learned here is that simple approaches that assume no trend or a particular form of a trend and/or tacitly assumes a specific form of the auto-regressive process need to be seriously questioned. Going forward a good forecast should have to consider the possible continuation of the exceptional activity found at the ultimate point (period 39). It is impossible to extract this from the data.

This is a possibly useful model:

enter image description here The final model's statistics are here enter image description here The Actual/Fit and Forecast graph is interesting as it highlights the exceptional activity. enter image description here

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  • $\begingroup$ +1 your answers are always educational and enlightening. I understand pulse and time, is fixed effects purely deterministic model ? $\endgroup$
    – forecaster
    Apr 19, 2015 at 14:05
  • $\begingroup$ @forecaster Yes fixed effects/ seasonal pulses are purely dterministic ... just as pulses/level shifts and local time trends. Furthermore the month of August (8) was not significant and was not in the final list. $\endgroup$
    – IrishStat
    Apr 19, 2015 at 21:18

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