StatsForecast offers a collection of widely used univariate time series forecasting models, including automatic ARIMA, ETS, CES, and Theta modeling optimized for high performance using numba. It also includes a large battery of benchmarking models.
You can install StatsForecast with:
pip install statsforecast
or
conda install -c conda-forge statsforecast
Vist our Installation Guide for further instructions.
Minimal Example
from statsforecast import StatsForecast
from statsforecast.models import AutoARIMA
from statsforecast.utils import AirPassengersDF
df = AirPassengersDF
sf = StatsForecast(
models = [AutoARIMA(season_length = 12)],
freq = 'M'
)
sf.fit(df)
sf.predict(h=12, level=[95])
Get Started with this quick guide.
Follow this end-to-end walkthrough for best practices.
Current Python alternatives for statistical models are slow, inaccurate and don't scale well. So we created a library that can be used to forecast in production environments or as benchmarks. StatsForecast includes an extensive battery of models that can efficiently fit millions of time series.
AutoARIMA, AutoETS, AutoCES, MSTL and Theta in Python..fit and .predict.exogenous variables and prediction intervals for ARIMA.pmdarima.R.Prophet.statsmodels.numba.Missing something? Please open an issue or write us in
📚 End to End Walkthrough: Model training, evaluation and selection for multiple time series
🔎 Anomaly Detection: detect anomalies for time series using in-sample prediction intervals.
👩🔬 Cross Validation: robust model’s performance evaluation.
❄️ Multiple Seasonalities: how to forecast data with multiple seasonalities using an MSTL.
🔌 Predict Demand Peaks: electricity load forecasting for detecting daily peaks and reducing electric bills.
📈 Intermittent Demand: forecast series with very few non-zero observations.
🌡️ Exogenous Regressors: like weather or prices
Automatic forecasting tools search for the best parameters and select the best possible model for a group of time series. These tools are useful for large collections of univariate time series.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| AutoARIMA | ✅ | ✅ | ✅ | ✅ | ✅ |
| AutoETS | ✅ | ✅ | ✅ | ✅ | |
| AutoCES | ✅ | ✅ | ✅ | ✅ | |
| AutoTheta | ✅ | ✅ | ✅ | ✅ |
These models exploit the existing autocorrelations in the time series.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| ARIMA | ✅ | ✅ | ✅ | ✅ | ✅ |
| AutoRegressive | ✅ | ✅ | ✅ | ✅ | ✅ |
Fit two theta lines to a deseasonalized time series, using different techniques to obtain and combine the two theta lines to produce the final forecasts.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| Theta | ✅ | ✅ | ✅ | ✅ | |
| OptimizedTheta | ✅ | ✅ | ✅ | ✅ | |
| DynamicTheta | ✅ | ✅ | ✅ | ✅ | |
| DynamicOptimizedTheta | ✅ | ✅ | ✅ | ✅ |
Suited for signals with more than one clear seasonality. Useful for low-frequency data like electricity and logs.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| MSTL | ✅ | ✅ | ✅ | ✅ | If trend forecaster supports |
Suited for modeling time series that exhibit non-constant volatility over time. The ARCH model is a particular case of GARCH.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| GARCH | ✅ | ✅ | ✅ | ✅ | |
| ARCH | ✅ | ✅ | ✅ | ✅ |
Classical models for establishing baseline.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| HistoricAverage | ✅ | ✅ | ✅ | ✅ | |
| Naive | ✅ | ✅ | ✅ | ✅ | |
| RandomWalkWithDrift | ✅ | ✅ | ✅ | ✅ | |
| SeasonalNaive | ✅ | ✅ | ✅ | ✅ | |
| WindowAverage | ✅ | ||||
| SeasonalWindowAverage | ✅ |
Uses a weighted average of all past observations where the weights decrease exponentially into the past. Suitable for data with clear trend and/or seasonality. Use the SimpleExponential family for data with no clear trend or seasonality.
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| SimpleExponentialSmoothing | ✅ | ||||
| SimpleExponentialSmoothingOptimized | ✅ | ||||
| SeasonalExponentialSmoothing | ✅ | ||||
| SeasonalExponentialSmoothingOptimized | ✅ | ||||
| Holt | ✅ | ✅ | ✅ | ✅ | |
| HoltWinters | ✅ | ✅ | ✅ | ✅ |
Suited for series with very few non-zero observations
| Model | Point Forecast | Probabilistic Forecast | Insample fitted values | Probabilistic fitted values | Exogenous features |
|---|---|---|---|---|---|
| ADIDA | ✅ | ✅ | ✅ | ||
| CrostonClassic | ✅ | ✅ | ✅ | ||
| CrostonOptimized | ✅ | ✅ | ✅ | ||
| CrostonSBA | ✅ | ✅ | ✅ | ||
| IMAPA | ✅ | ✅ | ✅ | ||
| TSB | ✅ | ✅ | ✅ |
See CONTRIBUTING.md.
@misc{garza2022statsforecast,
author={Federico Garza, Max Mergenthaler Canseco, Cristian Challú, Kin G. Olivares},
title = {{StatsForecast}: Lightning fast forecasting with statistical and econometric models},
year={2022},
howpublished={{PyCon} Salt Lake City, Utah, US 2022},
url={https://github.com/Nixtla/statsforecast}
}
Thanks goes to these wonderful people (emoji key):
This project follows the all-contributors specification. Contributions of any kind welcome!
FAQs
Time series forecasting suite using statistical models
We found that statsforecast demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 3 open source maintainers collaborating on the project.
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