Intro¶
AutoTS¶
Forecasting Model Selection for Multiple Time Series
AutoML for forecasting with open-source time series implementations.
For other time series needs, check out the list here.
Features¶
Finds optimal time series forecasting model and data transformations by genetic programming optimization
Handles univariate and multivariate/parallel time series
Point and probabilistic upper/lower bound forecasts for all models
Twenty-two available model classes, with tens of thousands of possible hyperparameter configurations
Includes naive, statistical, machine learning, and deep learning models
Multiprocessing for univariate models for scalability on multivariate datasets
Ability to add external regressors
Over thirty time series specific data transformations
Ability to handle messy data by learning optimal NaN imputation and outlier removal
Allows automatic ensembling of best models
‘horizontal’ ensembling on multivariate series - learning the best model for each series
Multiple cross validation options
Subsetting and weighting to improve search on many multivariate series
Option to use one or a combination of metrics for model selection
Import and export of model templates for deployment and greater user customization
Installation¶
pip install autots
This includes dependencies for basic models, but additonal packages are required for some models and methods.
Basic Use¶
Input data is expected to come in either a long or a wide format:
The wide format is a
pandas.DataFrame
with apandas.DatetimeIndex
and each column a distinct series.The long format has three columns:
Date (ideally already in pd.DateTime format)
Series ID. For a single time series, series_id can be
= None
.Value
For long data, the column name for each of these is passed to .fit() as
date_col
,id_col
, andvalue_col
. No parameters are needed for wide data.
# also: _hourly, _daily, _weekly, or _yearly
from autots.datasets import load_monthly
df_long = load_monthly()
from autots import AutoTS
model = AutoTS(
forecast_length=3,
frequency='infer',
prediction_interval=0.9,
ensemble='all',
model_list='superfast',
max_generations=5,
num_validations=2,
validation_method='even',
)
model = model.fit(df_long, date_col='datetime', value_col='value', id_col='series_id')
# Print the details of the best model
print(model)
prediction = model.predict()
# point forecasts dataframe
forecasts_df = prediction.forecast
# accuracy of all tried model results
model_results = model.results()
# and aggregated from cross validation
validation_results = model.results("validation")
Check out extended_tutorial.md for a more detailed guide to features!
How to Contribute:¶
Give feedback on where you find the documentation confusing
Use AutoTS and…
Report errors and request features by adding Issues on GitHub
Posting the top model templates for your data (to help improve the starting templates)
Feel free to recommend different search grid parameters for your favorite models
And, of course, contributing to the codebase directly on GitHub!
Also known as Project CATS (Catlin’s Automated Time Series) hence the logo.