A collection of examples for using DNNs for time series forecasting with Keras. The examples include:
- 0_data_setup.ipynb - set up data that are needed for the experiments
- 1_CNN_dilated.ipynb - dilated convolutional neural network model that predicts one step ahead with univariate time series
- 2_RNN.ipynb - recurrent neural network model that predicts one step ahead with univariate time series
- 3_RNN_encoder_decoder.ipynb - a simple recurrent neural network encoder-decoder approach to multi-step forecasting
- 4_ES_RNN.ipynb - a simplified exponential smoothing recurrent neural network model that predicts one step ahead with univariate time series
... and a number of hands-on exercises and demos.
The data in all examples is from the GEFCom2014 energy forecasting competition1. It consists of 3 years of hourly electricity load data from the New England ISO and also includes hourly temperature data. Before running the notebooks, download the data from https://www.dropbox.com/s/pqenrr2mcvl0hk9/GEFCom2014.zip?dl=0 and save it in the data folder.
1Tao Hong, Pierre Pinson, Shu Fan, Hamidreza Zareipour, Alberto Troccoli and Rob J. Hyndman, "Probabilistic energy forecasting: Global Energy Forecasting Competition 2014 and beyond", International Journal of Forecasting, vol.32, no.3, pp 896-913, July-September, 2016.
- Know the basics of Python
- Know the basics of neural networks
- Understand the basic concepts of machine learning and have some experience in building machine learning models
- Go through the following setup instructions to run notebooks on Azure Notebooks environment
Note: If you want to run the notebook in other environment, please check 'Requirements.txt' for a list of packages that you need to install.
Microsoft Azure Notebooks is a free service that provides Jupyter Notebooks in cloud and has a support for R, Python and F#. We will use Microsoft Azure Notebook for this tutorial. Here are quick 3 steps to set it up:
- Go to Azure Notebook page https://notebooks.azure.com/ and click 'Sign In' on the top right.
- Use your Microsoft account to sign in. If you don't have a personal Microsoft account, you can click 'Create one' with any email address you have for free. (Note: You can use your personal Microsoft account. If you use your organizational account, you will need to go through the login process by your organization.)
- If this is the first time you use Azure Notebook, you will need to create a user ID and click 'Save'. Now you are all set!
The following steps will guide you to setup code and data in your Azure Notebook environment for the tutorial.
-
Once you are logged into Azure Notebooks, go to 'My Projects' on the top left, and then click 'Upload GitHub Repo'.
-
In the pop out window, for 'GitHub repository' type in: 'Azure/DeepLearningForTimeSeriesForecasting'. Select 'Clone recursively'. Then type in any name you prefer for 'Project Name' and 'Project ID'. Once you have filled all boxes, click 'Import'. Please wait till you see a list of files cloned from git repository to your project.
-
Open the notebook '0_data_setup.ipynb'. Make sure you see 'Python 3.6' kernel on the top right. If not, you can select 'Kernel', then 'Change kernel' to make changes.
-
Run each cell in the notebook by click 'Run' on top. If you prefer to run all the cells together, click 'Cell' and select 'Run All'. This notebook will download a sample dataset to your environment and visualize the data. Please wait and make sure you can see all the visualizations.
Now you are all set! (Note: If you see errors return from the first code cell, it is very likely that the environment preparation is not finished yet. Please wait for 2 minutes and then go to 'Kernel', choose 'Restart and Clear Output' and rerun the cells.)