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Content for a workshop on time series data analysis at AAS 237, Jan 2021

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AAS237-TimeSeries

This repo contains content for a workshop on time series data analysis held at the (virtual) 237th AAS Meeting on 8 January 2021.

Presenters:

The workshop had three sessions (separated by half-hour breaks):

  • Time series analysis using periodograms (Loredo): 11am - 1pm ET
  • New methods for analyzing irregularly sampled time series and point data (Scargle): 1:30pm - 3:30pm ET
  • New tools for spectro-temporal analysis of X ray time series data (Huppenkothen): 4pm - 6pm ET

The workshop included hands-on demonstrations using Python (in Jupyter notebooks), and some live demos in MATLAB (with code available for MATLAB users).

Background

The presentations assume participants have basic familiarity with the following topics:

  • Various types of astrophysical variability: periodic, quasi-periodic, stochastic, transient
  • Fourier transformers, Fourier series, and FFTs
  • Basic linear algebra (matrix inversion, eigenvalues & eigenvectors)
  • Common noise and data distributions:
    • Gaussian (normal)
    • Poisson
    • Multivariate normal
  • Parameter estimation via least squares, weighted least squares ($\chi^2$ minimization) and maximum likelihood
  • Basic familiarity with Bayesian data analysis
    • Bayes's theorem (priors, likelihoods, posteriors)
    • Marginalization, marginal distributions

Suggested reading for brushing up on some of these topics includes the following:

Computer preparation for the workshop

Please prepare you computer for the workshop before the workshop.

Do not postpone this until the last minute. Depending on what software you may already have installed, some steps of this setup may require time-consuming downloads.

We will presume participants have basic familiarity with terminal-based command line computing, and with the Python language and Jupyter notebooks.

To run the lab materials, you will need the following resources (version numbers are those we used for testing; earlier versions will likely work but it's safest to use these versions):

  • Python 3.8+
  • IPython 7+
  • The PyData stack (NumPy, SciPy, matplotlib...)

If you already have these resources installed and are feeling adventurous, feel free to use your own installation. But please note that the limited time we have for the workshop won't allow us to help with problems associated with specific installations.

We strongly recommend that you use the ts21 ("Time Series 2021") conda environment described below for running the lab materials. It's what we have used for developing the materials. If you already use a different (non-conda) Python distribution and are worried about conflicts, consider the Miniconda option mentioned below—it will minimally alter your default command-line environment, and install the new material in an encapsulated manner. If you are particularly concerned about conflicts, consider setting up a separate user account on your computer to use for the workshop (Anaconda installs material only in the user's account).

We will be revising lab materials up to the time of the workshop; please postpone downloading and running the material until then unless instructed otherwise here or via the workshop's Slack channel.

Installing the Anaconda ts21 environment

Set up a ts21 environment for the workshop as follows:

  • Install Anaconda with Python 3.8: Downloads | Anaconda. Exceptions:

    • If you already have Anaconda installed, you do not need to re-install it, even if you are using an older Python version.
    • If you have a customized command-line environment with a non-conda Python distribution, and you'd like a setup with minimal impact in your default environment, install Miniconda with Python 3.8 instead: Miniconda — Conda documentation.
  • Update the conda command-line package manager in a terminal/shell session by running conda update conda. The update command may report that it is changing your Anaconda package to a "custom" version. This will not be a problem.

  • Define and install the initial ts21 environment by using conda at the command line as follows (here "$" represents the prompt).

    $ conda create -n ts21 anaconda
  • Verify that the environment works by activating it. In your Terminal Window, run:

    $ conda activate ts21
  • Add the stingray package to the environment (this will also add several dependencies, such as statsmodels, emcee, and corner; note that you must run this command in the activated environment):

    $ conda install -c conda-forge stingray

    If you're not using conda to manage your Python distribution, see the installation instructions in the Stingray documentation.

  • We may provide some test code to run in the near future; stay tuned on Slack for announcements.

  • You may quit your terminal session, or deactivate the environment by running conda deactivate.

At this point you should be set up.

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