Skip to content

Open, versioned taxonomy for astronomical time-series sources

License

Notifications You must be signed in to change notification settings

sydneyjenkins/timedomain-taxonomy

 
 

Repository files navigation

Time-domain Astronomy Taxonomy

Build Status

This project helps us track and version a taxonomy for astronomical time-series sources, for transients (e.g., supernovae and tidal-distruption events), continuous variables (e.g., QSOs) and variable stars (RR Lyrae, δ-Scuti). It is open source and we welcome PRs to change/update this taxonomy as need be.

The generic structure is human-readable YAML and looks like:

  class: Supernova
  comments: |
      This is a diverse class of explosions related
      to the end-of-life of stars.
  links:
    - https://astrobites.org/2016/12/02/classifying-supernovae/
    - https://en.wikipedia.org/wiki/Supernova
  tags: [explosive, transient]
  other names: [SN, sn, sne, supernova, supernovae]
  subclasses:
  - class: Type I
    tags: [hydrogen poor]
    other names: [SN Type I]
    subclasses:
    - class: Ia
      tags: [white dwarf, cosmology, thermonuclear]
      other names: [Ia-p, SN Ia, SNIa, supernovae Ia, SNe Ia]
      subclasses:
      - class: Ia-pec
        tags: [peculiar]
        other names: [SN Ia-pec, SNIa-pec, Ia-p]
     ...

There are two ways to describe the class. Either refer to another YAML file:

- class: Stellar variable
    subclasses:
      - ref: cataclysmic.yaml
      - ref: eclipsing.yaml
      - ...

or define the classes outright:

  - class: Novae
    tags: [binary]
    subclasses:
      - class: Classical Nova
        other names: []

In this case only the class name is required at each level. Other keys (subclasses, comments, tags, other names, and links) are allowed but not required. The schema is created such that the classification hierarchy is nested: each member of the subclasses array is itself a class. The idea of tags is to allow for a query of different class members throughout the taxonomy by a similar observation or physical inference (e.g., a search on cosmology could return both Ia and IIP supernovae).

Installation

git clone https://github.com/profjsb/timedomain-taxonomy.git
cd timedomain-taxonomy
pip install .

Usage

To get the taxonomy, after installation, as a Python dict:

import tdtax
from tdtax import taxonomy

This will merge all the YAML taxonomy files referred to in the top.yaml file and check to make sure that the taxonomy is validate against the schema.

To output the current taxonomy to a webpage that can be interactively traversed:

import tdtax
tdtax.write_viz(tdtax.vega_taxonomy, outname="viz.html")

This will write a file viz.html which can be viewed in your browser. The tags associated with each node is shown upon hover.

Contributing

The taxonomy is captured starting the file tdtax/top.yaml. It refers to other YAML files which contain classification hierarchies for subclasses.

Upon import tdtax the taxonomies are merged into a single JSON tree and this is validated against the schema file tdtax/schema.json. Before a PR, test to make sure that taxonomy validates against the schema by running the tests:

pytest

This uses PyYAML to validate the taxonomy against the schema. When you make a PR, your branch will be automatically be tested with Travis CI.

About

Open, versioned taxonomy for astronomical time-series sources

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Python 59.3%
  • HTML 40.7%