Data

Tools

Indexes

Applications

Experiments

Open Source Science

https://github.com/diging/sirisaac

Automated dynamical systems inference

https://github.com/diging/sirisaac

Science Score: 21.0%

This score indicates how likely this project is to be science-related based on various indicators:

  • CITATION.cff file
  • codemeta.json file
  • .zenodo.json file
  • DOI references
    Found 6 DOI reference(s) in README
  • Academic publication links
  • Academic email domains
  • Institutional organization owner
    Organization diging has institutional domain (diging.asu.edu)
  • JOSS paper metadata
  • Scientific vocabulary similarity
    Low similarity (7.2%) to scientific vocabulary
Last synced: 5 months ago · JSON representation

Repository

Automated dynamical systems inference

Basic Info
  • Host: GitHub
  • Owner: diging
  • License: mit
  • Default Branch: master
  • Size: 1.95 MB
Statistics
  • Stars: 0
  • Watchers: 2
  • Forks: 0
  • Open Issues: 4
  • Releases: 0
Fork of EmoryUniversityTheoreticalBiophysics/SirIsaac
Created almost 5 years ago · Last pushed over 4 years ago
Metadata Files
Readme License

README.md

SirIsaac

Automated dynamical systems inference.

Main goal: Given experimental dynamical systems trajectories, find a dynamical system that can predict future trajectories.

References

An example of the SirIsaac algorithm applied to experimental data appears in the following publication:

  • Daniels, B. C., Ryu, W. S., & Nemenman, I. (2019). Automated, predictive, and interpretable inference of Caenorhabditis elegans escape dynamics. Proc. Natl. Acad. Sci. USA.
    https://doi.org/10.1073/pnas.1816531116

Details of the theory and rationale behind the SirIsaac approach are described here:

  • Daniels, B. C., & Nemenman, I. (2015). Automated adaptive inference of phenomenological dynamical models. Nature Communications, 6, 8133.
    https://doi.org/10.1038/ncomms9133

  • Daniels, B. C., & Nemenman, I. (2015). Efficient Inference of Parsimonious Phenomenological Models of Cellular Dynamics Using S-Systems and Alternating Regression. Plos One, 10(3), e0119821.
    https://doi.org/10.1371/journal.pone.0119821

Dependencies

Python 2.6 or later (not Python 3)
Scipy
Matplotlib
(One way to install the above is with Anaconda or Sage. See Installation.md.)

SloppyCell (https://github.com/GutenkunstLab/SloppyCell)

Optional dependencies

mpi4py (for running on multiple processors)
SBML (systems biology markup language)
BioNetGen
Pygraphviz (for creating network diagrams)
ipython (for reading ipython notebook file describing example usage)

Contributors

Bryan Daniels, Ilya Nemenman

Owner

  • Name: ASU Digital Innovation Group
  • Login: diging
  • Kind: organization
  • Location: Tempe, Arizona

GitHub Events

Total
Last Year