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Project Descriptions

INSPIRE: Teaming Citizen Science with Machine Learning to Deepen LIGO's View of the Cosmos

October 1, 2015 - September 30, 2019 | Media and Technology, Public Programs

This INSPIRE award is partially funded by the Cyber-Human Systems Program in the Division of Information and Intelligent Systems in the Directorate for Computer Science and Engineering, the Gravitational Physics Program in the Division of Physics in the Directorate for Mathematical and Physical Sciences, and the Office of Integrative Activities.

This innovative project will develop a citizen science system to support the Advanced Laser Interferometer Gravitational wave Observatory (aLIGO), the most complicated experiment ever undertaken in gravitational physics. Before the end of this decade it will open up the window of gravitational wave observations on the Universe. However, the high detector sensitivity needed for astrophysical discoveries makes aLIGO very susceptible to noncosmic artifacts and noise that must be identified and separated from cosmic signals. Teaching computers to identify and morphologically classify these artifacts in detector data is exceedingly difficult. Human eyesight is a proven tool for classification, but the aLIGO data streams from approximately 30,000 sensors and monitors easily overwhelm a single human. This research will address these problems by coupling human classification with a machine learning model that learns from the citizen scientists and also guides how information is provided to participants. A novel feature of this system will be its reliance on volunteers to discover new glitch classes, not just use existing ones. The project includes research on the human-centered computing aspects of this sociocomputational system, and thus can inspire future citizen science projects that do not merely exploit the labor of volunteers but engage them as partners in scientific discovery. Therefore, the project will have substantial educational benefits for the volunteers, who will gain a good understanding on how science works, and will be a part of the excitement of opening up a new window on the universe.

This is an innovative, interdisciplinary collaboration between the existing LIGO, at the time it is being technically enhanced, and Zooniverse, which has fielded a workable crowdsourcing model, currently involving over a million people on 30 projects. The work will help aLIGO to quickly identify noise and artifacts in the science data stream, separating out legitimate astrophysical events, and allowing those events to be distributed to other observatories for more detailed source identification and study. This project will also build and evaluate an interface between machine learning and human learning that will itself be an advance on current methods. It can be depicted as a loop: (1) By sifting through enormous amounts of aLIGO data, the citizen scientists will produce a robust "gold standard" glitch dataset that can be used to seed and train machine learning algorithms that will aid in the identification task. (2) The machine learning protocols that select and classify glitch events will be developed to maximize the potential of the citizen scientists by organizing and passing the data to them in more effective ways. The project will experiment with the task design and workflow organization (leveraging previous Zooniverse experience) to build a system that takes advantage of the distinctive strengths of the machines (ability to process large amounts of data systematically) and the humans (ability to identify patterns and spot discrepancies), and then using the model to enable high quality aLIGO detector characterization and gravitational wave searches

Funders

NSF
Funding Program: LIGO RESEARCH SUPPORT, OFFICE OF MULTIDISCIPLINARY AC, Information Technology Researc, COMPUTATIONAL PHYSICS, CHS-Cyber-Human Systems, INSPIRE
Award Number: 1547880
Funding Amount: $1,015,663

TEAM MEMBERS

  • Vassiliki Kalogera
    Principal Investigator
    Northwestern University
  • Aggelos Katsaggelos
    Co-Principal Investigator
  • Kevin Crowston
    Co-Principal Investigator
  • REVISE logo
    Co-Principal Investigator
  • Joshua Smith
    Co-Principal Investigator
  • Shane Larson
    Co-Principal Investigator
  • Laura Whyte
    Co-Principal Investigator
  • Discipline: Computing and information science | Physics
    Audience: General Public | Scientists
    Environment Type: Media and Technology | Websites, Mobile Apps, and Online Media | Public Programs | Citizen Science Programs

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