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Paper detail

Enhancing Gravitational-Wave Science with Machine Learning

Machine learning has emerged as a popular and powerful approach for solving problems in astrophysics. We review applications of machine learning techniques for the analysis of ground-based gravitational-wave detector data. Examples include techniques for improving the sensitivity of Advanced LIGO and Advanced Virgo gravitational-wave searches, methods for fast measurements of the astrophysical parameters of gravitational-wave sources, and algorithms for reduction and characterization of non-astrophysical detector noise. These applications demonstrate how machine learning techniques may be harnessed to enhance the science that is possible with current and future gravitational-wave detectors.

preprint2020arXivOpen access
Elena CuocoJade PowellMarco CavagliàKendall AckleyMichal BejgerChayan ChatterjeeMichael CoughlinScott CoughlinPaul EasterReed EssickHunter GabbardTimothy GebhardShaon GhoshLeila HaegelAlberto IessDavid KeitelZsuzsa MarkaSzabolcs MarkaFilip MorawskiTri NguyenRich OrmistonMichael PuerrerMassimiliano RazzanoKai StaatsGabriele VajenteDaniel Williams
astro-ph.HEgr-qc
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Elena CuocoJade PowellMarco CavagliàKendall AckleyMichal BejgerChayan ChatterjeeMichael CoughlinScott CoughlinPaul EasterReed EssickHunter GabbardTimothy GebhardShaon GhoshLeila HaegelAlberto IessDavid KeitelZsuzsa MarkaSzabolcs MarkaFilip MorawskiTri NguyenRich OrmistonMichael PuerrerMassimiliano RazzanoKai StaatsGabriele VajenteDaniel Williams

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