Litcius/Paper detail

Application of dictionary learning to denoise LIGO’s blip noise transients

A. Torres-Forné, E. Cuoco, José A. Font, Antonio Marquina

2020Physical review. D/Physical review. D.40 citationsDOIOpen Access PDF

Abstract

Data streams of gravitational-wave detectors are polluted by transient noise features, or ``glitches,'' of instrumental and environmental origin. In this work we investigate the use of total variation methods and learned dictionaries to mitigate the effect of those transients in the data. We focus on a specific type of transient, ``blip" glitches, as this is the most common type of glitch present in the LIGO detectors and their waveforms are easy to identify. We randomly select 100 blip glitches scattered in the data from advanced LIGO's O1 run, as provided by the citizen-science project Gravity Spy. Our results show that dictionary-learning methods are a valid approach to model and subtract most of the glitch contribution in all cases analyzed, particularly at frequencies below $\ensuremath{\sim}1\text{ }\text{ }\mathrm{kHz}$. The high-frequency component of the glitch is best removed when a combination of dictionaries with different atom length is employed. As a further example we apply our approach to the glitch visible in the LIGO-Livingston data around the time of merger of binary neutron star signal GW170817, finding satisfactory results. This paper is the first step in our ongoing program to automatically classify and subtract all families of gravitational-wave glitches employing variational methods.

Topics & Concepts

GlitchLIGONoise (video)Gravitational waveBinary numberNeutron starPhysicsDetectorWaveformAlgorithmComputer scienceTransient (computer programming)AstrophysicsArtificial intelligenceTelecommunicationsOpticsMathematicsArithmeticRadarOperating systemImage (mathematics)Pulsars and Gravitational Waves ResearchSeismic Waves and AnalysisSeismic Imaging and Inversion Techniques