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      KCI등재 SCI SCIE SCOPUS

      Time series anomaly detection for gravitational-wave detectors based on the Hilbert–Huang transform

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      https://www.riss.kr/link?id=A107458157

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      다국어 초록 (Multilingual Abstract)

      We present a new event trigger generator based on the Hilbert–Huang transform, named EtaGen (ηGen). It decomposes time-series data into several adaptive modes without imposing a priori bases on the data. The adaptive modes are used to find transien...

      We present a new event trigger generator based on the Hilbert–Huang transform, named EtaGen (ηGen). It decomposes time-series data into several adaptive modes without imposing a priori bases on the data. The adaptive modes are used to find transients (excesses) in the background noises. A clustering algorithm is used to gather excesses corresponding to a single event and to reconstruct its waveform. The performance of EtaGen is evaluated by how many injections are found in the LIGO simulated data. EtaGen is viable as an event trigger generator when compared directly with the performance of Omicron, which is currently the best event trigger generator used in the LIGO Scientific Collaboration and Virgo Collaboration.

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      참고문헌 (Reference)

      1 R. Faltermeier, "Weighted sliding empirical mode decomposition" 03 (03): 509-526, 2011

      2 McIver, J. L., "The impact of terrestrial noise on the detectability and reconstruction of gravitational wave signals from corecollapse supernovae" Massachusetts U. 2015

      3 N. E. Huang, "The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis" 454 (454): 903-995, 1998

      4 Faltermeier, R, "Sliding empirical mode decomposition" 1-8, 2010

      5 G. Wang, "On intrinsic mode function" 02 (02): 277-293, 2010

      6 A. Stroeer, "Ninja data analysis with a detection pipeline based on the Hilbert–Huang Transform" 26 : 114012-, 2009

      7 A. Stroeer, "Methods for detection and characterization of signals in noisy data with the Hilbert–Huang transform" 79 : 124022-, 2009

      8 Nuttall, L, "Improving the data quality of advanced ligo based on early engineering run results" 32 (32): 245005-,

      9 N.E. Huang, "Hilbert-Huang Transform and Its Applications" WORLD SCIENTIFIC 2005

      10 P. Flandrin, "Goncalves, Empirical mode decomposition as a flter bank" 11 (11): 112-114, 2004

      1 R. Faltermeier, "Weighted sliding empirical mode decomposition" 03 (03): 509-526, 2011

      2 McIver, J. L., "The impact of terrestrial noise on the detectability and reconstruction of gravitational wave signals from corecollapse supernovae" Massachusetts U. 2015

      3 N. E. Huang, "The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis" 454 (454): 903-995, 1998

      4 Faltermeier, R, "Sliding empirical mode decomposition" 1-8, 2010

      5 G. Wang, "On intrinsic mode function" 02 (02): 277-293, 2010

      6 A. Stroeer, "Ninja data analysis with a detection pipeline based on the Hilbert–Huang Transform" 26 : 114012-, 2009

      7 A. Stroeer, "Methods for detection and characterization of signals in noisy data with the Hilbert–Huang transform" 79 : 124022-, 2009

      8 Nuttall, L, "Improving the data quality of advanced ligo based on early engineering run results" 32 (32): 245005-,

      9 N.E. Huang, "Hilbert-Huang Transform and Its Applications" WORLD SCIENTIFIC 2005

      10 P. Flandrin, "Goncalves, Empirical mode decomposition as a flter bank" 11 (11): 112-114, 2004

      11 Abbott, B. P, "GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs"

      12 Abbott, B. P, "GW170817:Observation of Gravitational Waves from a Binary Neutron Star Inspiral" 119 (119): 161101-, 2017

      13 Abbott, B. P., "GW170814: A Three-Detector Observation of Gravitational Waves from a Binary Black Hole Coalescence" 119 (119): 141101-, 2017

      14 Abbott, B. P, "GW170104:Observation of a 50-Solar-Mass Binary Black Hole Coalescence at Redshift 0.2" 118 (118): 221101-, 2017

      15 Abbott, B. P, "GW151226: Observation of Gravitational Waves from a 22-Solar-Mass Binary Black Hole Coalescence" 116 (116): 241103-, 2016

      16 Abbott, B. P, "GW150914:Implications for the stochastic gravitational wave background from binary black holes" 116 (116): 131102-, 2016

      17 Abbott, B. P, "Exploring the Sensitivity of Next Generation Gravitational Wave Detectors" 34 (34): 044001-, 2017

      18 K. Sakai, "Estimation of starting times of quasi-normal modes in ringdown gravitational waves with the Hilbert-Huang transform" 96 (96): 044047-, 2017

      19 Z. Wu, "Ensemble empirical mode decomposition:a noise-assisted data analysis method" 01 (01): 1-41, 2009

      20 Abbott, B. P, "Characterization of transient noise in Advanced LIGO relevant to gravitational wave signal GW150914" 33 (33): 134001-, 2016

      21 J. B. Camp, "Application of the Hilbert–Huang transform to the search for gravitational waves" 75 : 061101-, 2007

      22 M. Kaneyama, "Analysis of gravitational waves from binary neutron star merger by Hilbert–Huang transform" 93 (93): 123010-, 2016

      23 Rousseeuw, P. J, "Alternatives to the median absolute deviation" (424) :

      24 N. E. Huang, "A review on hilbert-huang transform: method and its applications to geophysical studies" 46 (46): RG2006-, 2008

      25 N. E. Huang, "A confdence limit for the empirical mode decomposition and Hlbert spectral analysis" 459 (459): 2317-2345, 2003

      26 G. Valdes, "A Hilbert–Huang transform method for scattering identifcation in LIGO" 34 (34): 235009-, 2017

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      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.47 0.15 0.31
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.26 0.2 0.26 0.03
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