Multiple phase detection and parameter estimation for processing seismic array data

A broad-band maximum likelihood method is presented for detection of and parameter extraction from seismic events using wideband data recorded by an array of seismic stations. The statistical characteristics of finite Fourier transformed data motivate the use of approximate maximum likelihood (ML) m...

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Bibliographic Details
Main Authors: Pei-Jung Chung, Jost, M.L., Bohme, J.F.
Format: Conference Proceeding
Language:English
Subjects:
Azimuth
Event detection
Maximum likelihood detection
Maximum likelihood estimation
Parameter estimation
Phase detection
Phased arrays
Sensor arrays
Testing
Wideband
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Description
Summary:A broad-band maximum likelihood method is presented for detection of and parameter extraction from seismic events using wideband data recorded by an array of seismic stations. The statistical characteristics of finite Fourier transformed data motivate the use of approximate maximum likelihood (ML) methods which allow simultaneous detection and wave parameter estimation. The detection strategy based on the likelihood ratio can not only indicate the presence of a seismic event but can also detect different phases of seismic events arriving within a time interval of interest. The corresponding azimuths and apparent velocities of the phases are simultaneously estimated by optimization of the likelihood function over parameters of interest. The potential of the wideband ML method is demonstrated on GERESS data and compared to conventional f-k analysis showing advantages of the former in detection and resolution.
ISSN:1520-6149
2379-190X
DOI:10.1109/ICASSP.2000.861212