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Auteurs principaux: John, Sebin, West, Michael E.
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2410.14071
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author John, Sebin
West, Michael E.
author_facet John, Sebin
West, Michael E.
contents The methodology developed by McNamara and Buland (2004) for computing Power Spectral Densities (PSDs) has gained popularity due to its low computational cost and reduction of spectral variance. This methodology is widely used in seismic noise studies and station performance evaluations and is implemented in tools like ISPAQ, MUSTANG, and PQLX. However, concerns have been raised about its appropriateness in certain contexts, particularly when high-resolution spectral detail is required. This study evaluates McNamara and Buland's methodology by comparing it with Welch's method across three Alaskan stations with differing microseism conditions. When calculating seismic power across a band of frequencies--for example, the 5-10s secondary microseism--we find that both methodologies produce time series with nearly identical trends, albeit with slight differences in absolute power values. Our results demonstrate that McNamara and Buland's methodology is fully appropriate for certain applications, specifically ones that rely on averaged seismic energy over a frequency band as opposed to a single discrete frequency.
format Preprint
id arxiv_https___arxiv_org_abs_2410_14071
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Appropriateness of the McNamara and Buland's (2004) methodology for computing frequency-dependent seismic power
John, Sebin
West, Michael E.
Geophysics
The methodology developed by McNamara and Buland (2004) for computing Power Spectral Densities (PSDs) has gained popularity due to its low computational cost and reduction of spectral variance. This methodology is widely used in seismic noise studies and station performance evaluations and is implemented in tools like ISPAQ, MUSTANG, and PQLX. However, concerns have been raised about its appropriateness in certain contexts, particularly when high-resolution spectral detail is required. This study evaluates McNamara and Buland's methodology by comparing it with Welch's method across three Alaskan stations with differing microseism conditions. When calculating seismic power across a band of frequencies--for example, the 5-10s secondary microseism--we find that both methodologies produce time series with nearly identical trends, albeit with slight differences in absolute power values. Our results demonstrate that McNamara and Buland's methodology is fully appropriate for certain applications, specifically ones that rely on averaged seismic energy over a frequency band as opposed to a single discrete frequency.
title Appropriateness of the McNamara and Buland's (2004) methodology for computing frequency-dependent seismic power
topic Geophysics
url https://arxiv.org/abs/2410.14071