Persistent Monitoring of Urban Infrasound Phenomenology-Report 2: Investigation of Structural Infrasound Signals in an Urban Environment

Historically, infrasound arrays have been deployed in rural environments where anthropological noise sources are limited. As interest in monitoring sources at local distances grows in the infrasound community, it is vital to understand how to monitor infrasound sources in an urban environment. Array...

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Bibliographic Details
Main Authors: McComas,Sarah L, Diaz-Alvarez,Henry, Simpson,Chris, McKenna,Mihan H, Pace,Michael E
Format: Report
Language:English
Subjects:
acoustic arrays
Acoustics
azimuth
case studies
cities
CONTINUOUS WAVE packets
CONTINUOUS WAVES
data processing
frequency wavenumber analysis
INFRASOUND
monitoring
REMOTE SENSING
Signal processing
SIGNAL TO NOISE RATIO
Source separation
URBAN AREAS
WAVE PROPAGATION
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Summary:Historically, infrasound arrays have been deployed in rural environments where anthropological noise sources are limited. As interest in monitoring sources at local distances grows in the infrasound community, it is vital to understand how to monitor infrasound sources in an urban environment. Arrays deployed in urban centers have to overcome the decreased signal-to-noise ratio and the reduced amount of real estate available to deploy an array. To advance the understanding of monitoring infrasound sources in urban environments, local and regional infrasound arrays were deployed on rooftops of the campus of Southern Methodist University (SMU) to collect data for one seasonal cycle. The data were evaluated for structural source signals (continuous-wave packets). When a signal was identified, the back azimuth to the source was determined through frequency wavenumber analysis. This information was used to identify hypothesized structural sources; these sources were verified through direct measurement followed by structural numerical modeling. Wave propagation modeling was completed to understand how the urban infrastructure affects infrasound propagation by tying the direct source measurements to the original infrasound observations. The wave propagation study was focused on a single season. This study demonstrated that infrasound arrays deployed in urban environments could detect structural sources with success.