Long-Term Ambient Noise Statistics in the Gulf of Mexico

Long-term omni-directional ambient noise was collected at several sites in the Gulf of Mexico during 2004 and 2005. The Naval Oceanographic Office deployed bottom moored Environmental Acoustic Recording System (EARS) buoys approximately 159 nautical miles south of Panama City, Florida, in water d...

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Main Author: Snyder, Mark Alan
Format: Others
Published: ScholarWorks@UNO 2007
Subjects:
Online Access:http://scholarworks.uno.edu/td/595
http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=1595&context=td
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spelling ndltd-uno.edu-oai-scholarworks.uno.edu-td-15952016-10-21T17:04:30Z Long-Term Ambient Noise Statistics in the Gulf of Mexico Snyder, Mark Alan Long-term omni-directional ambient noise was collected at several sites in the Gulf of Mexico during 2004 and 2005. The Naval Oceanographic Office deployed bottom moored Environmental Acoustic Recording System (EARS) buoys approximately 159 nautical miles south of Panama City, Florida, in water depths of 3200 meters. The hydrophone of each buoy was 265 meters above the bottom. The data duration ranged from 10-14 months. The buoys were located near a major shipping lane, with an estimated 1.5 to 4.5 ships per day passing nearby. The data were sampled at 2500 Hz and have a bandwidth of 10-1000 Hz. Data are processed in eight 1/3-octave frequency bands, centered from 25 to 950 Hz, and monthly values of the following statistical quantities are computed from the resulting eight time series of noise spectral level: mean, median, standard deviation, skewness, kurtosis and coherence time. Four hurricanes were recorded during the summer of 2004 and they have a major impact on all of the noise statistics. Noise levels at higher frequencies (400-950 Hz) peak during extremely windy months (summer hurricanes and winter storms). Standard deviation is least in the region 100-200 Hz but increases at higher frequencies, especially during periods of high wind variability (summer hurricanes). Skewness is positive from 25-400 Hz and negative from 630-950 Hz. Skewness and kurtosis are greatest near 100 Hz. Coherence time is low in shipping bands and high in weather bands, and it peaks during hurricanes. The noise coherence is also analyzed. The 14-month time series in each 1/3- octave band is highly correlated with other 1/3-octave band time series ranging from 2 octaves below to 2 octaves above the band's center frequency. Spatial coherence between hydrophones is also analyzed for hydrophone separations of 2.29, 2.56 and 4.84 km over a 10-month period. The noise field is highly coherent out to the maximum distance studied, 4.84 km. Additionally, fluctuations of each time series are analyzed to determine time scales of greatest variability. The 14-month data show clearly that variability occurs primarily over three time scales: 7-22 hours (shipping-related), 56-282 hours (2-12 days, weather-related) and over an 8-12 month period. 2007-12-15T08:00:00Z text application/pdf http://scholarworks.uno.edu/td/595 http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=1595&context=td University of New Orleans Theses and Dissertations ScholarWorks@UNO Ambient noise autocorrelation acoustics coherence correlation fluctuations Fourier transform Gulf of Mexico hurricanes kurtosis long-term omni-directional percentiles power spectral density probability density functions shipping noise skewness spectrogram standard deviation statistics underwater variability variance wave height weather noise wind speed.
collection NDLTD
format Others
sources NDLTD
topic Ambient noise
autocorrelation
acoustics
coherence
correlation
fluctuations
Fourier transform
Gulf of Mexico
hurricanes
kurtosis
long-term
omni-directional
percentiles
power spectral density
probability density functions
shipping noise
skewness
spectrogram
standard deviation
statistics
underwater
variability
variance
wave height
weather noise
wind speed.
spellingShingle Ambient noise
autocorrelation
acoustics
coherence
correlation
fluctuations
Fourier transform
Gulf of Mexico
hurricanes
kurtosis
long-term
omni-directional
percentiles
power spectral density
probability density functions
shipping noise
skewness
spectrogram
standard deviation
statistics
underwater
variability
variance
wave height
weather noise
wind speed.
Snyder, Mark Alan
Long-Term Ambient Noise Statistics in the Gulf of Mexico
description Long-term omni-directional ambient noise was collected at several sites in the Gulf of Mexico during 2004 and 2005. The Naval Oceanographic Office deployed bottom moored Environmental Acoustic Recording System (EARS) buoys approximately 159 nautical miles south of Panama City, Florida, in water depths of 3200 meters. The hydrophone of each buoy was 265 meters above the bottom. The data duration ranged from 10-14 months. The buoys were located near a major shipping lane, with an estimated 1.5 to 4.5 ships per day passing nearby. The data were sampled at 2500 Hz and have a bandwidth of 10-1000 Hz. Data are processed in eight 1/3-octave frequency bands, centered from 25 to 950 Hz, and monthly values of the following statistical quantities are computed from the resulting eight time series of noise spectral level: mean, median, standard deviation, skewness, kurtosis and coherence time. Four hurricanes were recorded during the summer of 2004 and they have a major impact on all of the noise statistics. Noise levels at higher frequencies (400-950 Hz) peak during extremely windy months (summer hurricanes and winter storms). Standard deviation is least in the region 100-200 Hz but increases at higher frequencies, especially during periods of high wind variability (summer hurricanes). Skewness is positive from 25-400 Hz and negative from 630-950 Hz. Skewness and kurtosis are greatest near 100 Hz. Coherence time is low in shipping bands and high in weather bands, and it peaks during hurricanes. The noise coherence is also analyzed. The 14-month time series in each 1/3- octave band is highly correlated with other 1/3-octave band time series ranging from 2 octaves below to 2 octaves above the band's center frequency. Spatial coherence between hydrophones is also analyzed for hydrophone separations of 2.29, 2.56 and 4.84 km over a 10-month period. The noise field is highly coherent out to the maximum distance studied, 4.84 km. Additionally, fluctuations of each time series are analyzed to determine time scales of greatest variability. The 14-month data show clearly that variability occurs primarily over three time scales: 7-22 hours (shipping-related), 56-282 hours (2-12 days, weather-related) and over an 8-12 month period.
author Snyder, Mark Alan
author_facet Snyder, Mark Alan
author_sort Snyder, Mark Alan
title Long-Term Ambient Noise Statistics in the Gulf of Mexico
title_short Long-Term Ambient Noise Statistics in the Gulf of Mexico
title_full Long-Term Ambient Noise Statistics in the Gulf of Mexico
title_fullStr Long-Term Ambient Noise Statistics in the Gulf of Mexico
title_full_unstemmed Long-Term Ambient Noise Statistics in the Gulf of Mexico
title_sort long-term ambient noise statistics in the gulf of mexico
publisher ScholarWorks@UNO
publishDate 2007
url http://scholarworks.uno.edu/td/595
http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=1595&context=td
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