Add to ORKGAn Acoustic Rain Gauge (ARG) analyses the underwater sound levels across a wide frequency range, classifies the observed spectrum according to likely source and then determines the local wind speed or rain rate as appropriate. Thispaper covers a trial on the Scotian Shelf off Canada, comparing the geophysical information derived from the acoustic signals with those obtained from other sources
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
This paper compares the observed ambient sound levels at two very different sites, relating both to ...
This paper compares the observed ambient sound levels at two very different sites, relating both to ...
Wind and rain are known to be significant sources of underwater noise. Previous researchers have dev...
Precipitation is one of the major factors governing ocean climate. Despite the successful use of sat...
This thesis explores the relationship between ocean ambient sound levels, wind speed and rain. It ha...
Measurements of underwater sound were made at 16 frequencies in the range 500 Hz 50 kHz using 3 mo...
Surface measurements of precipitation in oceanic environments have proven especially difficult to ob...
Oceanic ambient noise measurements can be analyzed to obtain qualitative and quantitative informatio...
Analyzing underwater ambient acoustics may be used to measure precipitation as well as wind over oce...
Underwater noise analysis allows estimation of parameters of meteorological interest, difficult to m...
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
This paper compares the observed ambient sound levels at two very different sites, relating both to ...
This paper compares the observed ambient sound levels at two very different sites, relating both to ...
Wind and rain are known to be significant sources of underwater noise. Previous researchers have dev...
Precipitation is one of the major factors governing ocean climate. Despite the successful use of sat...
This thesis explores the relationship between ocean ambient sound levels, wind speed and rain. It ha...
Measurements of underwater sound were made at 16 frequencies in the range 500 Hz 50 kHz using 3 mo...
Surface measurements of precipitation in oceanic environments have proven especially difficult to ob...
Oceanic ambient noise measurements can be analyzed to obtain qualitative and quantitative informatio...
Analyzing underwater ambient acoustics may be used to measure precipitation as well as wind over oce...
Underwater noise analysis allows estimation of parameters of meteorological interest, difficult to m...
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...
International audienceThis paper investigates the use of an acoustic glider to perform acoustical me...