A goal for a future Europan payload is to determine the extent of the postulated sea, aspects of acoustic remote sensing are discussed with a view to operating a sonar in such an subsurface ocean
Includes Supplementary MaterialDuring Navy Ice Exercises (ICEX) in 2018 and 2020, the NPS team colle...
Estimating the seabed geoacoustic properties at various fidelity levels has been a research topic fo...
The oceans are covering most of the earth. The noise levels in the oceans are high, even though most...
We present analysis of the results from the Huygens acoustic sounder instrument. The sounder sees a ...
Approximately 71% of our planet is covered with oceans. It is also known that oceans are the last f...
The set of formulations commonly known as “the sonar equations” have for many decades been used to q...
This volume contains the collection of papers from the second workshop on Experimental Acoustic Inve...
Research at sea during this three month period, supported by Contract NObsr-72521, was carried out m...
Marine seismic surveys use intense (eg >= 230 decibel [dB] root mean square [RMS]) sound impulses to...
Detailed information about the oceanic environment is essential for many applications in the field o...
This is the publisher’s final pdf. The published article is copyrighted by the American Meteorologic...
Over the recent past, the popular media have been busy learning about the science of the ocean. The...
This thesis describes a study of near-surface ocean processes based upon observations made with a no...
The demand to explore the largest and also one of the richest parts of our planet, the advances in s...
The ocean is vast, rich, fragile and unexplored. Despite a massive investment in the last years, oce...
Includes Supplementary MaterialDuring Navy Ice Exercises (ICEX) in 2018 and 2020, the NPS team colle...
Estimating the seabed geoacoustic properties at various fidelity levels has been a research topic fo...
The oceans are covering most of the earth. The noise levels in the oceans are high, even though most...
We present analysis of the results from the Huygens acoustic sounder instrument. The sounder sees a ...
Approximately 71% of our planet is covered with oceans. It is also known that oceans are the last f...
The set of formulations commonly known as “the sonar equations” have for many decades been used to q...
This volume contains the collection of papers from the second workshop on Experimental Acoustic Inve...
Research at sea during this three month period, supported by Contract NObsr-72521, was carried out m...
Marine seismic surveys use intense (eg >= 230 decibel [dB] root mean square [RMS]) sound impulses to...
Detailed information about the oceanic environment is essential for many applications in the field o...
This is the publisher’s final pdf. The published article is copyrighted by the American Meteorologic...
Over the recent past, the popular media have been busy learning about the science of the ocean. The...
This thesis describes a study of near-surface ocean processes based upon observations made with a no...
The demand to explore the largest and also one of the richest parts of our planet, the advances in s...
The ocean is vast, rich, fragile and unexplored. Despite a massive investment in the last years, oce...
Includes Supplementary MaterialDuring Navy Ice Exercises (ICEX) in 2018 and 2020, the NPS team colle...
Estimating the seabed geoacoustic properties at various fidelity levels has been a research topic fo...
The oceans are covering most of the earth. The noise levels in the oceans are high, even though most...