Sound can travel long distances through the deep ocean due to a naturally formed waveguide. Internal waves, similar to ocean surface waves but occurring throughout the ocean depths, are believed to be the main cause of perturbation to propagating acoustic waves. A Munk profile, to model the deep-ocean waveguide, and a set of propagating internal-wave modes are used to construct a three-dimensional, time-varying ocean sound speed model. The purpose of this work is to study the effects of internal waves on acoustic propagation. Three-dimensional ray tracing techniques are developed to simulate long-range sound propagation of low-frequency broadband acoustic signals. These methods combine the computational efficiency and extendibility to full ...
The three-dimensional Monterey-Miami parabolic equation model is used to simulate a nonlinear intern...
Our long-term goal is to determine the extent to which a single scalar parameter can characterize ob...
The long-term goal is to better understand fluctuating sound propagation in two distinct ocean acous...
Sound can travel long distances through the deep ocean due to a naturally formed waveguide. Internal...
Thesis (Ph. D.)--Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts ...
Our long-term goal is to provide a more complete understanding of the forward propagation of acousti...
This study examines underwater acoustic propagation in a shallow water environment, concentrating up...
Nonlinear internal waves are a feature of many continental margins, particularly those with large ti...
Sound waves propagating through the oceans are refracted by internal waves. In the shallow waters of...
© 2019 Australian Acoustical Society Annual Conference, AAS 2018. All rights reserved. This study in...
Instantaneous phase stability in acoustic wavefields measured during the 1994 Acoustic Engineering T...
The long-term goal of this research is to develop our understanding of long-range oceanic pulse prop...
The ultimate limits of long-range sonar are imposed by ocean variability and the ambient sound field...
This study examines underwater acoustic propagation in a shallow water environment, concentrating up...
The long-term goal of this project is to obtain quantitative understanding of the physical mechanism...
The three-dimensional Monterey-Miami parabolic equation model is used to simulate a nonlinear intern...
Our long-term goal is to determine the extent to which a single scalar parameter can characterize ob...
The long-term goal is to better understand fluctuating sound propagation in two distinct ocean acous...
Sound can travel long distances through the deep ocean due to a naturally formed waveguide. Internal...
Thesis (Ph. D.)--Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts ...
Our long-term goal is to provide a more complete understanding of the forward propagation of acousti...
This study examines underwater acoustic propagation in a shallow water environment, concentrating up...
Nonlinear internal waves are a feature of many continental margins, particularly those with large ti...
Sound waves propagating through the oceans are refracted by internal waves. In the shallow waters of...
© 2019 Australian Acoustical Society Annual Conference, AAS 2018. All rights reserved. This study in...
Instantaneous phase stability in acoustic wavefields measured during the 1994 Acoustic Engineering T...
The long-term goal of this research is to develop our understanding of long-range oceanic pulse prop...
The ultimate limits of long-range sonar are imposed by ocean variability and the ambient sound field...
This study examines underwater acoustic propagation in a shallow water environment, concentrating up...
The long-term goal of this project is to obtain quantitative understanding of the physical mechanism...
The three-dimensional Monterey-Miami parabolic equation model is used to simulate a nonlinear intern...
Our long-term goal is to determine the extent to which a single scalar parameter can characterize ob...
The long-term goal is to better understand fluctuating sound propagation in two distinct ocean acous...