<p>This thesis addresses the problem of source localization and time-varying spatial spectrum estimation with maneuverable arrays. Two applications, each having different environmental assumptions and array geometries, are considered: 1) passive broadband source localization with a rigid 2-sensor array in a shallow water, multipath environment and 2) time-varying spatial spectrum estimation with a large, flexible towed array. Although both applications differ, the processing scheme associated with each is designed to exploit array maneuverability for improved localization and detection performance.</p><p>In the first application considered, passive broadband source localization is accomplished via time delay estimation (TDE). Conventional T...
The array invariant method, previously derived for instantaneous range and bearing estimation of a s...
Precise source localization in passive sonar with linear, horizontal passive array and matched beam ...
In our earlier work, data fusion with specific application to underwater tracking environment is exp...
<p>Estimation of a time-varying field is essential for situational awareness in many subject areas. ...
The passive estimation of the location of narrow-band acoustic sources using line arrays of equispac...
<p>The spatial spectrum, also known as a field directionality map, is a description of the spatial d...
This thesis studies the passive localization (bearing estimation and range and depth estimation) of...
We develop a computationally efficient iterative algorithm for source localization and tracking usi...
In bioacoustics, passive acoustic localization and tracking plays an important role in studying mari...
International audienceWith the advent of new standards for the regulation of acoustic radiation from...
Abstract- Locating a source using direction estimates from spatially separated microphone arrays has...
The array invariant approach for passive localization utilizes multiple arrivals separated in beam a...
New underwater passive sonar techniques are developed for enhancing target localization capabilities...
A technique is presented for passively localizing multiple noise-producing targets by cross-correlat...
Acoustic localization for a moving source plays a key role in engineering applications, such as wild...
The array invariant method, previously derived for instantaneous range and bearing estimation of a s...
Precise source localization in passive sonar with linear, horizontal passive array and matched beam ...
In our earlier work, data fusion with specific application to underwater tracking environment is exp...
<p>Estimation of a time-varying field is essential for situational awareness in many subject areas. ...
The passive estimation of the location of narrow-band acoustic sources using line arrays of equispac...
<p>The spatial spectrum, also known as a field directionality map, is a description of the spatial d...
This thesis studies the passive localization (bearing estimation and range and depth estimation) of...
We develop a computationally efficient iterative algorithm for source localization and tracking usi...
In bioacoustics, passive acoustic localization and tracking plays an important role in studying mari...
International audienceWith the advent of new standards for the regulation of acoustic radiation from...
Abstract- Locating a source using direction estimates from spatially separated microphone arrays has...
The array invariant approach for passive localization utilizes multiple arrivals separated in beam a...
New underwater passive sonar techniques are developed for enhancing target localization capabilities...
A technique is presented for passively localizing multiple noise-producing targets by cross-correlat...
Acoustic localization for a moving source plays a key role in engineering applications, such as wild...
The array invariant method, previously derived for instantaneous range and bearing estimation of a s...
Precise source localization in passive sonar with linear, horizontal passive array and matched beam ...
In our earlier work, data fusion with specific application to underwater tracking environment is exp...