Within the deep-water ocean (depth >1000 m), low frequencies (1-300 Hz) acoustic waves are characterized by very long range propagation. In this context, the propagation is largely impacted by the oceanic environment. Thus, localization methods based on classical plane wave models do not perform well. Matched field processing has been proposed to include better environmental models, but it is known to perform poorly as soon as the environment is not perfectly known. Given that the ocean is a dynamic system, it changes quickly over time and space making this method inapplicable in an operational context. To circumvent this issue, a better way is to consider methods that do not require detailed knowledge about the environment.In this manuscri...
International audienceIn this study, low frequency (0-500 Hz) source depth discrimination in deep wa...
In shallow waters, the fluctuations of the water surface greatly affects the performances of underwa...
International audienceSource localization in shallow water environment is a crucial issue in underwa...
Within the deep-water ocean (depth >1000 m), low frequencies (1-300 Hz) acoustic waves are character...
En milieu océanique grand-fond (profondeur >1000 m), la propagation d'ondes acoustiques UltraBasse F...
International audienceWhen recorded on an horizontal array, the acoustic intensity of a broadband so...
This work focuses on acoustic source depth discrimination in the ultra-low frequency range (ULF, 0-5...
International audienceThis paper addresses the problem of passive source depth discrimination in oce...
Author Posting. © Acoustical Society of America, 2018. This article is posted here by permission of...
This work focuses on acoustic source localization in a shallow water waveguide using a single receiv...
There are a lot of Ultra Low Frequency (ULF : 0-100Hz) acoustic sources in the ocean, either natural...
One of main features of shallow water propapagation is the fact that, to great ranges, the acoustic ...
Cette thèse démontre expérimentalement à l'échelle du laboratoire la détection et la localisation, e...
Le travail de recherche exposé s'intéresse à la localisation de source acoustique sous-marine avec u...
International audienceIn this study, low frequency (0-500 Hz) source depth discrimination in deep wa...
In shallow waters, the fluctuations of the water surface greatly affects the performances of underwa...
International audienceSource localization in shallow water environment is a crucial issue in underwa...
Within the deep-water ocean (depth >1000 m), low frequencies (1-300 Hz) acoustic waves are character...
En milieu océanique grand-fond (profondeur >1000 m), la propagation d'ondes acoustiques UltraBasse F...
International audienceWhen recorded on an horizontal array, the acoustic intensity of a broadband so...
This work focuses on acoustic source depth discrimination in the ultra-low frequency range (ULF, 0-5...
International audienceThis paper addresses the problem of passive source depth discrimination in oce...
Author Posting. © Acoustical Society of America, 2018. This article is posted here by permission of...
This work focuses on acoustic source localization in a shallow water waveguide using a single receiv...
There are a lot of Ultra Low Frequency (ULF : 0-100Hz) acoustic sources in the ocean, either natural...
One of main features of shallow water propapagation is the fact that, to great ranges, the acoustic ...
Cette thèse démontre expérimentalement à l'échelle du laboratoire la détection et la localisation, e...
Le travail de recherche exposé s'intéresse à la localisation de source acoustique sous-marine avec u...
International audienceIn this study, low frequency (0-500 Hz) source depth discrimination in deep wa...
In shallow waters, the fluctuations of the water surface greatly affects the performances of underwa...
International audienceSource localization in shallow water environment is a crucial issue in underwa...