© 2018 IEEE. A spectrogram-based technique is presented for detection of time-and-bandwidth limited broadband signals in underwater audio. The approach employs an iterative 1-dimensional variant of a 2-dimensional multi-scale blob-detection technique commonly used in image processing. In contrast to the referenced 2-dimensional technique subject to an inherent bias for circular features, the iterative 1-dimensional approach enables detection of features of arbitrary bandwidth and duration. The iterative nature (of processing successive frames) makes it an attractive choice for in-situ streaming-mode applications. The algorithm automatically chooses values for several parameters based on the input spectrogram’s frequency bounds and hence is ...
WOSInternational audienceProcessing marine-mammal signals for passive oceanic acoustic tomography or...
This paper describes a calculation method of source level of a ship transient noise, which is one of...
International audienceMany marine mammals produce highly nonlinear frequency modulations. Determinin...
Large scale freshwater monitoring networks can passively capture sound for species detection or clas...
AbstractIn underwater passive surveillance systems, narrowband displays help in classifying tonal so...
Time-frequency representation algorithms such as spectrograms have proven to be useful tools in mari...
The following work outlines an approach for automatic detection and recognition of periodic pulse tr...
For tackling the challenge of in-time searching a sea-crashed plane, it is critical to develop a con...
International audienceThis paper addresses the problem of automated detection of Z-calls emitted by ...
Abstract: Signal detection techniques based on time-frequency signal analysis with the Wigner-Ville ...
This thesis considers the use of multivariate statistical methods in relation to a common signal pro...
Le milieu marin est insonifié par une grand variété de sources acoustiques, qui peuventêtre monitoré...
International audienceMost automatic detections of highly stereotyped baleen-whale calls such as the...
It is of great interest to the sonar community to have automatic signal detection and segmentation p...
Signal detection techniques based on time-frequency signal analysis with the Wigner-Ville distributi...
WOSInternational audienceProcessing marine-mammal signals for passive oceanic acoustic tomography or...
This paper describes a calculation method of source level of a ship transient noise, which is one of...
International audienceMany marine mammals produce highly nonlinear frequency modulations. Determinin...
Large scale freshwater monitoring networks can passively capture sound for species detection or clas...
AbstractIn underwater passive surveillance systems, narrowband displays help in classifying tonal so...
Time-frequency representation algorithms such as spectrograms have proven to be useful tools in mari...
The following work outlines an approach for automatic detection and recognition of periodic pulse tr...
For tackling the challenge of in-time searching a sea-crashed plane, it is critical to develop a con...
International audienceThis paper addresses the problem of automated detection of Z-calls emitted by ...
Abstract: Signal detection techniques based on time-frequency signal analysis with the Wigner-Ville ...
This thesis considers the use of multivariate statistical methods in relation to a common signal pro...
Le milieu marin est insonifié par une grand variété de sources acoustiques, qui peuventêtre monitoré...
International audienceMost automatic detections of highly stereotyped baleen-whale calls such as the...
It is of great interest to the sonar community to have automatic signal detection and segmentation p...
Signal detection techniques based on time-frequency signal analysis with the Wigner-Ville distributi...
WOSInternational audienceProcessing marine-mammal signals for passive oceanic acoustic tomography or...
This paper describes a calculation method of source level of a ship transient noise, which is one of...
International audienceMany marine mammals produce highly nonlinear frequency modulations. Determinin...