Add to ORKGAs a first step to Antarctic Blue Whale monitoring, a new method based on a passive application of the Stochastic Matched Filter (SMF) is developed. To perform Z-call detection in noisy environment, improvements on the classical SMF requirements are proposed. The signal’s reference is adjusted, the background noise estimation is reevaluated to avoid operator’s selection, and the time-dependent Signal to Noise Ratio (SNR) estimation is revised by time-frequency analysis. To highlight the SMF’s robustness against noise, it is applied on a Ocean Bottom Seismometers hydrophone-recorded data and compared to the classical Matched Filter: the output’s SNR is maximized and the false alarm drastically decreased
While visual survey of whales requires substantial means for limited areas, passive acoustic monitor...
Graduation date: 1995Blue whales (Balaenoptera musculus) are the largest of the baleen\ud whales. Bl...
International audienceThe most common approach to monitor mysticete acoustic presence is to detect a...
International audienceAs a first step to Antarctic Blue Whale monitoring, a new method based on a pa...
As a first step to Antarctic blue whale (ABW) monitoring using passive acoustics, a method based on ...
More than 30 years after the institution of the moratorium on commercial whaling by the Internationa...
International audienceMost automatic detections of highly stereotyped baleen-whale calls such as the...
International audienceThis paper addresses the problem of automated detection of Z-calls emitted by ...
This paper deals with the automatic detection of low-frequency Antarctic (Balaenptera musculus inter...
The analysis of the large volumes of data resulting from continuous and long-term monitoring of blue...
Since 2001, hundreds of thousands of hours of underwater acoustic recordings have been made through...
WOSInternational audienceThe performance of large-aperture hydrophone arrays to detect and localize ...
While visual survey of whales requires substantial means for limited areas, passive acoustic monitor...
Graduation date: 1995Blue whales (Balaenoptera musculus) are the largest of the baleen\ud whales. Bl...
International audienceThe most common approach to monitor mysticete acoustic presence is to detect a...
International audienceAs a first step to Antarctic Blue Whale monitoring, a new method based on a pa...
As a first step to Antarctic blue whale (ABW) monitoring using passive acoustics, a method based on ...
More than 30 years after the institution of the moratorium on commercial whaling by the Internationa...
International audienceMost automatic detections of highly stereotyped baleen-whale calls such as the...
International audienceThis paper addresses the problem of automated detection of Z-calls emitted by ...
This paper deals with the automatic detection of low-frequency Antarctic (Balaenptera musculus inter...
The analysis of the large volumes of data resulting from continuous and long-term monitoring of blue...
Since 2001, hundreds of thousands of hours of underwater acoustic recordings have been made through...
WOSInternational audienceThe performance of large-aperture hydrophone arrays to detect and localize ...
While visual survey of whales requires substantial means for limited areas, passive acoustic monitor...
Graduation date: 1995Blue whales (Balaenoptera musculus) are the largest of the baleen\ud whales. Bl...
International audienceThe most common approach to monitor mysticete acoustic presence is to detect a...