Processing marine-mammal signals for passive oceanic acoustic tomography or species classification are problems that have recently attracted attention in scientific literature. Practically, it has been observed that the time-frequency structures of the marine-mammal signals are generally non-linear. This fact dramatically affects the performances achieved by the Cohen's class methods, knowing that these methods correctly perform only for linear time-frequency structures. Fortunately, it is possible to generate other class of time-frequency representations (TFRs) using the warping operator principle. Based on this principle, we propose a new method for marine-mammal signal characterization. More precisely, many warping operators will be...
International audienceThis paper presents a new signal processing tool: frequency warping, and its a...
A large number of whale sounds recorded from the Captive Killer Whale Population at Marineland of An...
International audienceLow frequency propagation (0-200 Hz) in shallow water (10-400 m) is described ...
Processing marine-mammal signals for passive oceanic acoustic tomography or species classification a...
WOSInternational audienceProcessing marine-mammal signals for passive oceanic acoustic tomography or...
Time-frequency representation algorithms such as spectrograms have proven to be useful tools in mari...
WOSInternational audienceOne of the most challenging applications of time-frequency representations ...
International audienceMany marine mammals produce highly nonlinear frequency modulations. Determinin...
International audienceIn certain shallow water environments the acoustic propagation of low-frequenc...
A large number of killer whale sounds have recently been classified perceptually into Call Types. [A...
International audienceThis paper proposes a parameters estimation algorithm for signals composed of ...
International audienceUnderwater channel is an example of a natural environment potentially characte...
A set of killer Whale sounds from Marineland were recently classified automatically [Brown et al., J...
International audienceDue to the expense associated with at-sea sensor deployments, a challenge in u...
Underwater mammal sound classification is demonstrated using a novel application of wavelet time/fre...
International audienceThis paper presents a new signal processing tool: frequency warping, and its a...
A large number of whale sounds recorded from the Captive Killer Whale Population at Marineland of An...
International audienceLow frequency propagation (0-200 Hz) in shallow water (10-400 m) is described ...
Processing marine-mammal signals for passive oceanic acoustic tomography or species classification a...
WOSInternational audienceProcessing marine-mammal signals for passive oceanic acoustic tomography or...
Time-frequency representation algorithms such as spectrograms have proven to be useful tools in mari...
WOSInternational audienceOne of the most challenging applications of time-frequency representations ...
International audienceMany marine mammals produce highly nonlinear frequency modulations. Determinin...
International audienceIn certain shallow water environments the acoustic propagation of low-frequenc...
A large number of killer whale sounds have recently been classified perceptually into Call Types. [A...
International audienceThis paper proposes a parameters estimation algorithm for signals composed of ...
International audienceUnderwater channel is an example of a natural environment potentially characte...
A set of killer Whale sounds from Marineland were recently classified automatically [Brown et al., J...
International audienceDue to the expense associated with at-sea sensor deployments, a challenge in u...
Underwater mammal sound classification is demonstrated using a novel application of wavelet time/fre...
International audienceThis paper presents a new signal processing tool: frequency warping, and its a...
A large number of whale sounds recorded from the Captive Killer Whale Population at Marineland of An...
International audienceLow frequency propagation (0-200 Hz) in shallow water (10-400 m) is described ...