Underwater acoustic target recognition is very complex due to the lack of labeled data sets, the complexity of the marine environment, and the interference of background noise. In order to enhance it, we propose an attention-based residual network recognition method (AResnet). The method can be used to identify ship-radiated noise in different environments. Firstly, a residual network is used to extract the deep abstract features of three-dimensional fusion features, and then a channel attention module is used to enhance different channels. Finally, the features are classified by the joint supervision of cross-entropy and central loss functions. At the same time, for the recognition of ship-radiated noise in other environments, we use the p...
In the face of the challenges in the field of marine engineering applications in the new era, the go...
Due to the complexity of the underwater environment, underwater acoustic target recognition (UATR) h...
International audienceIn a military context, where human capabilities are no longer sufficient to pr...
In this paper, we proposed a new model for underwater acoustic target recognition, which is based on...
This paper focuses on the automatic target recognition (ATR) method based on ship-radiated noise and...
The accuracy of underwater acoustic targets recognition via limited ship radiated noise can be impro...
To improve the recognition accuracy of underwater acoustic targets by artificial neural network, thi...
The underwater target radiated noises usually have characteristics of low signal to noise ratio, com...
Underwater acoustic target recognition based on ship-radiated noise belongs to the small-sample-size...
The classification and recognition technology of underwater acoustic signal were always an important...
Fine-grained ship-radiated noise recognition methods of different specific ships are in demand for m...
The detection, classification, identification and recognition ships noise features have been of the ...
As one of the main signal sources of underwater acoustic target recognition, the target noise signal...
Underwater target recognition is an important supporting technology for the development of marine re...
The purpose of this paper is to apply the acoustic features, Mel Frequency Cepstral Coefficient (MFC...
In the face of the challenges in the field of marine engineering applications in the new era, the go...
Due to the complexity of the underwater environment, underwater acoustic target recognition (UATR) h...
International audienceIn a military context, where human capabilities are no longer sufficient to pr...
In this paper, we proposed a new model for underwater acoustic target recognition, which is based on...
This paper focuses on the automatic target recognition (ATR) method based on ship-radiated noise and...
The accuracy of underwater acoustic targets recognition via limited ship radiated noise can be impro...
To improve the recognition accuracy of underwater acoustic targets by artificial neural network, thi...
The underwater target radiated noises usually have characteristics of low signal to noise ratio, com...
Underwater acoustic target recognition based on ship-radiated noise belongs to the small-sample-size...
The classification and recognition technology of underwater acoustic signal were always an important...
Fine-grained ship-radiated noise recognition methods of different specific ships are in demand for m...
The detection, classification, identification and recognition ships noise features have been of the ...
As one of the main signal sources of underwater acoustic target recognition, the target noise signal...
Underwater target recognition is an important supporting technology for the development of marine re...
The purpose of this paper is to apply the acoustic features, Mel Frequency Cepstral Coefficient (MFC...
In the face of the challenges in the field of marine engineering applications in the new era, the go...
Due to the complexity of the underwater environment, underwater acoustic target recognition (UATR) h...
International audienceIn a military context, where human capabilities are no longer sufficient to pr...