Due to the complexity of the underwater environment, underwater acoustic target recognition (UATR) has always been challenging. Although deep neural networks (DNN) have been used in UATR and some achievements have been made, the performance is not satisfactory when recognizing underwater targets with different Doppler shifts, signal-to-noise ratios (SNR), and interferences. In the paper, a one-dimensional convolutional neural network (1D-CNN) was proposed to recognize the line spectrums of Detection of Envelope Modulation on Noise (DEMON) spectrums of underwater target-radiated noise. Datasets of targets with different Doppler shifts, SNRs, and interferences were designed to evaluate the generalization performance of the proposed CNN. Exper...
The accurate detection and quantification of submerged targets has been recognized as a key challeng...
Underwater acoustic target recognition is very complex due to the lack of labeled data sets, the com...
The excavation of the ocean has led to the submersion of numerous autonomous vehicles and sensors. H...
In this paper, we proposed a new model for underwater acoustic target recognition, which is based on...
To improve the recognition accuracy of underwater acoustic targets by artificial neural network, thi...
Underwater target recognition is an important supporting technology for the development of marine re...
The classification and recognition technology of underwater acoustic signal were always an important...
The fundamental frequency, or F0, is directly determined by the vibration frequency of sound source....
In the face of the challenges in the field of marine engineering applications in the new era, the go...
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...
The underwater target radiated noises usually have characteristics of low signal to noise ratio, com...
The purpose of this paper is to apply the acoustic features, Mel Frequency Cepstral Coefficient (MFC...
As the in-depth exploration of oceans continues, the accurate and rapid detection of fish, bionics a...
Underwater acoustic target recognition based on ship-radiated noise belongs to the small-sample-size...
The accurate detection and quantification of submerged targets has been recognized as a key challeng...
Underwater acoustic target recognition is very complex due to the lack of labeled data sets, the com...
The excavation of the ocean has led to the submersion of numerous autonomous vehicles and sensors. H...
In this paper, we proposed a new model for underwater acoustic target recognition, which is based on...
To improve the recognition accuracy of underwater acoustic targets by artificial neural network, thi...
Underwater target recognition is an important supporting technology for the development of marine re...
The classification and recognition technology of underwater acoustic signal were always an important...
The fundamental frequency, or F0, is directly determined by the vibration frequency of sound source....
In the face of the challenges in the field of marine engineering applications in the new era, the go...
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...
The underwater target radiated noises usually have characteristics of low signal to noise ratio, com...
The purpose of this paper is to apply the acoustic features, Mel Frequency Cepstral Coefficient (MFC...
As the in-depth exploration of oceans continues, the accurate and rapid detection of fish, bionics a...
Underwater acoustic target recognition based on ship-radiated noise belongs to the small-sample-size...
The accurate detection and quantification of submerged targets has been recognized as a key challeng...
Underwater acoustic target recognition is very complex due to the lack of labeled data sets, the com...
The excavation of the ocean has led to the submersion of numerous autonomous vehicles and sensors. H...