TY - JOUR
T1 - Classification of Underwater Signals Using Wavelet Transforms and Neural Networks
AU - Chen, Chin Hsing
AU - Lee, Jiann Der
AU - Lin, Ming Chi
PY - 1998/1
Y1 - 1998/1
N2 - Neural network classifiers have been widely used in classification due to its adaptive and parallel processing ability. This paper concerns classification of underwater passive sonar signals radiated by ships using neural networks. Classification process can be divided into two stages: one is the signal preprocessing and feature extraction, the other is the recognition process. In the preprocessing and feature extraction stage, the wavelet transform (WT) is used to extract tonal features from the average power spectral density (APSD) of the input data. In the classification stage, two kinds of neural network classifiers are used to evaluate the classification results, inclusive of the hyperplane-based classifier-Multilayer Perceptron (MLP)and the kernel-based classifier-Adaptive Kernel Classifier (AKC). The experimental results obtained from MLP with different configurations and algorithms show that the bipolar continuous function possesses a wider range and a higher value of the learning rate than the unipolar continuous function. Besides, AKC with fixed radius (modified AKC) sometimes gives better performance than AKC, but the former takes more training time in selecting the width of the receptive field. More important, networks trained with tonal features extracted by WT has 96% or 94% correction rate, but the training with original APSDs only have 80% correction rate.
AB - Neural network classifiers have been widely used in classification due to its adaptive and parallel processing ability. This paper concerns classification of underwater passive sonar signals radiated by ships using neural networks. Classification process can be divided into two stages: one is the signal preprocessing and feature extraction, the other is the recognition process. In the preprocessing and feature extraction stage, the wavelet transform (WT) is used to extract tonal features from the average power spectral density (APSD) of the input data. In the classification stage, two kinds of neural network classifiers are used to evaluate the classification results, inclusive of the hyperplane-based classifier-Multilayer Perceptron (MLP)and the kernel-based classifier-Adaptive Kernel Classifier (AKC). The experimental results obtained from MLP with different configurations and algorithms show that the bipolar continuous function possesses a wider range and a higher value of the learning rate than the unipolar continuous function. Besides, AKC with fixed radius (modified AKC) sometimes gives better performance than AKC, but the former takes more training time in selecting the width of the receptive field. More important, networks trained with tonal features extracted by WT has 96% or 94% correction rate, but the training with original APSDs only have 80% correction rate.
KW - Adaptive kernel classifier
KW - Multilayer perceptron
KW - Neural networks
KW - Underwater signal classification
KW - Wavelet transform
UR - http://www.scopus.com/inward/record.url?scp=0031966247&partnerID=8YFLogxK
U2 - 10.1016/S0895-7177(97)00259-8
DO - 10.1016/S0895-7177(97)00259-8
M3 - 文章
AN - SCOPUS:0031966247
SN - 0895-7177
VL - 27
SP - 47
EP - 60
JO - Mathematical and Computer Modelling
JF - Mathematical and Computer Modelling
IS - 2
ER -