Fourier and wavelet descriptors for shape recognition using neural networks—a comparative study
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摘要
This paper presents the application of three different types of neural networks to the 2-D pattern recognition on the basis of its shape. They include the multilayer perceptron (MLP), Kohonen self-organizing network and hybrid structure composed of the self-organizing layer and the MLP subnetwork connected in cascade. The recognition is based on the features extracted from the Fourier and wavelet transformations of the data, describing the shape of the pattern. Application of different neural network structures associated with different preprocessing of the data results in different accuracy of recognition and classification. The numerical experiments performed for the recognition of simulated shapes of the airplanes have shown the superiority of the wavelet preprocessing associated with the self-organizing neural network structure. The integration of the individual classifiers based on the weighted summation of the signals from the neural networks has been proposed and checked in numerical experiments.
论文关键词:Shape recognition,Fourier and wavelet descriptors,Neural networks
论文评审过程:Received 5 October 2000, Revised 8 June 2001, Accepted 25 June 2001, Available online 7 May 2002.
论文官网地址:https://doi.org/10.1016/S0031-3203(01)00153-4