Underwater Modulation Classification Using Discrete Wavelet Transform and Genetic Algorithm

Underwater Modulation Classification Using Discrete Wavelet Transform and Genetic Algorithm

Underwater wireless optical communication systems face significant challenges due to the heterogeneous nature of the underwater environment and the attenuation of optical signals caused by absorption and scattering. These effects restrict the data transfer capacity and transmission distance, resulti...

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Bibliographic Details
Main Authors: Ali Çimen, Erdoğan Aldemir, Timur Düzenli
Format: Article
Language:English
Published: levent 2025-06-01
Series:International Journal of Pioneering Technology and Engineering
Subjects:
underwater wireless optical communication
discrete wavelet transform
genetic algorithm
automatic modulation classification
feature selection
Online Access:https://ijpte.com/index.php/ijpte/article/view/124
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Summary:Underwater wireless optical communication systems face significant challenges due to the heterogeneous nature of the underwater environment and the attenuation of optical signals caused by absorption and scattering. These effects restrict the data transfer capacity and transmission distance, resulting in communication errors. Different modulation techniques are used to minimize the effects of these parameters. Automatic modulation classification plays a critical role in terms of effective management of spectrum resources. In this study, underwater wireless optical communication channels are modulated with different modulation techniques, and the signals are transformed into the discrete wavelet space, resulting in approximation and detail coefficients that are used as feature vectors for training machine learning algorithms. In addition, optimized classification features are determined for different signal-to-noise ratios and different transmission distances using the genetic algorithm. The results show that the approximation and detail coefficient energies provide higher classification performance in the classification of modulated signals according to statistical features such as mean, variance, and standard deviation. According to simulation results, an average classification accuracy of 82% has been obtained using the proposed discrete wavelet transform and genetic algorithm-based technique, which demonstrates high classification accuracy for noisy underwater channels.
ISSN:2822-454X

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