Optimizing Cognitive Radio Networks with Deep Learning-Based Semantic Spectrum Sensing

Optimizing Cognitive Radio Networks with Deep Learning-Based Semantic Spectrum Sensing

Spectrum aggregation in 4G and 5G networks is a technique used to combine multiple frequency bands to boost communication performance. The cognitive radio feature improves the ability to combine spectrum in LTE and 5G environments by enabling dynamic spectrum sensing. Spectrum sensing is a major pro...

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Veröffentlicht in:Journal of Telecommunications and Information Technology 2024-12, Vol.98 (4), p.78-85
Hauptverfasser: N, Mahesh Kumar, R, Arthi
Format: Artikel
Sprache:eng
Schlagworte:
5G mobile communication
Algorithms
Bandwidths
Cognitive radio
Communications networks
Data transmission
Deep learning
Frequencies
Localization
Neural networks
Noise levels
Phase noise
Radio networks
ResNet-50
sand cat optimizer
semantic spectrum sensing
Semantics
Signal to noise ratio
Spectrum allocation
Wireless communications
wireless sensor network
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Zusammenfassung:Spectrum aggregation in 4G and 5G networks is a technique used to combine multiple frequency bands to boost communication performance. The cognitive radio feature improves the ability to combine spectrum in LTE and 5G environments by enabling dynamic spectrum sensing. Spectrum sensing is a major problem in spectrum aggregation due to the presence of various types of interference, such as noise. Phase noise is an issue due to its 1 MHz frequency offset experienced within 5G's 28 GHz operating band, with the distorted signal generating more spectrum sensing-related errors. To solve this problem, the proposed work suggests an optimized deep learning-based semantic spectrum sensing model using three sets of optimizers (ResNet-50, DeepLab V3 and sand cat) offering a high detection accuracy of 99.7% with the optimized training parameter of a high signal-to-noise ratio equaling 40 dB.
ISSN:1509-4553
1899-8852
DOI:10.26636/jtit.2024.4.1797