Improved spectrum prediction model for cognitive radio networks using hybrid deep learning technique

M.G. Sumithra , M. Suriya
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Abstract

Cognitive Radio (CR) technology has been highlighted as one of the most likely answers to the issue of spectrum shortage with the rise of fifth generation and beyond communication. Secondary users (SUs) in cognitive radio networks (CRN) must continuously monitor the spectrum to forecast channel occupancy by primary users (PUs) based on fundamental factors, such as location, time, and RF band. A hybrid deep learning model called LSTM-MLP (Long Short-Term Memory-Multilayer Perceptron) is proposed to improve idle channel prediction probability thus reducing the overall sensing time by cognitive users during spectrum sensing. Performance evaluation for the proposed model is done in terms of prediction error and efficiency, the GSM-900 spectrum dataset demonstrates that LSTM-MLP performs better in terms of improved prediction accuracy compared to existing state-of-art prediction techniques.

利用混合深度学习技术改进认知无线电网络的频谱预测模型
随着第五代及更先进通信技术的兴起,认知无线电(CR)技术已被视为解决频谱短缺问题的最有可能的方法之一。认知无线电网络(CRN)中的二级用户(SU)必须持续监测频谱,根据位置、时间和射频频段等基本因素预测一级用户(PU)的信道占用情况。本文提出了一种名为 LSTM-MLP(长短期记忆多层感知器)的混合深度学习模型,用于提高空闲信道预测概率,从而减少认知用户在频谱感知过程中的总体感知时间。通过 GSM-900 频谱数据集对拟议模型的预测误差和效率进行了性能评估,结果表明,与现有的先进预测技术相比,LSTM-MLP 在提高预测准确性方面表现更佳。
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