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引用次数: 7
摘要
在认知无线网络(crn)中,认知引擎(CE)负责决策。这是一项相当具有挑战性的任务,因为它需要在预测精度和有效学习之间找到平衡,以实现CRN的最佳配置设置。人工神经网络作为一种预测工具在认知无线电领域得到了广泛的应用。为了在LTE (Long Term Evolution)认知- enodeb中实现更好的泛化和加速认知过程,本文提出了随机神经网络(random neural networks, rnn)。开发的CE描述了可用配置设置的可实现通信性能(吞吐量),并针对特定业务需求提出了最佳无线电参数。此外,RNN-CE通过建议相邻信道用户的可接受发射功率来协调蜂窝间干扰。性能评估显示,与人工神经网络相比,RNN的预测准确率(基于MSE)提高了42.85%,学习效率(基于收敛结果所需的epoch)提高了68%。
Performance analysis of random neural networks in LTE-UL of a cognitive radio system
In cognitive radio networks (CRNs), the cognitive Engine (CE) is responsible for decision making. This is quite a challenging task as it requires finding the balance between prediction accuracy and efficient learning for optimal configuration settings for the CRN. Artificial neural networks (ANNs) have been widely used as predictive tools in cognitive radio. In this paper, random neural networks (RNNs) have been proposed to achieve better generalization and to speed up the cognition process in LTE (Long Term Evolution) cognitive-eNodeB. The developed CE is characterizing the achievable communication performance (throughput) of available configuration settings and suggesting the optimal radio parameters for specific service demand. Furthermore, the RNN-CE is coordinating the inter-cell-interference by suggesting the acceptable transmit power of adjacent channel users. Performance evaluation has revealed 42.85% better prediction accuracy (based on MSE) and 68% better learning efficiency (based on epochs required for convergent result) of RNN as compared to ANN.
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