基于机器学习的5G网络精确定位技术

2023 Third International Conference on Artificial Intelligence and Smart Energy (ICAIS) Pub Date : 2023-02-02 DOI:10.1109/ICAIS56108.2023.10073924

P. S, Humaira Nishat, D. B, R. P, Pon Bharathi A

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引用次数: 1

摘要

为了满足网络可扩展性和性能提升的需求，5G网络可以在室内/室外环境中实现准确的定位。这种能力可以通过训练网络，使其表现得像一个真实动态网络(RDN)来赋予网络。提出的精确定位算法使网络节点具有基于局部观测的自学习能力。网络的决策具有明显的自主性，由于其自学习能力，它的行为就像一个异构网络。对于超宽带通信，计算了网络的到达时间(TOA)、信道状态信息(CSI)和到达时间差(TDOA)，以证明所提出算法的准确性。Q学习模型增强了节点和基站的决策能力，从而增强了网络的局域性。仿真结果证明，Q学习模型在匹配5G网络性能要求方面优于传统方法。

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A Machine Learning based Accurate Localization Technique for 5G Networks

To cater the needs of network scalability and improved performance, 5G networks are set to achieve accurate localization in Indoor/Outdoor environment. This capability can be imparted in the network by training it to behave like a Real Dynamic Network (RDN). The proposed Accurate localization algorithm enable network nodes with self learning capability based on local observations. The decision making of the network is clearly autonomous and due to its self-learning capability, it behaves like a Heterogeneous network. With Ultra-Wide Band communication, the following measurements include Time of Arrival (TOA), Channel State Information (CSI) and Time Difference of Arrival (TDOA) are calculated for the network to justify the accuracy of the proposed algorithm. The Q learning model enhances the decision-making capability of nodes and base stations, which in turn enhance the localization of the proposed network. Simulation results prove that the Q learning model outperforms conventional approaches in terms of matching the performance requirements of 5G networks.

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来源期刊

2023 Third International Conference on Artificial Intelligence and Smart Energy (ICAIS)

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