Deep Neural Network Based Cell Sleeping Control and Beamforming Optimization in Cloud-RAN

Gehui Du, Luhan Wang, Qing Liao, Hao Hu
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引用次数: 6

Abstract

Cloud Radio Access Network (Cloud-RAN) is a promising network architecture for the next generation (5G) wireless communication. Despite the remarkable benefits on the capacity, the provision of power-efficient wireless resource management solution is still challenging. Cell sleeping control and cooperative beamforming design are considered as two enabling ways to address this issue. In this paper, we propose a novel Deep Neural Network (DNN) based approach to minimize the power consumption of network while satisfying the QoS demand by jointly designing the RRHs sleeping modes and beamforming weights inside a certain cell. The key idea of proposed DNN-based approach is to learn the non-linear mapping from channel coefficients to the optimal beamforming weights and the sleeping modes of multiple RRHs. Compared with the conventional numerical optimization schemes which require extensive iterations and result in considerable computational complexity and limited application in real-time processing, the proposed DNN-based approach enables the real-time cell sleeping control and beamforming optimization. Simulation results show that the DNN- based approach improve the energy efficiency significantly and calculative efficiency about three orders of magnitude.
基于深度神经网络的云- ran小区休眠控制与波束形成优化
云无线接入网(Cloud- ran)是下一代(5G)无线通信的一种很有前途的网络架构。尽管在容量方面有显著的优势,但提供节能的无线资源管理解决方案仍然具有挑战性。蜂窝睡眠控制和协同波束形成设计被认为是解决这一问题的两种可行方法。本文提出了一种基于深度神经网络(Deep Neural Network, DNN)的新方法,通过联合设计特定小区内的RRHs睡眠模式和波束形成权值,在满足QoS需求的同时最小化网络功耗。该方法的核心思想是学习信道系数到最优波束形成权重和多个RRHs睡眠模式的非线性映射。传统的数值优化方案需要大量的迭代,计算量大,在实时处理中的应用有限,相比之下,基于dnn的方法能够实现实时的小区睡眠控制和波束形成优化。仿真结果表明,基于深度神经网络的方法将能量效率和计算效率显著提高了3个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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