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Fully-Decoupled Radio Access Networks: A Flexible Downlink Multi-Connectivity and Dynamic Resource Cooperation Framework

Kai Yu, Quan Yu, Zhixuan Tang, Jiwei Zhao, Bo Qian, Yunting Xu, Haibo Zhou, Xuemin Shen

2022IEEE Transactions on Wireless Communications29 citationsDOI

Abstract

To enable flexible base stations (BS) association and dynamic resource management for personalized user equipment (UE) download service provision in the next-generation mobile communication network (6G), in this paper, we investigate the downlink (DL) transmission scenario in an origin fully-decoupled radio access network (FD-RAN) architecture. Considering the unique fully-decoupled UL/DL access feature, we propose an efficient two-stage DL channel estimation method in the FD-RAN. We formulate a novel multi-connectivity and dynamic resource cooperation problem with joint multiple-BS and multiple-UE association and coordinated beamforming, aiming at maximizing the weighted sum achievable rate in DL FD-RAN. By leveraging the many-to-many swap-matching theory and fractional relaxation approach, we solve the dynamic UE scheduling problem with multiple-BS and multiple-UE association and the coordinated beamforming problem, respectively. Extensive simulation results based on standard 3GPP 36.873 urban micro channel demonstrate that the proposed framework can improve the average spectral efficiency by 34.9% as compared to the traditional maximum ratio transmission beamforming method.

Topics & Concepts

Computer scienceRadio access networkTelecommunications linkBeamformingBase stationComputer networkSpectral efficiencyUser equipmentScheduling (production processes)Cellular networkRadio resource managementC-RANDistributed computingChannel (broadcasting)WirelessWireless networkMathematical optimizationTelecommunicationsMobile stationMathematicsAdvanced MIMO Systems OptimizationCooperative Communication and Network CodingWireless Communication Networks Research
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