In next generation networks,mobility man-agement will be a critical issue due to dense base station(BS)deployment,for which user and con-trol plane split architecture provides a promising so-lution.Jointly designing such architecture with non-orthogonal transmission brings in more flexibility to further improve system efficiency.This paper pro-poses a non-orthogonal transmission design for user and control plane split architecture.In this design,user equipments(UEs)will select the BS providing the strongest received signal to associate its data chan-nel,but constantly connect its control channel to the nearest macro-cell BS(MBS).Upon non-orthogonal transmission,an MBS can multiplex data traffics and control signals on the same resource.Stochastic ge-ometry based analysis is carried out to investigate out-age probability,which extends its regular definition by jointly considering data and control channels,and then mobility-aware outage rate.Numerical results show that:1)The proposed split architecture allevi-ates the increase in handover rate for ultra dense net-working,compared with conventional architecture.2)Non-orthogonal transmission outperforms traditional orthogonal transmission in the split architecture,be-cause it is capable of accommodating more control channels.3)By carefully adjusting power levels,min-imum outage probabilities can be reached for macro-cell UEs in the proposed design.

Xianling Wang;Haijun Zhang;Yitong Liu;Chen Zhu;Yue Tian

Fujian Key Laboratory of Communication Network and Information Processing,Xiamen University of Technology,Xiamen 361024,China;University of Science and Technology Beijing,Beijing 100083,China;Beijing University of Posts and Telecommunications,Beijing 100876,China

中国通信（英文版）

[1]Xianling Wang;Haijun Zhang;Yitong Liu;Chen Zhu;Yue Tian-.Non-Orthogonal Transmission for User and Control Plane Split Architecture in 5G Systems and Beyond:Performance Analysis and Design Insights)[J].中国通信（英文版）,2022(11):179-194

Jointly,traffics

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