Owing to the inherent central information processing and resource management ability, the cloud radio access network (C-RAN) is a promising network structure for an intelligent and simplified sixth-generation (6G) wireless network. Nevertheless, to further enhance the capacity and coverage, more radio remote heads (RRHs) as well as high-fidelity and low-latency fronthaul links are required, which may lead to high implementation cost. To address this issue, we propose to exploit the intelligent reflecting surface (IRS) as an alternative way to enhance the C-RAN, which is a low-cost and energy-efficient option. Specifically, we consider the uplink transmission where multi-antenna users communicate with the baseband unit (BBU) pool through multi-antenna RRHs and multiple IRSs are deployed between the users and RRHs. RRHs can conduct either point-to-point (P2P) compression or Wyner-Ziv coding to compress the received signals, which are then forwarded to the BBU pool through fronthaul links. We investigate the joint design and optimization of user transmit beamformers, IRS passive beamformers, and fronthaul compression noise covariance matrices to maximize the uplink sum rate subject to fronthaul capacity constraints under P2P compression and Wyner-Ziv coding. By exploiting the Arimoto-Blahut algorithm and semi-definite relaxation (SDR), we propose a successive convex approximation approach to solve non-convex problems, and two iterative algorithms corresponding to P2P compression and Wyner-Ziv coding are provided. Numerical results verify the performance gain brought about by deploying IRS in C-RAN and the superiority of the proposed joint design.

Yu ZHANG;Xuelu WU;Hong PENG;Caijun ZHONG;Xiaoming CHEN

College of Information Engineering,Zhejiang University of Technology,Hangzhou 310023,China;National Mobile Communications Research Laboratory,Southeast University,Nanjing 210096,China;College of Information Science and Electronic Engineering,Zhejiang University,Hangzhou 310027,China

信息与电子工程前沿（英文）

[1]Yu ZHANG;Xuelu WU;Hong PENG;Caijun ZHONG;Xiaoming CHEN-.Beamforming and fronthaul compression design for intelligent reflecting surface aided cloud radio access networks)[J].信息与电子工程前沿（英文）,2022(01):31-46

RRHs,baseband,IRSs,Wyner,beamformers,Arimoto,Blahut

Beamforming,fronthaul,compression,design,intelligent,reflecting,surface,aided,cloud,radio,access,networks,Owing,inherent,central,information,processing,resource,management,ability,RAN,promising,structure,simplified,sixth,generation,6G,wireless,Nevertheless,further,enhance,capacity,coverage,more,remote,heads,well,high,fidelity,low,latency,links,are,required,which,may,lead,implementation,cost,To,address,this,issue,alternative,way,energy,efficient,option,Specifically,consider,uplink,transmission,where,antenna,users,communicate,unit,BBU,pool,through,multiple,deployed,between,can,conduct,either,point,P2P,Ziv,coding,received,signals,then,forwarded,We,investigate,joint,optimization,transmit,passive,noise,covariance,matrices,maximize,sum,rate,subject,constraints,under,By,exploiting,semi,definite,relaxation,SDR,successive,convex,approximation,approach,solve,problems,iterative,algorithms,corresponding,provided,Numerical,results,verify,performance,gain,brought,about,by,deploying,superiority,proposed

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