电子与信息学报
電子與信息學報
전자여신식학보
Journal of Electronics & Information Technology
2015年
11期
2657-2663
,共7页
徐霄飞%陈翔%赵明%周世东%王京
徐霄飛%陳翔%趙明%週世東%王京
서소비%진상%조명%주세동%왕경
全双工中继%分布式天线%波束成形%干扰抑制%和速率
全雙工中繼%分佈式天線%波束成形%榦擾抑製%和速率
전쌍공중계%분포식천선%파속성형%간우억제%화속솔
Full-duplex relay%Distributed antenna%Beamforming%Interference suppression%Sum-rate
基于分布式天线的全双工中继系统结合了全双工中继两跳同时同频传输的能力和分布式天线高效覆盖的特性,为提升小区边缘和严重阴影衰落区域的频谱效率提供了一种有效途径。在自干扰抵消非理想的多用户场景下,利用分布式多天线波束成形可实现对系统中自干扰和多用户干扰的联合抑制。为此,该文首先建立了在各分布式天线节点独立发射功率约束下最大化多用户端到端和速率的最优化系统模型,进而提出一种双层迭代算法,解决原问题的非凸性求解难题。仿真结果验证了算法的有效性,表明在多用户分布式天线全双工中继系统中,所提波束成形设计能够有效抑制自干扰和多用户干扰,显著提高系统频谱效率。
基于分佈式天線的全雙工中繼繫統結閤瞭全雙工中繼兩跳同時同頻傳輸的能力和分佈式天線高效覆蓋的特性,為提升小區邊緣和嚴重陰影衰落區域的頻譜效率提供瞭一種有效途徑。在自榦擾牴消非理想的多用戶場景下,利用分佈式多天線波束成形可實現對繫統中自榦擾和多用戶榦擾的聯閤抑製。為此,該文首先建立瞭在各分佈式天線節點獨立髮射功率約束下最大化多用戶耑到耑和速率的最優化繫統模型,進而提齣一種雙層迭代算法,解決原問題的非凸性求解難題。倣真結果驗證瞭算法的有效性,錶明在多用戶分佈式天線全雙工中繼繫統中,所提波束成形設計能夠有效抑製自榦擾和多用戶榦擾,顯著提高繫統頻譜效率。
기우분포식천선적전쌍공중계계통결합료전쌍공중계량도동시동빈전수적능력화분포식천선고효복개적특성,위제승소구변연화엄중음영쇠락구역적빈보효솔제공료일충유효도경。재자간우저소비이상적다용호장경하,이용분포식다천선파속성형가실현대계통중자간우화다용호간우적연합억제。위차,해문수선건립료재각분포식천선절점독립발사공솔약속하최대화다용호단도단화속솔적최우화계통모형,진이제출일충쌍층질대산법,해결원문제적비철성구해난제。방진결과험증료산법적유효성,표명재다용호분포식천선전쌍공중계계통중,소제파속성형설계능구유효억제자간우화다용호간우,현저제고계통빈보효솔。
Distributed antenna based full-duplex relay system is capable of simultaneous transmission and reception in the same frequency band on two hops, and it provides uniform coverage for cell edge and deep shadow fading areas with increased spectral efficiency. In multiuser scenarios with non-ideal self interference cancellation, beamforming using multiple distributed antennas is proposed to suppress self interference and multiuser interference jointly. A system model for multiuser end-to-end sum-rate maximization under individual power constraints at distributed antennas is established first. Then, a dual-layer iterative algorithm is proposed to resolve the non-convexity of the problem. Simulation results validate the effectiveness of the proposal algorithm, showing that the proposed beamforming design can be used in distributed-antenna based full-duplex relay systems, to suppress both self interference and multiuser interference efficiently, and increase system spectral efficiency significantly.
