电子学报
電子學報
전자학보
ACTA ELECTRONICA SINICA
2014年
11期
2253-2259
,共7页
分数阶傅里叶变换%MIMO单载波%最优分数阶傅里叶变换阶次
分數階傅裏葉變換%MIMO單載波%最優分數階傅裏葉變換階次
분수계부리협변환%MIMO단재파%최우분수계부리협변환계차
fractional Fourier transform%MIMO single-carrier%optimal fractional Fourier transform order
单载波频域均衡(SC-FDE)技术可以有效地克服无线传输中的多径衰落,而多输入多输出(MIMO)能大大提高频谱利用率。两者的结合已成为下一代无线通信系统上行链路的传输方案。然而,当无线信道是快速时变时, MIMO SC-FDE系统的频域信道矩阵将为非对角矩阵,形成严重的频域子信道间干扰,使系统性能急剧下降。针对这一问题,本文采用在分数阶傅里叶域均衡代替传统频域均衡,提出MIMO单载波分数阶傅里叶域均衡(MIMO SC-FrFDE )系统。通过选择合适的分数阶傅里叶变换阶次,实现分数阶傅里叶域信道矩阵的近似对角化。仿真结果表明,在快速时变信道下,本文提出的MIMO SC-FrFDE系统比传统MIMO SC-FDE具有更好的误码率性能。
單載波頻域均衡(SC-FDE)技術可以有效地剋服無線傳輸中的多徑衰落,而多輸入多輸齣(MIMO)能大大提高頻譜利用率。兩者的結閤已成為下一代無線通信繫統上行鏈路的傳輸方案。然而,噹無線信道是快速時變時, MIMO SC-FDE繫統的頻域信道矩陣將為非對角矩陣,形成嚴重的頻域子信道間榦擾,使繫統性能急劇下降。針對這一問題,本文採用在分數階傅裏葉域均衡代替傳統頻域均衡,提齣MIMO單載波分數階傅裏葉域均衡(MIMO SC-FrFDE )繫統。通過選擇閤適的分數階傅裏葉變換階次,實現分數階傅裏葉域信道矩陣的近似對角化。倣真結果錶明,在快速時變信道下,本文提齣的MIMO SC-FrFDE繫統比傳統MIMO SC-FDE具有更好的誤碼率性能。
단재파빈역균형(SC-FDE)기술가이유효지극복무선전수중적다경쇠락,이다수입다수출(MIMO)능대대제고빈보이용솔。량자적결합이성위하일대무선통신계통상행련로적전수방안。연이,당무선신도시쾌속시변시, MIMO SC-FDE계통적빈역신도구진장위비대각구진,형성엄중적빈역자신도간간우,사계통성능급극하강。침대저일문제,본문채용재분수계부리협역균형대체전통빈역균형,제출MIMO단재파분수계부리협역균형(MIMO SC-FrFDE )계통。통과선택합괄적분수계부리협변환계차,실현분수계부리협역신도구진적근사대각화。방진결과표명,재쾌속시변신도하,본문제출적MIMO SC-FrFDE계통비전통MIMO SC-FDE구유경호적오마솔성능。
Single-carrier frequency domain equalization (SC-FDE) is an effective technique to cope with multi-path fading . Multi-input Multi-output (MIMO) can greatly improve the spectrum utilization .The combination of these two techniques has be-come the uplink transmission scheme for the next generation wireless communication .Whereas ,the performance of MIMO SC-FDE system would degrade a lot under fast time-varying channels because of severe subchannel interference .To solve this problem ,we propose the MIMO single-carrier fractional Fourier domain equalization system (MIMO SC-FrFDE ) .The equalization is done in the fractional Fourier domain instead of Fourier domain .Through selecting the optimal fractional Fourier transform order ,the fractional Fourier domain channel matrix can be approximately diagonalized .Simulation results show that our proposed system can improve the performance compared with the MIMO SC-FDE system in fast time-varying channels .