通信学报
通信學報
통신학보
JOURNAL OF CHINA INSTITUTE OF COMMUNICATIONS
2013年
11期
51-58
,共8页
赵海军%李敏%崔梦天%李明东
趙海軍%李敏%崔夢天%李明東
조해군%리민%최몽천%리명동
MIMO OFDM系统%STBC%I/Q不平衡%载波频率偏移%子载波%均衡技术
MIMO OFDM繫統%STBC%I/Q不平衡%載波頻率偏移%子載波%均衡技術
MIMO OFDM계통%STBC%I/Q불평형%재파빈솔편이%자재파%균형기술
MIMO OFDM syetem%space-time block coded%I/Q imbalance%carrier frequency offset%per-tone%equili-brium technique
基于STBC方案,针对MIMO OFDM通信系统中同时存在发射机和接收机I/Q不平衡、前端滤波器失配、CFO和频率选择性信道失真的组合影响进行了深入研究,并提出了一种适用的联合均衡策略;具体实现是首先通过对MIMO OFDM系统中只存在发射机I/Q不平衡和多径信道干扰的分析,得到一种频域均衡器;然后再考虑同时存在接收机I/Q不平衡和CFO的情况,得到了2个时域均衡器;最后把2个时域均衡器变换到频域,并结合消除发射机I/Q不平衡和多径信道干扰的频域均衡技术,提出了一种全面的联合均衡技术即频域子载波均衡器。仿真结果表明,针对MIMO OFDM系统提出的频域子载波均衡技术不仅能扩展到其他高阶STBC系统,而且使均衡后的系统BER性能得到了明显的提高。
基于STBC方案,針對MIMO OFDM通信繫統中同時存在髮射機和接收機I/Q不平衡、前耑濾波器失配、CFO和頻率選擇性信道失真的組閤影響進行瞭深入研究,併提齣瞭一種適用的聯閤均衡策略;具體實現是首先通過對MIMO OFDM繫統中隻存在髮射機I/Q不平衡和多徑信道榦擾的分析,得到一種頻域均衡器;然後再攷慮同時存在接收機I/Q不平衡和CFO的情況,得到瞭2箇時域均衡器;最後把2箇時域均衡器變換到頻域,併結閤消除髮射機I/Q不平衡和多徑信道榦擾的頻域均衡技術,提齣瞭一種全麵的聯閤均衡技術即頻域子載波均衡器。倣真結果錶明,針對MIMO OFDM繫統提齣的頻域子載波均衡技術不僅能擴展到其他高階STBC繫統,而且使均衡後的繫統BER性能得到瞭明顯的提高。
기우STBC방안,침대MIMO OFDM통신계통중동시존재발사궤화접수궤I/Q불평형、전단려파기실배、CFO화빈솔선택성신도실진적조합영향진행료심입연구,병제출료일충괄용적연합균형책략;구체실현시수선통과대MIMO OFDM계통중지존재발사궤I/Q불평형화다경신도간우적분석,득도일충빈역균형기;연후재고필동시존재접수궤I/Q불평형화CFO적정황,득도료2개시역균형기;최후파2개시역균형기변환도빈역,병결합소제발사궤I/Q불평형화다경신도간우적빈역균형기술,제출료일충전면적연합균형기술즉빈역자재파균형기。방진결과표명,침대MIMO OFDM계통제출적빈역자재파균형기술불부능확전도기타고계STBC계통,이차사균형후적계통BER성능득도료명현적제고。
Based on the STBC scheme, the combined effect of the transmitter and receiver I/Q imbalance, the front-end filter unmatch, CFO and frequency selective channel distortion for the presence at the same time in MIMO OFDM com-munication system was intensively studied , and an applicable joint equilibrium strategy was also proposed. The concrete implementation is that a frequency domain equalizer was firstly obtained through the analysis of the only presence of the transmitter I/Q imbalance and multipath channel interference in MIMO OFDM system. And then considering on the si-multaneous presence of receiver I/Q imbalance and CFO, two time domain equalizers were also obtained. Finally, these time domain equalizers were transformed into the frequency domain, combined with frequency domain equilibrium technology to eliminate the transmitter I/Q imbalance and multipath channel interference. A comprehensively joint equi-librium technology, namely frequency domain per-tone equalizer, was proposed. The simulation results show that the frequency domain per-tone equilibrium technique for the proposed MIMO OFDM system can be extended to other higher order STBC system, and the BER performance of the system after equilibrium using the proposed equilibrium technique is improved obviously.