计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2013年
13期
1-4,7
,共5页
高敬鹏%赵旦峰%周相超%付芳
高敬鵬%趙旦峰%週相超%付芳
고경붕%조단봉%주상초%부방
MIMO-OFDM系统%SAGE算法%改进的FD-SAGE算法%信道估计
MIMO-OFDM繫統%SAGE算法%改進的FD-SAGE算法%信道估計
MIMO-OFDM계통%SAGE산법%개진적FD-SAGE산법%신도고계
MIMO-OFDM system%SAGE algorithm%improved FD-SAGE algorithm%channel estimation
针对MIMO-OFDM系统中频域的空间交替广义期望最大化(FD-SAGE)算法估计信道性能较差以及收敛速度慢的问题,提出了一种改进的FD-SAGE信道估计算法。该算法在FD-SAGE算法的基础上,通过对SAGE算法的潜在数据和不完全数据进行分解分析推导出一种修正的SAGE算法,同时在SAGE的更新数据信息时引入最大似然算法,进而提高系统的可靠性。理论研究和仿真结果表明,该算法以牺牲少量复杂度为代价,能较好地追踪信道变化且收敛速度较快,其性能优于传统的LS算法,信号检测采用最大似然算法时,在相同误比特率情况下与理想信道估计仅相差0.5 dB。
針對MIMO-OFDM繫統中頻域的空間交替廣義期望最大化(FD-SAGE)算法估計信道性能較差以及收斂速度慢的問題,提齣瞭一種改進的FD-SAGE信道估計算法。該算法在FD-SAGE算法的基礎上,通過對SAGE算法的潛在數據和不完全數據進行分解分析推導齣一種脩正的SAGE算法,同時在SAGE的更新數據信息時引入最大似然算法,進而提高繫統的可靠性。理論研究和倣真結果錶明,該算法以犧牲少量複雜度為代價,能較好地追蹤信道變化且收斂速度較快,其性能優于傳統的LS算法,信號檢測採用最大似然算法時,在相同誤比特率情況下與理想信道估計僅相差0.5 dB。
침대MIMO-OFDM계통중빈역적공간교체엄의기망최대화(FD-SAGE)산법고계신도성능교차이급수렴속도만적문제,제출료일충개진적FD-SAGE신도고계산법。해산법재FD-SAGE산법적기출상,통과대SAGE산법적잠재수거화불완전수거진행분해분석추도출일충수정적SAGE산법,동시재SAGE적경신수거신식시인입최대사연산법,진이제고계통적가고성。이론연구화방진결과표명,해산법이희생소량복잡도위대개,능교호지추종신도변화차수렴속도교쾌,기성능우우전통적LS산법,신호검측채용최대사연산법시,재상동오비특솔정황하여이상신도고계부상차0.5 dB。
Aiming at the poor performance of Frequency Domain Space-Alternating Generalized Expectation-Maximization (FD-SAGE)algorithm in channel estimation and the slow convergence speed in the MIMO-OFDM system, this paper presents an improved FD-SAGE channel estimate algorithm. On the basis of FD-SAGE algorithm, a modified SAGE algorithm is derived through decomposing and analyzing the potential and incomplete data of SAGE algorithm. Meanwhile, the maximum likelihood algorithm is introduced in the process of refreshing data information in SAGE algorithm, and then the reliability of system is improved. The theoretical analysis and simulation results show that this algorithm can better track the channel change and acquire a faster convergence speed, just in cost of a slight system complexity. The performance is better than the traditional Least Square (LS)algorithm. Comparing with the ideal channel estimation under the maximum likelihood algorithm in signal detection, the new proposed algorithm has only a loss of 0.5 dB with the same bit error rate.