电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2010年
2期
307-312
,共6页
MIMO系统%软输入软输出%序贯蒙特卡罗%迭代检测
MIMO繫統%軟輸入軟輸齣%序貫矇特卡囉%迭代檢測
MIMO계통%연수입연수출%서관몽특잡라%질대검측
MIMO system%Soft-Input-Soft-Output (SISO)%Sequential Monte Carlo (SMC)%Iterative detector
为了得到最优的MIMO迭代接收机,需要精确计算软输入软输出检测器输出的外信息,但精确计算的复杂度随调制阶数和天线数指数增长,不适合多天线高阶调制的情况.该文首先将外信息的估计归结为一个目标集合的选取,并提出通过序贯蒙特卡罗抽样方法获取目标集合.但是研究表明传统抽样方法不能有效获得合适的集合;因此一种改进的序贯蒙特卡罗抽样方法被提出,用于解决有限元离散概率空间的样本近似.最终,基于改进序贯蒙特卡罗抽样的外信息近似计算应用于迭代检测算法中.分析表明,该文提出的迭代检测算法的复杂度和抽取的样本数量呈线性比例;而仿真结果证明,较少的样本就可以取得逼近最优的误码率性能.
為瞭得到最優的MIMO迭代接收機,需要精確計算軟輸入軟輸齣檢測器輸齣的外信息,但精確計算的複雜度隨調製階數和天線數指數增長,不適閤多天線高階調製的情況.該文首先將外信息的估計歸結為一箇目標集閤的選取,併提齣通過序貫矇特卡囉抽樣方法穫取目標集閤.但是研究錶明傳統抽樣方法不能有效穫得閤適的集閤;因此一種改進的序貫矇特卡囉抽樣方法被提齣,用于解決有限元離散概率空間的樣本近似.最終,基于改進序貫矇特卡囉抽樣的外信息近似計算應用于迭代檢測算法中.分析錶明,該文提齣的迭代檢測算法的複雜度和抽取的樣本數量呈線性比例;而倣真結果證明,較少的樣本就可以取得逼近最優的誤碼率性能.
위료득도최우적MIMO질대접수궤,수요정학계산연수입연수출검측기수출적외신식,단정학계산적복잡도수조제계수화천선수지수증장,불괄합다천선고계조제적정황.해문수선장외신식적고계귀결위일개목표집합적선취,병제출통과서관몽특잡라추양방법획취목표집합.단시연구표명전통추양방법불능유효획득합괄적집합;인차일충개진적서관몽특잡라추양방법피제출,용우해결유한원리산개솔공간적양본근사.최종,기우개진서관몽특잡라추양적외신식근사계산응용우질대검측산법중.분석표명,해문제출적질대검측산법적복잡도화추취적양본수량정선성비례;이방진결과증명,교소적양본취가이취득핍근최우적오마솔성능.
An optimal iterative receiver for MIMO system need exact calculation of extrinsic information in Soft-Input-Soft-Output (SISO) detector. This optimal receiver does not fit the system with large numbers of antennas and high modulation order, because its complexity increases exponentially with modulation order and antenna number. So in this paper, the estimation of extrinsic information is proved to be equal to a choice issue of a target collection, which will be obtained by Sequential Monte Carlo (SMC) sampling. But the research also indicates that the traditional sampling method can not draw a suited target collection, so a Revised SMC (R-SMC) method is proposed to approximate a finite element discrete probability space by drawn samples. Finally, an approximate computation of extrinsic information based on R-SMC sampling is applied in this new detection algorithm. By analyses, the proposed algorithm's complexity is linearly proportional to the number of drawn samples. And simulation results prove that the near-optimal Bit-Error-Ratio (BER) performance can be obtained by a small number of samples.
