电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
4期
832-837
,共6页
李明阳*%柏鹏%王徐华%彭卫东%卢虎%林晋福
李明暘*%柏鵬%王徐華%彭衛東%盧虎%林晉福
리명양*%백붕%왕서화%팽위동%로호%림진복
信号处理%迭代最小二乘法%精确同步%分段相关取模%抗频偏%抗噪声
信號處理%迭代最小二乘法%精確同步%分段相關取模%抗頻偏%抗譟聲
신호처리%질대최소이승법%정학동보%분단상관취모%항빈편%항조성
Signal processing%Iterative Least Squares (LS)%Precise synchronization%Modulus of split correlation%Anti frequency-offset%Anti noise
最小二乘拟合鉴相曲线的方法可以实现精确同步,但其对粗同步要求苛刻且不能有效对抗频偏.该文通过分析证明当粗同步误差在前后各半个码片周期内时,最小二乘法的测量值介于零和实际值之间.根据该特性提出基于迭代最小二乘法的精确同步方法,并引入分段相关取模策略,以达到抗频偏效果.理论分析表明该方法能够有效消除噪声的影响,并且在分段长度不大的情况下具有很强的抗频偏能力.仿真结果表明该方法具有很强的抗频偏和抗噪声能力,并且在粗同步误差覆盖前后半个码片范围时依然具有很高的测量精度.
最小二乘擬閤鑒相麯線的方法可以實現精確同步,但其對粗同步要求苛刻且不能有效對抗頻偏.該文通過分析證明噹粗同步誤差在前後各半箇碼片週期內時,最小二乘法的測量值介于零和實際值之間.根據該特性提齣基于迭代最小二乘法的精確同步方法,併引入分段相關取模策略,以達到抗頻偏效果.理論分析錶明該方法能夠有效消除譟聲的影響,併且在分段長度不大的情況下具有很彊的抗頻偏能力.倣真結果錶明該方法具有很彊的抗頻偏和抗譟聲能力,併且在粗同步誤差覆蓋前後半箇碼片範圍時依然具有很高的測量精度.
최소이승의합감상곡선적방법가이실현정학동보,단기대조동보요구가각차불능유효대항빈편.해문통과분석증명당조동보오차재전후각반개마편주기내시,최소이승법적측량치개우령화실제치지간.근거해특성제출기우질대최소이승법적정학동보방법,병인입분단상관취모책략,이체도항빈편효과.이론분석표명해방법능구유효소제조성적영향,병차재분단장도불대적정황하구유흔강적항빈편능력.방진결과표명해방법구유흔강적항빈편화항조성능력,병차재조동보오차복개전후반개마편범위시의연구유흔고적측량정도.
@@@@Precise synchronization can be achieved by fitting phase discrimination curve exploiting Least Squares (LS). However, this method not only has very high requirement of coarse synchronization, but also can not counteract frequency-offset effectively. It is analyzed and proved that the measured value of LS is between zero and real value as coarse synchronization error is between the earlier and later chip. Accordingly a precise synchronization method based on iterative least squares is proposed and a modulus of split correlation strategy is also introduced in this paper to counteract frequency-offset. Theoretical analysis shows that this method can outstandingly eliminate influence of noise as well as frequency-offset with short segments. Besides its strong anti frequency-offset and noise capability, the proposed method still has very high measurement precision as the error of coarse synchronization covers the earlier and later half chip according to simulation results.
