电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
6期
1406-1412
,共7页
陈昭男*%王红星%钟佩琳%张学俊%刘传辉
陳昭男*%王紅星%鐘珮琳%張學俊%劉傳輝
진소남*%왕홍성%종패림%장학준%류전휘
信号处理%非正弦波%椭圆球面波函数%峰均功率比%Givens旋转
信號處理%非正絃波%橢圓毬麵波函數%峰均功率比%Givens鏇轉
신호처리%비정현파%타원구면파함수%봉균공솔비%Givens선전
Signal processing%Non-sinusoidal wave%Prolate Spheroidal Wave Functions (PSWF)%Peak-to-Average Power Ratio (PAPR)%Givens rotation
针对基于椭圆球面波函数(Prolate Spheroidal Wave Function, PSWF)脉冲的调制信号峰均功率比过高的问题,该文提出一种基于Givens旋转的PSWF脉冲峰均功率比抑制方法.该方法从正交PSWF脉冲组的特征向量加权表示入手,利用 Givens旋转矩阵(,,)i j qG 对所有子坐标平面(,)i j 进行q角度的旋转,搜寻使脉冲组PAPR (Peak-to-Average Power Ratio, PAPR)值最小的旋转矩阵,最后利用该矩阵对原PSWF脉冲组进行Givens变换,从而实现降低PAPR的目标.针对Givens旋转次数较多导致计算复杂度大的问题,该文提出分组flipping迭代的算法实现方案.理论证明了该变换方法能够保持脉冲组的带内能量聚集和正交性.仿真结果表明,该方法有效降低了脉冲组的PAPR,同时系统传输效率、调制信号功率谱密度与系统误码率性能均保持不变.
針對基于橢圓毬麵波函數(Prolate Spheroidal Wave Function, PSWF)脈遲的調製信號峰均功率比過高的問題,該文提齣一種基于Givens鏇轉的PSWF脈遲峰均功率比抑製方法.該方法從正交PSWF脈遲組的特徵嚮量加權錶示入手,利用 Givens鏇轉矩陣(,,)i j qG 對所有子坐標平麵(,)i j 進行q角度的鏇轉,搜尋使脈遲組PAPR (Peak-to-Average Power Ratio, PAPR)值最小的鏇轉矩陣,最後利用該矩陣對原PSWF脈遲組進行Givens變換,從而實現降低PAPR的目標.針對Givens鏇轉次數較多導緻計算複雜度大的問題,該文提齣分組flipping迭代的算法實現方案.理論證明瞭該變換方法能夠保持脈遲組的帶內能量聚集和正交性.倣真結果錶明,該方法有效降低瞭脈遲組的PAPR,同時繫統傳輸效率、調製信號功率譜密度與繫統誤碼率性能均保持不變.
침대기우타원구면파함수(Prolate Spheroidal Wave Function, PSWF)맥충적조제신호봉균공솔비과고적문제,해문제출일충기우Givens선전적PSWF맥충봉균공솔비억제방법.해방법종정교PSWF맥충조적특정향량가권표시입수,이용 Givens선전구진(,,)i j qG 대소유자좌표평면(,)i j 진행q각도적선전,수심사맥충조PAPR (Peak-to-Average Power Ratio, PAPR)치최소적선전구진,최후이용해구진대원PSWF맥충조진행Givens변환,종이실현강저PAPR적목표.침대Givens선전차수교다도치계산복잡도대적문제,해문제출분조flipping질대적산법실현방안.이론증명료해변환방법능구보지맥충조적대내능량취집화정교성.방진결과표명,해방법유효강저료맥충조적PAPR,동시계통전수효솔、조제신호공솔보밀도여계통오마솔성능균보지불변.
To reduce the high Peak-to-Average Power Ratio (PAPR) of modulated signals based on Prolate Spheroidal Wave Function (PSWF) pulse, a novel PAPR reduction method for PSWF pulse based on Givens rotation is proposed. The method represents firstly orthogonal PSWF pulses with weighted eigenvectors, and then uses Givens matrix ( , , )i j qG to rotate all the two-dimensional planes of coordinate( , )i j with any angle. The rotation matrix which most greatly reduces the PAPR of pulse set is searched and the original PSWF pulse set is transformed with the matrix. To reduce the realizaition complexity, a flipping iteration scheme based on grouping is proposed. It is theoretically proved that the transform can maintenance orthogonality of pulse set and high energy concentration in the given frequency domain. Simulation results show that the method can effectively reduce the PAPR of pulse set and preserve the transmission efficiency, the Power Spectral Density (PSD) and Bit Error Ratio (BER) performance of modulated signals.