电讯技术
電訊技術
전신기술
TELECOMMUNICATIONS ENGINEERING
2014年
6期
735-739
,共5页
罗仁泽%李芮%杨娇%牛娜
囉仁澤%李芮%楊嬌%牛娜
라인택%리예%양교%우나
多输入多输出正交频分复用%空频偏码%峰均功率比%改进SLM算法%F矩阵
多輸入多輸齣正交頻分複用%空頻偏碼%峰均功率比%改進SLM算法%F矩陣
다수입다수출정교빈분복용%공빈편마%봉균공솔비%개진SLM산법%F구진
MIMO-OFDM%SFBC%PAPR%improved SLM algorithm%F matrix
在空频编码( SFBC)多输入多输出正交频分复用( MIMO-OFDM)系统中传输符号存在较高峰均功率比( PAPR)问题,采用SLM算法能够有效降低系统峰均功率比,但随着发射天线数的增加,较多的快速傅里叶反变换( IFFT)会增加系统的计算复杂度,因此,构造F矩阵并提出了一种基于F矩阵SFBC MIMO-OFDM系统的改进SLM算法。采用F矩阵作为相位序列组对空频编码信号进行独立处理,获得最优相位序列取共轭,将共轭序列中每两个旋转因子为一个单位交换位置,并扰码SFBC后各天线的信号,以此减少了每根发射天线上的IFFT次数。理论和MATLAB仿真分析表明,该算法获得了良好的峰均比性能,同时也降低了系统的计算复杂度。
在空頻編碼( SFBC)多輸入多輸齣正交頻分複用( MIMO-OFDM)繫統中傳輸符號存在較高峰均功率比( PAPR)問題,採用SLM算法能夠有效降低繫統峰均功率比,但隨著髮射天線數的增加,較多的快速傅裏葉反變換( IFFT)會增加繫統的計算複雜度,因此,構造F矩陣併提齣瞭一種基于F矩陣SFBC MIMO-OFDM繫統的改進SLM算法。採用F矩陣作為相位序列組對空頻編碼信號進行獨立處理,穫得最優相位序列取共軛,將共軛序列中每兩箇鏇轉因子為一箇單位交換位置,併擾碼SFBC後各天線的信號,以此減少瞭每根髮射天線上的IFFT次數。理論和MATLAB倣真分析錶明,該算法穫得瞭良好的峰均比性能,同時也降低瞭繫統的計算複雜度。
재공빈편마( SFBC)다수입다수출정교빈분복용( MIMO-OFDM)계통중전수부호존재교고봉균공솔비( PAPR)문제,채용SLM산법능구유효강저계통봉균공솔비,단수착발사천선수적증가,교다적쾌속부리협반변환( IFFT)회증가계통적계산복잡도,인차,구조F구진병제출료일충기우F구진SFBC MIMO-OFDM계통적개진SLM산법。채용F구진작위상위서렬조대공빈편마신호진행독립처리,획득최우상위서렬취공액,장공액서렬중매량개선전인자위일개단위교환위치,병우마SFBC후각천선적신호,이차감소료매근발사천선상적IFFT차수。이론화MATLAB방진분석표명,해산법획득료량호적봉균비성능,동시야강저료계통적계산복잡도。
In the multiple-input multiple-output ( MIMO ) orthogonal frequency division multiplexing ( OFDM) system with space-frequency block coding ( SFBC) , the transmission symbols have problem with high peak-to-average power ratio( PAPR) . The selective mapping ( SLM) algorithm is proposed to reduce the PAPR effectively, but with the increase of transmitting antenna number, more inverse fast Fourier transform( IFFT) will increase the computational complexity of the system. This paper constructs an F ma-trix and proposes an improved SLM algorithm based on the F matrix for SFBC MIMO-OFDM system. The F matrix is used as phase sequences to deal with the signal after Space-Frequency Blocking Coding ( SF-BC) to obtain the optimal phase sequence and its conjugation. In the conjugation sequence, two factors form one unit, within which they exchange their location. The sequence scrambles signals from each anten-na after SFBC. Therefore, the number of IFFT for each of the transmitting antenna is reduced. Theoretical analysis and MATLAB simulation show that the method achieves good peak-to-average power ratio ( PA-PR) performance as well as reduces the computational complexity of the system.
