现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2015年
2期
1-4
,共4页
正交频分复用%多输入/多输出%空频分块码%峰均功率比%空间自由度
正交頻分複用%多輸入/多輸齣%空頻分塊碼%峰均功率比%空間自由度
정교빈분복용%다수입/다수출%공빈분괴마%봉균공솔비%공간자유도
orthogonal frequency division multiplexing%multi-input multi-output orthogonal%space-frequency block coding%peak-to-average power ratio%spacial freedom
与联合空时编码的多输入/多输出的正交频分复用(STBC MIMO?OFDM)系统比较,联合空频编码(SFBC)的MIMO?OFDM系统具有更优的抗多径时变衰弱信道能力,已被TD?LTE制式采用。针对SFBC MIMO?OFDM系统存在峰值平均功率比过高的问题,提出一种低复杂度的子块间空频变换算法。首先在频域上,对所有天线的空频分组码序列进行均等分块,对天线间相应子块进行交叉反向产生候选序列,并从候选序列中选择PAPR最小序列。然后,在时域上对各天线内子块同步进行逐次循环移位,进一步选择最优PAPR序列进行传输。通过结合IFFT特性和SFBC特性分析实现大幅度降低算法复杂度。仿真结果证明在保证SFBC正交性的基础上,算法具备有效性和可靠性。
與聯閤空時編碼的多輸入/多輸齣的正交頻分複用(STBC MIMO?OFDM)繫統比較,聯閤空頻編碼(SFBC)的MIMO?OFDM繫統具有更優的抗多徑時變衰弱信道能力,已被TD?LTE製式採用。針對SFBC MIMO?OFDM繫統存在峰值平均功率比過高的問題,提齣一種低複雜度的子塊間空頻變換算法。首先在頻域上,對所有天線的空頻分組碼序列進行均等分塊,對天線間相應子塊進行交扠反嚮產生候選序列,併從候選序列中選擇PAPR最小序列。然後,在時域上對各天線內子塊同步進行逐次循環移位,進一步選擇最優PAPR序列進行傳輸。通過結閤IFFT特性和SFBC特性分析實現大幅度降低算法複雜度。倣真結果證明在保證SFBC正交性的基礎上,算法具備有效性和可靠性。
여연합공시편마적다수입/다수출적정교빈분복용(STBC MIMO?OFDM)계통비교,연합공빈편마(SFBC)적MIMO?OFDM계통구유경우적항다경시변쇠약신도능력,이피TD?LTE제식채용。침대SFBC MIMO?OFDM계통존재봉치평균공솔비과고적문제,제출일충저복잡도적자괴간공빈변환산법。수선재빈역상,대소유천선적공빈분조마서렬진행균등분괴,대천선간상응자괴진행교차반향산생후선서렬,병종후선서렬중선택PAPR최소서렬。연후,재시역상대각천선내자괴동보진행축차순배이위,진일보선택최우PAPR서렬진행전수。통과결합IFFT특성화SFBC특성분석실현대폭도강저산법복잡도。방진결과증명재보증SFBC정교성적기출상,산법구비유효성화가고성。
Compared with STBC MIO?OFDM system,SFBC MIMO?OFDM system which is adopted by TD?LTE system has better ability to resist damages of multipath time?varying fading channel. Because of the fact that peak?to?average power ratio (PAPR)of SFBC MIMO?OFDM system is too high,an algorithm of space?frequency transformation between sub?blocks with low complexity is proposed. In the frequency domain , equal partitioning into sub?blocks generated from space?frequency block coding (SFBC) sequence of each antenna is conducted. For generation of candidate sequences,inversion cross of the corre?sponding sub?blocks between antennas are performed and PAPR minimal sequence is selected from candidate sequences. In the time domain,successive cyclic shifting of sub?blocks in each antenna are executed synchronously to do further selection of opti?mal PAPR sequence for transmission. With analysis on the characteristics of IFFT and SFBC,the complexity of PAPR algorithm can be further reduced. The simulation results prove that the scheme is valid and reliable in the premise of ensuring the orthogo?nality of SFBC.
