计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
6期
186-191
,共6页
肖玮%涂亚庆%沈艳林%苏丹%张磊
肖瑋%塗亞慶%瀋豔林%囌丹%張磊
초위%도아경%침염림%소단%장뢰
快速频谱融合%多段正弦信号%离散时间傅里叶变换(DTFT)快速算法%降维%1/3主瓣相关
快速頻譜融閤%多段正絃信號%離散時間傅裏葉變換(DTFT)快速算法%降維%1/3主瓣相關
쾌속빈보융합%다단정현신호%리산시간부리협변환(DTFT)쾌속산법%강유%1/3주판상관
fast spectra fusion%multi-sections sinusoids%fast Discrete Time Fourier Transform(DTFT)algorithm%dimen-sions reduction%correlation of 1/3 main-lodes
多段正弦信号频谱融合法(简称“原融合算法”)是提高低信噪比条件下正弦信号频率估计精度的一条有效途径,具有重要研究意义和应用价值。为满足雷达、声纳、电子对抗等实时性要求较高的频率估计应用需求,提出多段正弦信号快速频谱融合算法。该方法通过设计离散时间傅里叶变换(Discrete Time Fourier Transform,DTFT)快速算法、降维处理加权融合频谱矩阵和1/3主瓣相关性分析处理等措施来降低算法计算量,提高实时性。重点对上述三项措施的原理进行了阐述与分析。计算量对比和仿真实验表明,多段正弦信号快速频谱融合算法在精度损失极小的前提下,能够大幅降低计算量;在信噪比极低的情况下(SNR-13 dB),其性能略优于原融合算法。
多段正絃信號頻譜融閤法(簡稱“原融閤算法”)是提高低信譟比條件下正絃信號頻率估計精度的一條有效途徑,具有重要研究意義和應用價值。為滿足雷達、聲納、電子對抗等實時性要求較高的頻率估計應用需求,提齣多段正絃信號快速頻譜融閤算法。該方法通過設計離散時間傅裏葉變換(Discrete Time Fourier Transform,DTFT)快速算法、降維處理加權融閤頻譜矩陣和1/3主瓣相關性分析處理等措施來降低算法計算量,提高實時性。重點對上述三項措施的原理進行瞭闡述與分析。計算量對比和倣真實驗錶明,多段正絃信號快速頻譜融閤算法在精度損失極小的前提下,能夠大幅降低計算量;在信譟比極低的情況下(SNR-13 dB),其性能略優于原融閤算法。
다단정현신호빈보융합법(간칭“원융합산법”)시제고저신조비조건하정현신호빈솔고계정도적일조유효도경,구유중요연구의의화응용개치。위만족뢰체、성납、전자대항등실시성요구교고적빈솔고계응용수구,제출다단정현신호쾌속빈보융합산법。해방법통과설계리산시간부리협변환(Discrete Time Fourier Transform,DTFT)쾌속산법、강유처리가권융합빈보구진화1/3주판상관성분석처리등조시래강저산법계산량,제고실시성。중점대상술삼항조시적원리진행료천술여분석。계산량대비화방진실험표명,다단정현신호쾌속빈보융합산법재정도손실겁소적전제하,능구대폭강저계산량;재신조비겁저적정황하(SNR-13 dB),기성능략우우원융합산법。
The spectra fusion method for multi-sections sinusoids(called“the fore-fusion method”for short)is an effec-tive way of estimation frequency for the sinusoids in low Signal-to-Noise Ratio(SNR), which has an important theoreti-cal significance and practical value. In order to meet the high real-time demand in some fields such as radar, sonar and electronic countermeasures, a fast spectra fusion algorithm for multi-section sinusoids is put forward. This proposed algo-rithm can reduce the calculation and improve the real-time characteristic by the following techniques:design a fast DTFT algorithm, reduce dimensions of the weighted fusion spectrum matrix, and analyse the correlation of the 1/3 main-lodes of the optimization weighted-accumulation spectrum and the accumulation spectrum. The principles of the above techniques are expatiated. Calculation analyses and simulations demonstrate that the proposed algorithm can reduce most calculation of the fore-fusion method with lower little precision, and it works better in very low SNR (SNR-13 dB) .
