西安交通大学学报
西安交通大學學報
서안교통대학학보
JOURNAL OF XI'AN JIAOTONG UNIVERSITY
2010年
4期
108-113
,共6页
雷达辐射源信号%时频原子%特征提取
雷達輻射源信號%時頻原子%特徵提取
뢰체복사원신호%시빈원자%특정제취
radar emitter signals%time-frequency atom%feature extraction
针对复杂体制雷达辐射源信号调制类型识别问题,提出一种新的辐射源信号脉内时频原子特征提取方法(TFAD).该方法首先利用稀疏分解原理和改进差分进化算法将辐射源信号在Ga-bor和Chirplet时频原子库中进行分解,然后利用分解后的首原子能量和Gabor原子中心频率参数分别提取出2个相似比特征和1个频率方差特征作为辐射源信号脉内调制类型的分类特征,最后通过构造有向循环图支持向量机分类器实现雷达辐射源信号的分类识别.与计算复杂度至少为O(nlogn)的分形方法相比,TFAD方法只有O(n)的计算复杂度.采用不同信噪比和多种调制参数的5种辐射源信号进行大量仿真实验,结果表明TFAD方法可获得98.3%的平均正确识别率.
針對複雜體製雷達輻射源信號調製類型識彆問題,提齣一種新的輻射源信號脈內時頻原子特徵提取方法(TFAD).該方法首先利用稀疏分解原理和改進差分進化算法將輻射源信號在Ga-bor和Chirplet時頻原子庫中進行分解,然後利用分解後的首原子能量和Gabor原子中心頻率參數分彆提取齣2箇相似比特徵和1箇頻率方差特徵作為輻射源信號脈內調製類型的分類特徵,最後通過構造有嚮循環圖支持嚮量機分類器實現雷達輻射源信號的分類識彆.與計算複雜度至少為O(nlogn)的分形方法相比,TFAD方法隻有O(n)的計算複雜度.採用不同信譟比和多種調製參數的5種輻射源信號進行大量倣真實驗,結果錶明TFAD方法可穫得98.3%的平均正確識彆率.
침대복잡체제뢰체복사원신호조제류형식별문제,제출일충신적복사원신호맥내시빈원자특정제취방법(TFAD).해방법수선이용희소분해원리화개진차분진화산법장복사원신호재Ga-bor화Chirplet시빈원자고중진행분해,연후이용분해후적수원자능량화Gabor원자중심빈솔삼수분별제취출2개상사비특정화1개빈솔방차특정작위복사원신호맥내조제류형적분류특정,최후통과구조유향순배도지지향량궤분류기실현뢰체복사원신호적분류식별.여계산복잡도지소위O(nlogn)적분형방법상비,TFAD방법지유O(n)적계산복잡도.채용불동신조비화다충조제삼수적5충복사원신호진행대량방진실험,결과표명TFAD방법가획득98.3%적평균정학식별솔.
A novel approach, called TFAD, is proposed to extract time-frequency atom features to effectively recognize the intra-pulse modulation types of advanced radar emitter signals. The method decomposes emitter signals based on matching pursuit in Gabor and Chirplet atom dictionaries using a modified differential evolution algorithm. Then both the energy of the first decomposed atoms and the frequency parameters of the decomposed Gabor atoms are utilized to extract two correlation ratio features and a frequency variance feature. These features are used as the classification features to recognize different intra-pulse modulations of emitter signals by constructing a directed acyclic graph support vector machine classifier. The computational complexity of TFAD is O(n), while the computational complexity of the fractal approach is O(nlogn). Simulation results conducted on various signal-to-noise ratios and a wide range of modulation parameters of five typical radar emitter signals show that TFAD achieves an average correct recognition rate of 98.3%.
