无线电通信技术
無線電通信技術
무선전통신기술
RADIO COMMUNICATIONS TECHNOLOGY
2014年
4期
81-84,89
,共5页
刘勇勇%郑林华%刘海滨%雷紫微
劉勇勇%鄭林華%劉海濱%雷紫微
류용용%정림화%류해빈%뢰자미
电台指纹%信号包络提取%新特征参数%低信噪比%个体识别
電檯指紋%信號包絡提取%新特徵參數%低信譟比%箇體識彆
전태지문%신호포락제취%신특정삼수%저신조비%개체식별
transmitter fingerprint%signal envelope extraction%new feature parameter%low SNR%individual identification
非协作条件下的电台个体识别是目前通信侦察领域的一个难题。尽管已有多种方法从电台的发射信号中提取到指纹特征实现个体识别,但均在不同程度上存在着低信噪比条件下电台个体识别准确率不高的问题。在分析信号包络特征可以应用于电台个体识别的基础上,提出了一种基于信号复调制与低通滤波的改进包络提取算法,精确地提取信号包络;并为达到降维的目的,从提取的信号包络中求得一个对信号包络特征具有较强表征能力的新特征参数。仿真结果表明,不同电台个体的新特征参数具有较好的聚类性能,识别准确率在95%以上,有效提高了低信噪比条件下电台个体识别的准确率。
非協作條件下的電檯箇體識彆是目前通信偵察領域的一箇難題。儘管已有多種方法從電檯的髮射信號中提取到指紋特徵實現箇體識彆,但均在不同程度上存在著低信譟比條件下電檯箇體識彆準確率不高的問題。在分析信號包絡特徵可以應用于電檯箇體識彆的基礎上,提齣瞭一種基于信號複調製與低通濾波的改進包絡提取算法,精確地提取信號包絡;併為達到降維的目的,從提取的信號包絡中求得一箇對信號包絡特徵具有較彊錶徵能力的新特徵參數。倣真結果錶明,不同電檯箇體的新特徵參數具有較好的聚類性能,識彆準確率在95%以上,有效提高瞭低信譟比條件下電檯箇體識彆的準確率。
비협작조건하적전태개체식별시목전통신정찰영역적일개난제。진관이유다충방법종전태적발사신호중제취도지문특정실현개체식별,단균재불동정도상존재착저신조비조건하전태개체식별준학솔불고적문제。재분석신호포락특정가이응용우전태개체식별적기출상,제출료일충기우신호복조제여저통려파적개진포락제취산법,정학지제취신호포락;병위체도강유적목적,종제취적신호포락중구득일개대신호포락특정구유교강표정능력적신특정삼수。방진결과표명,불동전태개체적신특정삼수구유교호적취류성능,식별준학솔재95%이상,유효제고료저신조비조건하전태개체식별적준학솔。
Under conditions of non-cooperation,individual transmitter identification is currently a problem in the field of communi-cations reconnaissance. Although many methods have extracted fingerprint features from the signals emitted by transmitters for individual identification,the accuracy is low at low signal-to-noise ratio (SNR). Based on the analysis that signal envelope features can be used for individual transmitter identification,an improved algorithm of envelope extraction based on complex signal modulation and low pass filter is proposed. The improved algorithm can get more precise signal envelope. Moreover, in order to reduce the dimensionality, a new feature parameter is obtained from the extracted signal envelope which has a stronger representation capability for signal envelope fea-tures. Numerical simulation shows that the proposed parameter has better clustering performance. With this parameter,the identification accuracy can be above 95%,and the accuracy of individual transmitter identification at low SNR is effectively improved.
