舰船电子工程
艦船電子工程
함선전자공정
SHIP ELECTRONIC ENGINEERING
2012年
8期
48-49,104
,共3页
石敏%徐袭%张纪铃%岳剑平
石敏%徐襲%張紀鈴%嶽劍平
석민%서습%장기령%악검평
目标识别%小波变换%改进小波能熵%概率神经网络
目標識彆%小波變換%改進小波能熵%概率神經網絡
목표식별%소파변환%개진소파능적%개솔신경망락
target recognition%wavelet transform%improved wavelet energy entropy%probabilistic neural network
文章研究了基于改进小波能熵和概率神经网络的水下目标识别方法。首先对水下目标辐射噪声信号进行小波变换多分辨率分解和重构,然后引入滑动时间窗,提取各分解子带在滑动时间窗内的改进小波能熵值作为目标识别的特征矢量,最后将特征矢量输入到概率神经网络中实现水下目标识别。对信号进行小波多分辨率分解可反映信号在不同频域上的特征,而引入滑动时间窗并在此基础上定义改进的小波能熵可反映信号的时域特征,因此改进小波能熵方法能同时反映信号的时频特征,更适合于水下目标特征提取。仿真结果表明了该方法的有效性。
文章研究瞭基于改進小波能熵和概率神經網絡的水下目標識彆方法。首先對水下目標輻射譟聲信號進行小波變換多分辨率分解和重構,然後引入滑動時間窗,提取各分解子帶在滑動時間窗內的改進小波能熵值作為目標識彆的特徵矢量,最後將特徵矢量輸入到概率神經網絡中實現水下目標識彆。對信號進行小波多分辨率分解可反映信號在不同頻域上的特徵,而引入滑動時間窗併在此基礎上定義改進的小波能熵可反映信號的時域特徵,因此改進小波能熵方法能同時反映信號的時頻特徵,更適閤于水下目標特徵提取。倣真結果錶明瞭該方法的有效性。
문장연구료기우개진소파능적화개솔신경망락적수하목표식별방법。수선대수하목표복사조성신호진행소파변환다분변솔분해화중구,연후인입활동시간창,제취각분해자대재활동시간창내적개진소파능적치작위목표식별적특정시량,최후장특정시량수입도개솔신경망락중실현수하목표식별。대신호진행소파다분변솔분해가반영신호재불동빈역상적특정,이인입활동시간창병재차기출상정의개진적소파능적가반영신호적시역특정,인차개진소파능적방법능동시반영신호적시빈특정,경괄합우수하목표특정제취。방진결과표명료해방법적유효성。
A method based on improved wavelet energy entropy and probabilistic neural network for underwater target recognition was studied in the paper.Firstly,the radiated noise signal of underwater target is processed by using multi-resolution wavelet decomposition and reconstruction.Then,the sliding time window is introduced and the improved wavelet energy entropy of each decomposed band in sliding time window is extracted as feature vectors for target recognition.Finally,these feature vectors are used as input vectors of probabilistic neural network for target classification.The feature of signal under different frequency domain can be reflected by multi-resolution wavelet decomposition.While the feature of signal under different time domain can be reflected by the improved wavelet energy entropy which is defined by introducing the sliding time window.The improved wavelet energy entropy can reflect the time-frequency feature of signal at the same time and it is suitable to underwater target feature extraction.The result from test and simulation shows that the method is effective.
