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[xhat1,nd1] = cceps(x1);
[xhat2,nd2] = cceps(x2);
[xhat3,nd3] = cceps(x3);
[xhat4,nd4] = cceps(x4);
[xhat,nd] = cceps(w); %求倒谱
y1=xhat1-xhat;
y2=xhat2-xhat;
y3=xhat3-xhat;
y4=xhat4-xhat; %计算材料倒谱
z1=fft(y1);
z2=fft(y2);
z3=fft(y3);
z4=fft(y4);
s1=exp(z1); %取指数运算
s2=exp(z2);
s3=exp(z3);
s4=exp(z4);
f1=ifft(s1);
f2=ifft(s2);
f3=ifft(s3);
f4=ifft(s4);
r1=abs(f1);
r2=abs(f2);
r3=abs(f3);
r4=abs(f4);
y1=1:240;
y1=y1'
r1=real(f1);
t=0:1999;
>> t=(0:1999)';
>> figure,plot(t,re);
>> title('Signal in time domain')
xlabel('time(nanoesecond)')
>> Fre=fft(re,2048);
>> Pre=Fre.*conj(Fre)/2048;
>> f=1000*(0:1023)/2048;
>> figure,plot(f,Pre(1:1024));
>> title('Signal in frequency domain')
xlabel('frequency(MB)')%求采样点为2000个的时域信号功率谱
Tar1=tar1.*20+re;
>> figure,plot(t,Tar1);
>> title('Signal in time domain')
xlabel('time(nanoesecond)')
>> FTar1=fft(Tar1,2048);
>> PTar1=FTar1.*conj(FTar1)/2048;
>> figure,plot(f,PTar1(1:1024));
>> title('Signal in frequency domain')
xlabel('frequency(MB)')%求采样点为2000个的时域信号功率谱
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