實驗四線時不變離散時間系統(tǒng)的頻域分析.doc

Name:Chen yifan 20112121006Section:Laboratory Exercise 4LINEAR, TIME-INVARIANT DISCRETE-TIME SYSTEMS: FREQUENCY-DOMAIN REPRESENTATIONS4.1 TRANSFER FUNCTION AND FREQUENCY RESPONSEProject 4.1 Transfer Function AnalysisAnswers:Q4.1 The modified Program P3_1 to compute and plot the magnitude and phase spectra of a moving average filter of Eq. (2.13) for 0 w 2p is shown below:w=0:pi/511:2*pi;M=input(M= );num=ones(1,M)/M;h=freqz(num,1,w);subplot(2,1,1);plot(w/pi,abs(h);grid;title(H(ejomega)幅度譜);xlabel(omega/pi);ylabel(振幅);subplot(2,1,2);plot(w/pi,angle(h);grid;title(相位譜 H(ejomega);xlabel(omega/pi);ylabel(以弧度為單位的相位);This program was run for the following three different values of M and the plots of the corresponding frequency responses are shown below: The types of symmetries exhibited by the magnitude and phase spectra are due to -The type of filter represented by the moving average filter is M=3- M=10;M=20;The results of Question Q2.1 can now be explained as follows - By the graph, you can see that it represents a low-pass filter.Q4.2The plot of the frequency response of the causal LTI discrete-time system of Question Q4.2 obtained using the modified program is given below:w=0:pi/511:pi;num=0.15 0 -0.15;den=1 -0.5 0.7;h=freqz(num,den,w);subplot(2,1,1);plot(w/pi,abs(h);grid;title(H(ejomega)幅度譜);xlabel(omega/pi);ylabel(振幅);subplot(2,1,2);plot(w/pi,angle(h);grid;title(相位譜 H(ejomega);xlabel(omega/pi);ylabel(以弧度為單位的相位);The type of filter represented by this transfer function is - It says bandpass filter is obtained by diagrams can be BPFQ4.3The plot of the frequency response of the causal LTI discrete-time system of Question Q4.3 obtained using the modified program is given below:w=0:pi/511:pi;num=0.15 0 -0.15;den=0.7 -0.5 1h=freqz(num,den,w);subplot(2,1,1);plot(w/pi,abs(h);grid;title(H(ejomega)幅度譜);xlabel(omega/pi);ylabel(振幅);subplot(2,1,2);plot(w/pi,angle(h);grid;title(相位譜 H(ejomega);xlabel(omega/pi);ylabel(以弧度為單位的相位);The type of filter represented by this transfer function is - O causal linear time-invariant discrete time system frequency response, determine the type filterThe difference between the two filters of Questions 4.2 and 4.3 is - More on the topic of figure, the amplitude spectrum is the same, the phase spectrum, on the topic that is continuous, and kinds of phase jump line, .I shall choose the filter of Question Q4.3 for the following reason - the amplitude spectrum is the same, the phase spectrum, on the topic that is continuous, and kinds of phase jump line .Q4.6The pole-zero plots of the two filters of Questions 4.2 and 4.3 developed using zplane are shown below:w=0:pi/511:pi;num=0.15 0 -0.15;den=1 -0.5 0.7;h=zplane(num,den);w=0:pi/511:pi;num=0.15 0 -0.15;den=0.7 -0.5 1;h=zplane(num,den);From these plots we make the following observations: Different function, zero zero and pole pole figure with different relative position of the circle4.2 TYPES OF TRANSFER FUNCTIONSProject 4.2FiltersA copy of Program P4_1 is given below:clf;fc=0.25;n=-6.5:1:6.5;y=2*fc*sinc(2*fc*n); k=n+6.5;stem(k,y); title(N=13); axis(0 13 -0.2 0.6);xlabel(時間序號 n); ylabel(振幅); gridAnswers:Q4.7The plot of the impulse response of the approximation to the ideal lowpass filter obtained using Program P4_1 is shown below: clf; fc=0.25; n=-6.5:1:6.5; y=2*fc*sinc(2*fc*n);k=n+6.5; stem(k,y);title(N=13);axis(0 13 -0.2 0.6); xlabel(時間序號 n);ylabel(振幅);gridThe length of the FIR lowpass filter is -14 The statement in Program P4_1 determining the filter length is - n=-6.5:1:6.5;The parameter controlling the cutoff frequency is -Fc parameters control the cutoff frequencyQ4.8The required modifications to Program P4_1 to compute and plot the impulse response of the FIR lowpass filter of Project 4.2 with a length of 20 and a cutoff frequency of wc = 0.45 are as indicated below:clf;fc=0.45/(2*pi);n=-9.5:1:9.5;y=2*fc*sinc(2*fc*n);k=n+9.5;stem(k,y);title(N=20);axis(0 20 -0.2 0.6);xlabel(時間序號 n);ylabel(振幅);gridThe plot generated by running the modified program is given below:Q4.9The required modifications to Program P4_1 to compute and plot the impulse response of the FIR lowpass filter of Project 4.2 with a length of 15 and a cutoff frequency of wc = 0.65 are as indicated below:clf;fc=0.65/(2*pi);n=-7.5:1:6.5;y=2*fc*sinc(2*fc*n);k=n+7.5;stem(k,y);title(N=15);axis(0 14 -0.2 0.6);xlabel(時間序號 n);ylabel(振幅);gridThe plot generated by running the modified program is given below:Q4.11 A plot of the gain response of a length-2 moving average filter obtained using Program P4_2 is shown below:unction g,w=gain(num,den) -gain函數(shù)w=0:pi/255:pi;h=freqz(num,den,w);g=20*log10(abs(h);M=2; -滑動平均低通濾波器的增益響應(yīng)程序num=ones(1,M)/M;g,w=gain(num,1);plot(w/pi,g);grid;axis(0 1 -50 0.5)xlabel(omega/pi);ylabel(單位為db的增益);title(M= ,num2str(M)From the plot it can be seen that the 3-dB cutoff frequency is at -3dB。Q4.12 The required modifications to Program P4_2 to compute and plot the gain response of a cascade of K length-2 moving average filters are given below: function g,w=gainlink(num,den) w=0:pi/255:pi;h=freqz(num,den,w);H=h.*h.*h;g=20*log10(abs(H);wc=2*acos(2(-1/(2*3)wc =0.9430wc =0.3*piThe plot of the gain response for a cascade of 3 sections obtained using the modified program is shown below:From the plot it can be seen that the 3-dB cutoff frequency of the cascade is at - wc=0.3*piQ4.19 A copy of Program P4_3 is given below:clf;b=1 -8.5 30.5 -63;num1=b 81 fliplr(b);num2=b 81 81 fliplr(b);num3=b 0 -fliplr(b);num4=b 81 -81 -fliplr(b);n1=0:length(num1) -1;n2=0:length(num2) -1;subplot(2,2,1); stem(n1,num1);xlabel(時間序號 n); ylabel(振幅); grid;title(1 型有限沖激響應(yīng)濾波器);subplot(2,2,2); stem(n2,num2);xlabel(時間序號 n); ylabel(振幅); grid;title(2 型有限沖激響應(yīng)濾波器);subplot(2,2,3); stem(n1,num3);xlabel(時間序號 n); ylabel(振幅); grid;title(3 型有限沖激響應(yīng)濾波器);subplot(2,2,4); stem(n2,num4);xlabel(時間序號 n); ylabel(振幅); grid;title(4 型有限沖激響應(yīng)濾波器);pausesubplot(2,2,1); zplane(num1,1);title(1 型有限沖激響應(yīng)濾波器);subplot(2,2,2); zplane(num2,1);title(2 型有限沖激響應(yīng)濾波器);subplot(2,2,3); zplane(num3,1);title(3 型有限沖激響應(yīng)濾波器);subplot(2,2,4); zplane(num4,1);title(4 型有限沖激響應(yīng)濾波器);disp(1 型有限沖激響應(yīng)濾波器的零點是);disp(roots(num1);disp(2 型有限沖激響應(yīng)濾波器的零點是);disp(roots(num2);disp(3 型有限沖激響應(yīng)濾波器的零點是);disp(roots(num3);disp(4 型有限沖激響應(yīng)濾波器的零點是);disp(roots(num4);The plots of the impulse responses of the four FIR filters generated by running Program P4_3 are given below:From the plots we make the following observations:Filter #1 is of length _8_ with a _80_ impulse response and is therefore a Type _ linear-phase FIR filter. Filter #2 is of length _10_ with a _80_ impulse response and is therefore a Type _ linear-phase FIR filter. Filter #3 is of length _8_ with a _60_ impulse response and is therefore a Type _ linear-phase FIR filter. Filter #4 is of length _10_ with a _80_ impulse response and is therefore a Type _ linear-phase FIR filter. From the zeros of these filters generated by Program P4_3 we observe that:Filter #1 has zeros at z = 2.9744,2.0888 ,0.9790 + 1.4110i,0.9790 - 1.4110i, 0.3319 + 0.4784i, 0.3319 - 0.4784i,0.4787,0.3362 Filter #2 has zeros at z = 3.7585 + 1.5147i,3.7585 - 1.5147i,0.6733 + 2.6623i,0.6733 - 2.6623i,-1.0000 ,0.0893 + 0.3530i,0.0893 - 0.3530i,0.2289 + 0.0922i,0.2289 - 0.0922iFilter #3 has zeros at z = 4.7627 ,1.6279 + 3.0565i,1.6279 - 3.0565i,-1.0000 ,1.0000 0.1357 + 0.2549i,0.1357 - 0.2549i,0.2100 Filter #4 has zeros at z = 3.4139 ,1.6541 + 1.5813i,1.6541 - 1.5813i,-0.0733 + 0.9973i,-0.0733 - 0.9973i,1.0000 ,0.3159 + 0.3020i,0.3159 - 0.3020i,0.2929 Plots of the phase response of each of these filters obtained using MATLAB are shown below: From these plots we conclude that each of these filters have _linear_ phase. Q4.20 The plots of the impulse responses of the four FIR filters generated by running Program P4_3 are given below:From the plots we make the following observations: Filter #1 is of length _8_ with a _80_ impulse response and is therefore a Type _ linear-phase FIR filter. Filter #2 is of length _10_ with a _80_ impulse response and is therefore a Type _ linear-phase FIR filter. Filter #3 is of length _8_ with a _5_ impulse response and is therefore a Type _ linear-phase FIR filter. Filter #4 is of length _10_ with a _80_ impulse response and is therefore a Type _ linear-phase FIR filter. From the zeros of these filters generated by Program P4_3 we observe that:Filter #1 has zeros at z = 2.3273 + 2.0140i,2.3273 - 2.0140i,-1.2659 + 2.0135i,-1.2659 - 2.0135i, -0.2238 + 0.3559i,-0.2238 - 0.3559i,0.2457 + 0.2126i,0.2457 - 0.2126iFilter #2 has zeros at z = 2.5270 + 2.0392i, 2.5270 - 2.0392i,-1.0101 + 2.1930i.-1.0101 - 2.1930i,-1.0000 ,-0.1733 + 0.3762i,-0.1733 - 0.3762i,0.2397 + 0.1934i,0.2397 - 0.1934iFilter #3 has zeros at z = -1.0000 ,0.2602 + 1.2263i,0.2602 - 1.2263i,1.0000 ,0.6576 + 0.7534i,0.6576 - 0.7534i,0.1655 + 0.7803i,0.1655 - 0.7803iFilter #4 has zeros at z = 2.0841 + 2.0565i,2.0841 - 2.0565i,-1.5032 + 1.9960i,-1.5032 - 1.9960i,1.0000 ,-0.2408 + 0.3197i,-0.2408 - 0.3197i,0.2431 + 0.2399i,0.2431 - 0.2399iPlots of the phase response of each of these filters obtained using MATLAB are shown below: From these plots we conclude that each of these filters have _linear_ phase. Answers:4.3 STABILITY TESTA copy of Program P4_4 is given below:clf;den=input(分母系數(shù)=);ki=poly2rc(den);disp(穩(wěn)定性測試參數(shù)是);disp(ki);Answers:Q