Using matlab solve the following %% PROGRAM ON RESPONSE OF LTI SYSTEMS TO ARBITRARY INPUTS x = input('ENTER YOUR INPUT SEQUENCE: '); h=input('ENTER YOUR IMPULSE RESPONSE SEQUENCE: '); n=-2:1;m=-1:2; ybegin = n(1) + m(1); yend= n(length(x)) + m(length(h)); y1=ybegin:yend; y=conv(x,h); figure(1); subplot(3,1,1); stem(n,x);xlabel('N -->');ylabel('Amplitude');title('Input Sequence'); subplot(3,1,2); stem(m,h);xlabel('N -->');ylabel('Amplitude');title('Impulse response Sequence'); subplot(3,1,3); stem(y1,y);xlabel('N -->');ylabel('Amplitude');title('response"); disp('THE RESPONSE IS: ');disp(y); The input should be =[9 11 4 20] The IMPULSE RESPONSE should be [12340]
Using matlab solve the following %% PROGRAM ON RESPONSE OF LTI SYSTEMS TO ARBITRARY INPUTS x = input('ENTER YOUR INPUT SEQUENCE: '); h=input('ENTER YOUR IMPULSE RESPONSE SEQUENCE: '); n=-2:1;m=-1:2; ybegin = n(1) + m(1); yend= n(length(x)) + m(length(h)); y1=ybegin:yend; y=conv(x,h); figure(1); subplot(3,1,1); stem(n,x);xlabel('N -->');ylabel('Amplitude');title('Input Sequence'); subplot(3,1,2); stem(m,h);xlabel('N -->');ylabel('Amplitude');title('Impulse response Sequence'); subplot(3,1,3); stem(y1,y);xlabel('N -->');ylabel('Amplitude');title('response"); disp('THE RESPONSE IS: ');disp(y); The input should be =[9 11 4 20] The IMPULSE RESPONSE should be [12340]
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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![Using matlab solve the following
%% PROGRAM ON RESPONSE OF LTI SYSTEMS TO ARBITRARY INPUTS
x = input('ENTER YOUR INPUT SEQUENCE: ');
h = input('ENTER YOUR IMPULSE RESPONSE SEQUENCE: ');
n=-2:1;m=-1:2;
ybegin = n(1) + m(1);
yend= n(length(x)) + m(length(h));
y1=ybegin:yend;
y=conv(x,h);
figure(1);
subplot(3,1,1); stem(n,x);xlabel('N -->');ylabel('Amplitude');title('Input Sequence');
subplot(3,1,2); stem(m,h);xlabel('N -->');ylabel('Amplitude');title('Impulse response Sequence');
subplot(3,1,3); stem(y1,y);xlabel('N -->');ylabel('Amplitude');title('response");
disp('THE RESPONSE IS: ');disp(y);
The input should be =[9 11 4 20]
The IMPULSE RESPONSE should be [ 1 2 3 40]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F68c40972-190c-4d4d-8a86-27c34113017a%2Fbd626acd-6b19-4184-b7d8-c0288a2f85b9%2Fsabdn36_processed.png&w=3840&q=75)
Transcribed Image Text:Using matlab solve the following
%% PROGRAM ON RESPONSE OF LTI SYSTEMS TO ARBITRARY INPUTS
x = input('ENTER YOUR INPUT SEQUENCE: ');
h = input('ENTER YOUR IMPULSE RESPONSE SEQUENCE: ');
n=-2:1;m=-1:2;
ybegin = n(1) + m(1);
yend= n(length(x)) + m(length(h));
y1=ybegin:yend;
y=conv(x,h);
figure(1);
subplot(3,1,1); stem(n,x);xlabel('N -->');ylabel('Amplitude');title('Input Sequence');
subplot(3,1,2); stem(m,h);xlabel('N -->');ylabel('Amplitude');title('Impulse response Sequence');
subplot(3,1,3); stem(y1,y);xlabel('N -->');ylabel('Amplitude');title('response");
disp('THE RESPONSE IS: ');disp(y);
The input should be =[9 11 4 20]
The IMPULSE RESPONSE should be [ 1 2 3 40]
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