Lab and Assignment

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Lab6 – Discrete-Time Signals and Systems

  • Watch video entitled “Module 6 –  Discrete-Time Signals in MATLAB”
  • Work the lab activity below using MATLAB.
  • Include answers for Problems and include MATLAB coding along with any output plots that support solutions into a Word document entitled “Lab6_StudentID”.  Where your student id is substituted in the file name.
  • Upload file “Lab6_StudentID”.

Activity 1:

A discrete-time system can be described in one of two ways.  One is by the unit-pulse response of the system, and the other is by the difference equation.  In the first case, if we are given an input and want to find the output, we have to convolve the system response with the input signal.  In the second case, we have to solve the difference equation for the output when the input signal is substituted into the difference equation.  The result should be the same no matter what approach is used. 

A discrete-time system has the following unit-pulse response:

              for

Correspondingly, the following difference equation describes the behavior of the system:

  • Use the Matlab command conv to calculate the response of the system to a unit step input, x[n]=u[n].  Consider .  Show what you type into the Matlab command window.  Also, submit a plot of the output.  Be sure to label your axes. 

    Matlab Tip:  Remember that you can easily get help on a command in Matlab by typing help with the command at the prompt:

    EDU>>help conv

    Matlab Tip:  Also, don’t forget that in Matlab when you do certain operations on an array element-by-element, you must precede the operator with a period.  For instance, in Matlab, if you define an array n as follows:

    EDU>>n=[0:20];

    then the first term of the unit-pulse response is written as 0.5.^n  

    Matlab Tip:  Sometimes it is useful to know the size of arrays you have created.  This can be done in several ways.  For example, you can use the command size:

    EDU>> size(n)

    ans =

         1    21

    The size of the array is returned.  In this case, the array n has a size of 1 row by 21 columns.

    Alternatively, you can switch the display from the Current Directory to the Workspace.  Then all current variables and arrays and their sizes are displayed.  Just click on Workspace in the upper left corner as indicated below.

  • Use the Matlab function recur to calculate the response of the system to a unit step input, x[n]=u[n].  Again consider .  Show all that you type into the Matlab command window.  Submit a plot of the output with the axes labeled.

    The Matlab function recur is not a function which comes with Matlab or any of the toolboxes you have installed.  Instead, it is a that must be added to your Matlab directory. 

    The Matlab function recur can be found in a zip file at the Mathworks site at the following location:

    http://www.mathworks.com/matlabcentral/fileexchange/loadFile.do?objectId=2148

    Extract the file recur.m to the current directory shown at the top of the Matlab window.

    On the other hand, you can copy and paste the script below into a text file like Notepad and save it as recur.m in the current directory shown at the top of the Matlab window.

    function y = recur(a,b,n,x,x0,y0);

    %

    % y = recur(a,b,n,x,x0,y0)

    %  solves for y[n] from:

    % y[n] + a1*y[n-1] + a2*y[n-2]… + an*y[n-N]

    %   =  b0*x[n] + b1*x[n-1] + … + bm*x[n-M]

    %

    % a, b, n, x, x0 and y0 are vectors

    % a = [a1 a2 … aN]

    % b = [b0 b1 … bM]

    % n contains the time values for which the solution will be computed

    % y0 contains the initial conditions for y, in order,

    %    i.e., y0 = [y[n0-N], y[n0-N+1], …,y[n0-1]]

    %    where n0 represents the first element of n

    % x0 contains the initial conditions on x, in order

    %    i.e., x0 = [x[n0-M],…,x[n0-1]]

    % the output, y, has length(n)

    %

    N = length(a);

    M = length(b)-1;

    if length(y0) ~= N,

      error(‘Lengths of a and y0 must match’)

    end

    if length(x0) ~= M,

      error(‘Length of x0 must match length of b-1’)

    end

    y = [y0 zeros(1,length(n))];

    x = [x0 x];

    a1 = a(length(a):-1:1);             % reverses the elements in a

    b1 = b(length(b):-1:1);      

    for i=N+1:N+length(n),

      y(i) = -a1*y(i-N:i-1)’ + b1*x(i-N:i-N+M)’;

    end

    y = y(N+1:N+length(n));

    To get information on how to use the function, at the Matlab prompt, type:

    EDU>>help recur

    It might be helpful to change the index of the difference equation such that the highest index is n rather than n+2.

  • Are your plots the same?  If not, why not?

HW6 – Discrete-Time Signals and Systems

  • Read Chapter 9 in the text Signals and Systems Using MATLAB.

  • Download and review the supplement questions.  Also review the supplement questions from lesson 1 which has discrete periodic examples.
  • Work the below 3 homework problems.
  • Submit homework solutions via Assignment Upload Tool.  Show all work for full credit.

 

  1. Compute the unit-pulse response h[n] for n=0, 1, 2 for the discrete time system
  2. Determine is each of the following signals is periodic.  If a signal is periodic, what is its period?
    • x[n] = 3sin(100n)
    • x[n] = 4cos(1.5Ï€n)
  3. For the discrete signals defined as the following:

x[0] = 4, x[1] = 1, x[3] = 1, x[n] = 0 for all other integers n.

v[0] = 1, v[1] = 2, v[2] = 3, v[3] = 4, v[n] = 0 for all other integers n.

Compute the convolution x[n]*v[n] for n ≥ 0.

 

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