BaseProject.m
Document Actions
Click here to get the file
File contents
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% TITLE: FINAL PROJECT FOR ECE 5660, SPRING 2006
%
% NAME: <put your name here>
% DATE: <put the date you turn this in here>
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Constants
rt2 = sqrt(2);
% Simulation parameters
Ts = 1; % Symbol period (seconds)
N = 4; % Samples per symbol period
T = Ts/N; % Sample period (seconds)
Fc = 0.2; % Discrete-time carrier frequency (cycles/sample)
fc = Fc/T; % Continuous-time carrier frequency (Hertz)
NumSymbols = 1000;
duration = NumSymbols*Ts; % Length of simulation (seconds)
A = 1; % Signal amplitude
a = 0.35; % Excess bandwidth
Lp = 6; % RTRC trucation (symbol periods)
n = [-Lp*N:Lp*N]+1e-7;
rtrcpulse = sqrt(N)*(sin(pi*(1-a)*n/N) + (4*a*n/N).*cos(pi*(1+a)*n/N))./(pi*n.*(1-(4*a*n/N).^2));
pulse = rtrcpulse;
Lpulse = length(pulse);
nvar = 0.0; % Noise variance
nstd = sqrt(nvar); % Noise standard deviation
% Look up table properties
M = 16;
LUTin = [0:M-1];
LUT0 = [1;1;1;1]*[-3,-1,1,3]*A; LUT0 = reshape(LUT0,1,M);
LUT1 = [-3;-1;1;3]*[1,1,1,1]*A; LUT1 = reshape(LUT1,1,M);
LUTdecision = [LUT0; LUT1];
% Design PLL parameters
BnTs = 0.0005;
zeta = 1/sqrt(2);
% Buffers
p0buff = zeros(Lpulse,1);
p1buff = zeros(Lpulse,1);
% Start simulation loop
Ncnt = 0;
for t=1:T:duration
if(Ncnt==0)
Ncnt = N-1;
% Generate new bits and symbols
bits = randn(log2(M),1);
bits = 0*(bits>0)+(bits<=0);
i = 2.^[0:log2(M)-1]*bits + 1;
a0 = LUT0(i);
a1 = LUT1(i);
else
a0 = 0; % This is for upsampling
a1 = 0; % This is for upsampling
% Modify counter
Ncnt = Ncnt - 1;
end
% Fill up transmitter pulse buffer
p0buff = [a0;p0buff(1:Lpulse-1)];
p1buff = [a1;p1buff(1:Lpulse-1)];
% Compute transmitter pulse output
s0 = pulse*p0buff;
s1 = pulse*p1buff;
% Compute modulated signal
s = rt2*(s0*cos(2*pi*fc*t) - s1*sin(2*pi*fc*t));
% Compute received signal
r = s + nstd*randn(1,1); % Additive white Gaussian noise
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Put your code here
%
% Your code should synchronize with the data in the signal r
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
end
Copyright 2008,
by the Contributing Authors.
Cite/attribute Resource.
admin. (2006, June 29). BaseProject.m. Retrieved September 06, 2008, from Free Online Course Materials — USU OpenCourseWare Web site: http://ocw.usu.edu/Electrical_and_Computer_Engineering/Communication_Systems_I/baseproject.m.
This work is licensed under a
Creative Commons License.
