Q.1: Consider the transmission of a sinusoid x(t) = cos(2�f0t) through a channel a�ected
by multipath and Doppler. Let there be two paths, and assume the sinusoid is being sent
from a moving transmitter so that a Doppler frequency shift occurs. Let the received signal
be
r(t) = �0cos(2�(f0 ?? v)(t ?? L0=c)) + �1cos(2�(f0 ?? v)(t ?? L1=c))
where 0 � �i � 1 are attenuations, Li are the distances from the transmitter to the receiver
that the signal travels in the ith path i = 1,2, c = 3 � 108 m/sec, and the frequency shift
v is caused by the Doppler e�ect.
(a) Let f0 = 2 KHz, v = 50 Hz, �0 =1, �1 = 0.9 and L0 = 10,000 meters. What would
be L1 if the two sinusoids have a phase di�erence of �=2 ?
(b) Is the received signal r(t), with the parameters given above but L1 = 10,000, periodic?
If so, what would be its period and how much does it di�er from the period of the
original sinusoid? If x(t) is the input and r(t) the output of the transmission channel,
considered a system, is it linear and time invariant? Explain.
(c) Sample the signals x(t) and r(t) using a sampling frequency Fs = 10 KHz. Plot the
sampled sent x(nTs) and received r(nTs) signals for n = 0 to 2000.
(d) Consider the situation where f0 = 2 KHz, but the parameters of the paths are random,
trying to simulate real situations where these parameters are unpredictable, although
somewhat related. Let
r(t) = �0cos(2�(f0 ?? v)(t ?? L0=c)) + �1cos(2�(f0 ?? v)(t ?? L1=c))
where v = 50� HZ, L0 = 1,000�, L1 = 10,000�, �0 = 1 - �, �1 = �0/10 and � is a
random number between 0 and 1 with equal probability of being any of these values
1
(this can be realized by using the rand MATLAB function). Generate the received
signal for 10 di�erent events, use Fs = 10,000 Hz as the sampling rate, and plot them
together to observe the e�ects of the multipath and Doppler.