Problem 1: A baseband pulse modulation system uses the antipodal signals s1(1) and s2(t) to represent symbols 1 and 0, respectively. Find suitable basis functions for these signals and express s (1) and s2(1) in terms of them. Sketch the resulting signal space diagram. If a correlation receiver is used to extract the binary data symbols, then derive a formula for estimating the probability of error in terms of the signal energy per bit Ep, and the one-sided noise power spectral density N,. $1(t) A T/2 T T/2 -4
Problem 1: A baseband pulse modulation system uses the antipodal signals s1(1) and s2(t) to represent symbols 1 and 0, respectively. Find suitable basis functions for these signals and express s (1) and s2(1) in terms of them. Sketch the resulting signal space diagram. If a correlation receiver is used to extract the binary data symbols, then derive a formula for estimating the probability of error in terms of the signal energy per bit Ep, and the one-sided noise power spectral density N,. $1(t) A T/2 T T/2 -4
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:Problem 1: A baseband pulse modulation system uses the antipodal signals s1(t)
and s2(t) to represent symbols 1 and 0, respectively. Find suitable basis functions
for these signals and express s1(1) and s2(1) in terms of them. Sketch the resulting
signal space diagram. If a correlation receiver is used to extract the binary data
symbols, then derive a formula for estimating the probability of error in terms of
the signal energy per bit Ep, and the one-sided noise power spectral density N.
S1(t)
$2(1)
A
A
t
T/2
T,
|T/2
-A
-A
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