ECE 511: Analysis of Random Signals
Final Exam - Solution
Illinois Institute of Technology
Name: -
ID: -
1
Date and time: Dec 6, 2013, 2:00 to 4:00 pm.
Instructions: The exam is closed book except for a single letter size sheet of paper. Phones
and calcul
ECE 511: Analysis of Random Signals
Final Exam - 2015
Illinois Institute of Technology
Name: -
ID: -
1
Date and time: Dec 8, 2015, 10:30 am to 12:30 pm.
Instructions: The exam is closed book except for ONE letter size sheet of paper. Phones and
calculator
ECE 511: Analysis of Random Signals
Final Exam
Illinois Institute of Technology
Name: -
ID: -
1
Date and time: Dec 12, 2014, 10:30 am to 12:30 pm.
Instructions: The exam is closed book except for three letter size sheets of paper. Phones and
calculators a
PROJECT1
YIBO ZHANG
A20328139
Abstract:
In this project , we need to build a three-bit encoder is to be defined which
takes seven single bit inputs and provides the corresponding three-bit output.
using both Behavioral Model and Structural Model T
Introdu
EE401 (Semester 1)
Jitkomut Songsiri
5. Random Vectors
probabilities
characteristic function
cross correlation, cross covariance
Gaussian random vectors
functions of random vectors
5-1
Random vectors
we denote X a random vector
X is a function that m
ECE 511 Analysis of Random Signals
Syllabus
IIT, Spring 2015
Instructor: Salim El Rouayheb, Email: [email protected]
Course Description: Probability theory, including discrete and continuous random variables,
functions and transformations of random variables.
Journal of the Korean Physical Society, Vol. 33, No. 6, December 1998, pp. 741744
Fabrication and Characteristics of Extremely Low-Noise
AlGaAs/InGaAs/GaAs Pseudomorphic HEMTs
Hyung-Sup Yoon, Jin-Hee Lee, Byung-Sun Park, Chan-Eui Yun and Chul-Soon Park
Co
Classical Channel Coding, II
Hamming Codes, Cyclic Codes, BCH Codes, RS Codes
John MacLaren Walsh, Ph.D.
ECET 602, Winter Quarter, 2013
1
References
Error Control Coding, 2nd Ed. Shu Lin and Daniel J. Costello, Jr. Pearson Prentice Hall, 2004.
Error Con
Illinois Institute of Technology
ECE 511 - Analysis of Random Signals - Fall 2015
Exam 1- Solutions
Oct 05, 2015, 3:15 to 4:30 pm
Salim El Rouayheb
Instructions: Write down your name on the top of this page. The exam is closed book and
closed phone and co
ECE 511: Analysis of Random Signals
Exam 2
Illinois Institute of Technology
Name: -SOLUTIONS
ID: -
1
Date and time: Nov 6, 2013, 1:50 to 3:05 pm.
Instructions: The exam is closed book and closed phone and no calculators are allowed.
The exam consists of 3
1
Solutions to Chapter 1
1. The intent of this rather vague problem is to get you to compare the two notions, probability
as intuition and relative frequency theory. There are many possible answers to how to
make the statement "Ralph is probably guilty of
1.
a) Let Ai be the event that component si functions. Then
P( Ai ) = p( si )
Let A be the event that the system functions. Then, since Ai s are independent, we obtain
n
n
n
i =1
i =1
i =1
P ( A) = P ( Ai ) = P ( Ai ) = p ( si )
b) Let Ai be the event tha
% INTEGER PEL EXHAUSTIVE BLOCK MATCHING ALGORITHM WITH BILINEAR
% INTERPOLATION OF MOTION VECTORS- Aditya Uday Kumar Moosad.
% This program performs motion estimation using Integer-pel Exhaustive Block
Matching
% Algorithm with bilinear interpolation.
cle
P
Practice Exams
For Chapters 5-9
a ed by Henry Stark
Base
the .Material in:
Probability and
Random Processes
.
.
With Applications to
Signal Processing
Third Edition
Henry Stark . John W. Woods
Copyright 2002 Henry Stark
All rights reserved
. Reproductio
Illinois Institute of Technology
ECE 511 - Analysis of Random Signals - Fall 2014
Exam 2 - Solutions
Nov 17, 2014, 3:15 to 4:30 pm
Salim El Rouayheb
Instructions: Write down your name on the top of this page. The exam is closed book except
for two sheets
Illinois Institute of Technology
ECE 511 - Analysis of Random Signals - Fall 2014
Exam 1 - Solutions
Oct 06, 2014, 3:15 to 4:30 pm
Salim El Rouayheb
Instructions: Write down your name on the top of this page. The exam is closed book and
closed phone and c
Project 1: Rectangular Waveguide (HFSS)
a = 0.9 (2.286cm)
b = 0.4 (1.016cm)
r = 1.0
b
r
a
Objective
Getting Started with HFSS (a tutorial)
Using HFSS, simulate an air-filled WR-90 waveguide shown above.
To obtain the Field patterns, intrinsic Impedance an