Virginia Tech ECE 5605 Stochastic Signals and Systems Fall 2015
Homework 1 Assignment
Due: September 09, 2015 at 4:00 PM Eastern Time
(Just before the start of Wednesdays lecture)
Note: Your homework must be submitted to the course website in Scholar, in

ECE 5605: Stochastic Signals and Systems
Handout 3: Random Variables
Harpreet S. Dhillon, Ph.D.
Assistant Professor, Wireless@VT
Bradley Department of Electrical and Computer Engineering
Virginia Tech, Blacksburg, VA
http:/www.dhillon.ece.vt.edu
hdhillon@

Problem 5.1:
My code for solving this problem is mentioned in the following:
clc
clear
% Problem 5.1
% Phase conductors: 556,500 26/7 ACSR, GMR=0.0244,
dc=0.927;
% Neutral conductor: 4/0 ACSR, GMR=0.00814,
ds=0.563;
% Creating S Matrix
S=[58 sqrt(58^2+7^2

Name:
EE591C
ADVANCEDDISTRIBUTIONSYSTEMANALYSIS
Homework#5
Due 11th April 2016
Problem1:Workproblems4.2,4.6,4.7,4.10,4.13,4.14fromyourtextbook
Page1of1

Problem 6.1:
My code for solving this problem is mentioned in the following:
clc
clear
% Problem 6.1
% Z and Y matrices:
l=2;
Z=[0.3375+1.0478*i 0.1535+0.3849*i 0.1559+0.5017*i
0.1535+.3849*i .3414+1.0348*i .158+.4236*i
.1559+.5017*i .158+.4236*i .3465+1.

Problem 3.3:
First, my code for solving this problem is mentioned in the following:
clc
clear
% Problem 3.3.a:
% Determine the series Impedance of the Line Segment in ohm/mile.
% Zpositive=r+j0.12134*ln(Deq/GMR)
4/0 6/1 ACSR 0.563 0.00814 0.592 340
Deq=(2

Problem 4.2:
In this problem, phase b is disregarded. My code for solving this problem
is mentioned in the following:
clc
clear
% Problem 4.2
% Phase conductors: 336,400 26/7 ACSR, GMR=0.0244,
% Neutral conductor: 4/0 6/1 ACSR, GMR=0.00814,
Ra=0.306;
Rc=0

ECE 5605: Stochastic Signals and Systems
Handout 2: Probability Theory
Harpreet S. Dhillon, Ph.D.
Assistant Professor, Wireless@VT
Bradley Department of Electrical and Computer Engineering
Virginia Tech, Blacksburg, VA
http:/www.dhillon.ece.vt.edu
hdhillo

ECE 5605: Stochastic Signals and Systems
Handout 1: Course Overview
Harpreet S. Dhillon, Ph.D.
Assistant Professor, Wireless@VT
Bradley Department of Electrical and Computer Engineering
Virginia Tech, Blacksburg, VA
http:/www.dhillon.ece.vt.edu
hdhillon@v

Virginia Tech ECE 5605 Stochastic Signals and Systems Fall 2015
Homework 2 Assignment
Due: September 16, 2015 at 4:00 PM Eastern Time
(Just before the start of Wednesdays lecture)
Note: Your homework must be submitted to the course website in Scholar, in

Virginia Tech ECE 5605 Stochastic Signals and Systems Fall 2015
Homework 4 Assignment
Due: October 28, 2015 at 4:00 PM Eastern Time
(Just before the start of Wednesdays lecture)
Note: Your homework must be submitted to the course website in Scholar, in pd

Virginia Tech ECE 5605 Stochastic Signals and Systems Fall 2015
Homework 6 Assignment
Due: November 11, 2015 at 4:00 PM Eastern Time
(Just before the start of Wednesdays lecture)
Note: Your homework must be submitted to the course website in Scholar, in p

ECE 5605: Stochastic Signals and Systems Fall 2016
Homework #1
Due: September 6, 2016 (1:45pm)
Reading: Chapter 2 of the textbook.
Total points: 70
1. (5 pts) A random experiment has sample space S = cfw_a, b, c. Suppose that P [cfw_a, c] = 5/8 and
P [cfw

ECE 5605: Stochastic Signals and Systems Fall 2016
Homework #2
Due: September 13, 2016 (1:45pm)
Reading: Chapters 3 and 4 of the textbook.
Total points: 100
1. (5 pts) Suppose that a point is selected uniformly at random from inside the unit circle. Let Y

ECE 5605: Stochastic Signals and Systems Fall 2016
Homework #3
Due: Wednesday, September 21, 2016 (1:45pm)
Reading: Chapters 3 and 4 of the textbook.
Total points: 100
1. (5 pts) Let be a point selected uniformly at random from the unit interval (that is,

TUTORIAL
BENDERS DECOMPOSITION IN RESTRUCTURED POWER SYSTEMS
Mohammad Shahidehpour and Yong Fu
Electric Power and Power Electronics Center
Illinois Institute of Technology
Chicago, Il 60616
cfw_ms, fuyong@iit.edu
1. Introduction
It is apparent that the po