Signals and Systems I

EE360 Spring 2019

Description

Professor

Dr. Brendan Morris,
Office: SEB 3216
OH: MW ~~11:30-12:30~~ 09:00-10:00

Lecture

Lecture: MoWe 10:30-11:15, BHS 221
Discussion: Fr 17:30-18:30, TBE B-309
Final: Mo May 13, 10:10-12:10
Look up your final exam schedule now to determine conflicts.

Discussion

Teaching Assistant: Paritosh Parmar <parmap1@unlv.nevada.edu>
Office: SEB 3219
OH: Th 12:00-13:00

The Discussion section will be used to present computational tools to describe and analyze signals and systems. The course will be taught using Matlab which is available in the Engineering Labs. A student copy of Matlab is available for $99 and can be a very helpful tool in many of your engineering courses. There are other free tools that are similar to Matlab including Octave, Scilab or SciPy.

Material

Textbook: Signals and Systems, A.V. Oppenheim, A.S. Willsky, and S.H. Nawab, 2nd Edition, ISBN: 9780138147570
Recommended Text: Schaum's Outlines: Signals and Systems, H. Hsu, 3rd Edition, ISBN: 9780071829465 [online]
Linear Systems and Signals, B.P. Lathi, 3rd Edition ISBN: 9780190200176 or 2nd Edition ISBN: 9780195158335

Online References:
Signals and Systems, Freeman, MIT 6.003, 2011 [link]
Introduction to Communication, Control, and Signal Processing, Oppenheim and Verghese, MIT 6.011, 2010 [link]

Catalog Description:
Deterministic signals and linear systems. Time domain description and analysis of analog and discrete linear systems. Analysis of linear systems using the Laplace transform and the z-transform. Block diagram and flow graph representation of signals and linear systems. Introduction to state space representation and analysis.
Prerequisites: EE 221 or EE 292 and MATH 431
Corequisites: EE 360 and either MATH 459 or MATH 432

Course Syllabus: [pdf]

Grading

Component	Percentage	Date
Midterms:	40%	3/11, 4/22
Final:	30%	5/13 10:10
Homework:	20%	Weekly
Computer:	10%	Weekly

Homework will include Matlab programming problems (Computer). Students may work together in study groups but all assignments must be completed individually. Homework will be due in class on the designated date. No late homework will be accepted unless prior notification and arrangements are made. Instruction of computational programming language (Matlab) and its application to signals and systems takes place in EE360D.

Gradebook

The gradebook is available through UNLV Webcampus [link].
Note that the calculated % is not necessarily reflective of your final grade. The gradebook should be used mainly to ensure that I have correctly recorded your scores.

Announcements

Date	Note
05/01/19	Homework 8 has been delayed. You may turn it in during discussion section on Friday 5/3.
03/30/19	Lecture notes on Laplace Transform and Partial Fraction Expansion for 3/27 are posted. Note, the pptx file is larger because it has my commentary for you to listen during playback of the slideshow.
03/25/19	Homework correction for Laplace and Z-transform that affects Homework 5-7. Each assignment has been delayed until the following class. Note the midterm has been moved from 4/15 to 4/22 to accommodate the slower pace.
03/14/19	Discussion section on 3/15 will be held in TBE B-172 @ 5p for make up Midterm
03/05/19	Homework04 correction again to Wednesday 3/13 since 3/18 is during Spring Break.
03/05/19	Homework04 has been moved to Monday 3/18 to give us time to cover Fourier Series material.
01/30/19	Office hours are officially changed to MW 9-10. Midterm01 is moved from M 3/11 to M 3/4 and will cover OW Ch 1-2. Midterm02 will cover Ch 3, 9, 10. Please note the dates for HW04 and Comp03 have been adjusted accordingly.
01/21/19	Welcome to Spring 2019.

Schedule (Tentative)

Week	Date	Lecture Topic	Reading	Assignment	Discussion
1	01/21 Mo	MLK Holiday	OW Ch 1	HW01 [pdf] Solutions [pdf] Due We 01/30
1	01/23 We	Signals and Systems	OW Ch 1	HW01 [pdf] Solutions [pdf] Due We 01/30
2	01/28 Mo	Systems and Properties		HW02 [pdf] Solutions [pdf] Due Mo 02/11	Comp01 [pdf] Due Fri 02/08
2	01/30 We	Linear Time-Invariant Systems		HW02 [pdf] Solutions [pdf] Due Mo 02/11	Comp01 [pdf] Due Fri 02/08
3	02/04 Mo	Convolution	OW Ch 2	HW03 [pdf] Solutions [pdf] Due Mo 02/25
3	02/06 We	Convolution	OW Ch 2	HW03 [pdf] Solutions [pdf] Due Mo 02/25
4	02/11 Mo	LTI Differential Equations			Comp02 [pdf] Due Fri 02/15
4	02/13 We	LTI Difference Equations			Comp02 [pdf] Due Fri 02/15
5	02/18 Mo	President Day Holiday
5	02/20 We	Convolution Recap
6	02/25 Mo	Fourier Series	OW 1-2
6	02/27 We	Review	OW 1-2
7	03/04 Mo	Miderm01	FS Motivation [pptx] OW Ch 3.1-3.9 (no 3.4)	HW04 [pdf] Solutions [pdf] Due ~~We 03/06~~ We. 03/13	Comp03 [pdf] Due Fri 03/15
7	03/06 We	Fourier Series	FS Motivation [pptx] OW Ch 3.1-3.9 (no 3.4)	HW04 [pdf] Solutions [pdf] Due ~~We 03/06~~ We. 03/13	Comp03 [pdf] Due Fri 03/15
8	03/11 Mo	Fourier Series	OW Ch 9	HW05 [pdf] Solutions [pdf] Due ~~We 3/27~~ M 4/1	Comp04 [pdf] Due Fri 03/29
8	03/13 We	Laplace Transform	OW Ch 9	HW05 [pdf] Solutions [pdf] Due ~~We 3/27~~ M 4/1	Comp04 [pdf] Due Fri 03/29
9	03/18 Mo	Spring Break
9	03/20 We	Spring Break
10	03/25 Mo	Laplace Transform		HW06 [pdf] Solutions [pdf] Due ~~We 04/03~~ M 4/8
10	03/27 We	Laplace Transform [pdf][pptx] Partial Fraction Expansion [pdf]		HW06 [pdf] Solutions [pdf] Due ~~We 04/03~~ M 4/8
11	04/01 Mo	Laplace Transform	OW Ch 10	HW07 [pdf] Solutions [pdf] Due ~~We. 4/10~~ M 4/15
11	04/03 We	Z Transform	OW Ch 10	HW07 [pdf] Solutions [pdf] Due ~~We. 4/10~~ M 4/15
12	04/08 Mo	Z Transform			Comp05 [pdf] Due Fri 04/13
12	04/10 We	Z Transform			Comp05 [pdf] Due Fri 04/13
13	04/15 Mo	State Space Analysis
13	04/17 We	Review
14	04/22 Mo	Midterm02	Schaum Ch 7	HW08 [pdf] Solutions [pdf] Due ~~We 05/01~~ F 05/03
14	04/24 We	State Space Analysis	Schaum Ch 7	HW08 [pdf] Solutions [pdf] Due ~~We 05/01~~ F 05/03
15	04/29 Mo	State Space Analysis		HW09 [pdf] Solutions [pdf] Due We 05/08	Comp06 [pdf] Due F 05/10
15	05/01 We	State Space Analysis		HW09 [pdf] Solutions [pdf] Due We 05/08	Comp06 [pdf] Due F 05/10
16	05/06 Mo	State Space Analysis
16	05/08 We	Final Review
17	05/13 Th	Final	-