EE 1382:  Fundamentals of Electrical Engineering

Term:  Fall 2008
Class Times:  MWF 11-11:50
Room:  Junkins 101
Textbook:  Engineering Our Digital Future, Orsak, Wood, Douglas, Munson, Treichler, Athale, and Yoder, Pearson Prentice Hall, 2003.
Prerequisites:  none
Course Objective:
To provide an introduction to the topics and methods used in electrical engineering.  
Course Website:  engr.smu.edu/ee/1382
Grading:     20% Homework,

25% Tests (Best 2 of 3), 

10% Laboratory,

20% Design Project,

25% Final Exam

Instructor:  
Dr. Marc P. Christensen
Office:  Junkins Room 311 (inside #308)
Telephone:  x81407
Email:  mpc@engr.smu.edu
Office Hours:  T 3:30-4:30, R 2:00-3:00 by appointment (drop by or email me)

Teaching Assistants:
Bryan Rodrigez brodrigu@mail.smu.edu

                   Brett Johnstone bkjohnst@mail.smu.edu

Laboratory Session:  Junkins 102 T 2:00-3:20, W 2:00-3:20

TI DLP Tour TBD
Meet at TI Facility:
6550 Chase Oaks Blvd
Plano, TX, 75023
Map:  http://maps.yahoo.com/maps_result?ed=cVb0Nep_0Tpg5fThDCksGv5sd_Isfo47&csz=75023&country=us&new=1&name=&qty=
More info: http://www.dlp.com

Relationship to EE Program Outcomes

This course includes, but is not limited to, content that supports the Electrical Engineering Program educational objectives and outcomes. Specifically, this course furthers the student's knowledge and skills involving the following outcomes

a.       an ability to apply knowledge of mathematics, science and engineering,

b.       an ability to design and conduct experiments, as well as to analyze and interpret data,

c.       an ability to design a system, component or process to meet desired needs,

d.       an ability to function on multi-disciplinary teams, and

j.        a knowledge of contemporary issues,


Disability Accommodations: If you need academic accommodations for a disability, you must first contact Ms. Rebecca Marin, Coordinator, Services for Students with Disabilities (214-768-4563) to verify the disability and to establish eligibility for accommodations. Then you should schedule an appointment with the professor to make appropriate arrangements.  (See University Policy No. 2.4.)

Religious Observance: Religiously observant students wishing to be absent on holidays that require missing class should notify their professors in writing at the beginning of the semester, and should discuss with them, in advance, acceptable ways of making up any work missed because of the absence. (See University Policy No. 1.9.)

Excused Absences for University Extracurricular Activities: Students participating in an officially sanctioned, scheduled University extracurricular activity will be given the opportunity to make up class assignments or other graded assignments missed as a result of their participation. It is the responsibility of the student to make arrangements with the instructor prior to any missed scheduled examination or other missed assignment for making up the work. (University Undergraduate Catalogue)


Course Schedule (subject to change):

Dates

Topic / Handouts

 

Chapter 1:  The World of Modern Engineering (Slides)

8/25

1.1  What Exactly Do Scientists and Engineers Do? (Student Questionaire)

9/3

1.2  Birth of the Digital Age (Binary Number Appendix)

8/27,8/293

1.3  Moore's Law

9/5

1.4  Block Diagrams

 

Chapter 2:  Creating Digital Music (Slides)

 

2.1  Introduction

 

2.2  Music, Sounds, and Signals

 

2.3  Making Music From Sines and Cosines

 

2.4  Improving the Design - Making Different Instruments

 

2.5  Using Our Ability to Create Signals for New Applications

 

Chapter 3:  Making Digital Images (Slides)

9/8

3.1  Introduction

 

3.2  Digitizing Images

 

3.3  Putting it Together

 

3.4  Better Design within the Bit Budget

 

Chapter 4:  Math You Can See (Slides)

 

4.1  How Can We Use Digital Images

 

4.2  A Digital Image is a Matrix

 

4.3  Digital Darkroom Tools

 

4.4  Understanding Images from Robot Eyes Filtering Images Powerpoint

 

4.5  Designing Simple Vision Systems (Test Ch 3,4)

 

Chapter 5:  Digitizing the World (Slides)

 

5.1  Introduction

 

5.2  From teh Real World to the Digital World

 

5.3  Binary Numbers - The Digital Choice

 

5.4  Using Bits to Store Samples:  Quantization

 

Chapter 6:  Coding Information for Storage and Secrecy

 

6.1  Introduction

 

6.2  Principals of Compression

 

6.3  Lossless Compression Huffman Encoding Example Powerpoint

 

6.4  Lossy Compression

 

6.5  Coding to Detect and Correct Errors

 

6.6  Coding for Secrecy

 

6.7  Simple Encryption Methods

 

6.8  Encrypting Binary Sequences

 

Chapter 7:  Communicating with Ones and Zeros

 

7.1  Introduction

 

7.2  A Simple Communication System

 

7.3  Sources of Error in a Communications System

 

7.4  The Craft of Engineering -- Improving the Design

 

7.5  Extensions

 

7.6  Other Transmission Channels (Test Ch 6,7)

 

Chapter 8:  Networks from the Telegraph to the Internet

 

8.1  What is a Network?

 

8.2  Relays

 

8.3  The Internet