Information about EECS 206 "Signals and Systems I"

EECS 206(2)...........INTRODUCTORY HANDOUT............Winter 2006

LECTURES: Mon,Wed,Fri, 11:40-12:30 PM, 1311 EECS. Lecture-by-lecture topics.
LECTURER: Professor Jeffrey Fessler, 4240 EECS, 763-1434. fessler@umich.edu.
OFFICE HOURS: Mon 12:30-2:00 & Wed 12:30-1:30. www.eecs.umich.edu/~fessler.

LECTURES: Mon,Wed,Fri, 01:40-02:30 PM, 1200 EECS. My personal lecture notes.
LECTURER: Professor Andrew Yagle, 4114 EECS, 763-9810. aey@eecs.umich.edu.
OFFICE HOURS: Mondays 3:30-5:30, 4114 EECS. http://www.eecs.umich.edu/~aey.

TEXT: J.H. McClellan, R.W. Schafer, M.A. Yoder, Signal Processing First, Pearson, 2003.
LAB SCHEDULE: All LAB in 2331 EECS. Phone: 615-1797.
OFFICE HOURS: All GSIA in 4338 EECS. Phone: 764-5206.
See www.eecs.umich.edu/courses/eecs206/ for details on LABS.

LAB TIME #1	LAB TIME #2	GSIA name	Email	Office hours (in 4338 EECS)
Tue 11:30-1:30	Tues 4:00-6:00	Norm Adams	nhadams	Thur 3:30-5:30 & Mon 4:30-5:30
Tue 9:00-11:00	Wed 4:30-6:30	Ravi Agarwal	raviag	Thu 9:00-11:00 & Wed 10:00-11
Tues 1:30-3:30	Wed 2:30-4:30	Raghuram R.	rangaraj	Thur 1:30-3:30 & Wed 5:00-6:00

PROBLEM SETS AND EXAMS:

Weekly problem sets assigned on Fridays, due in class 1 week later.
No problem sets during exam weeks. No late problem sets accepted.
Write your lecture time at the top. Homework returned during lab.
Two 50-minute closed-book (1 "cheat sheet" allowed) in-class exams.
One 120-minute closed-book (2 "cheat sheets" allowed) FINAL exam.

EXAM	DATES	TIME	ROOMS	TIME	ROOMS	REVIEW SESSION
Exam #1	F Feb 10	11:40-12:30	1311 EECS	1:40-2:30	1200 EECS	W Feb 08 & in LAB
Exam #2	F Mar 17	11:40-12:30	1311 EECS	1:40-2:30	1200 EECS	W Mar 15 & in LAB
Exam #3	Th Apr 20	4:00-6:00	1200 EECS	4:00-6:00	1200 EECS	F April 15 & in LAB

COLLABORATION: Homework, lab reports, and exams are given under the Honor Code.
You may work with other students in the class on problem sets and lab reports. Engineering is
a collaborative discipline, and learning to work in teams is an important part of your education.
HOWEVER, you must write up the FINAL form of your submission entirely on your own.
You may not use, or in any way derive any advantage from, solutions sets for previous years.

GRADING %	Exam #1	20%
"This is definitely	Exam #2	20%
an 'E' ticket!"---	Exam #3	30%
Sally Ride,1983.	LABS	20%
First US woman	homewk	10%
on Space Shuttle	TOTAL	100

Catalog description: Introduction to the theory and practice
of signals and systems engineering in continuous & discrete time.
Hands-on experience with representative engineering tasks in
laboratory sessions involving audio, images, and other signals.
Time-domain concepts: energy, power, periodicity, filtering, linear
systems, convolution, correlation, detection, modulation, samples,
quantization, histogram. Frequency-domain concepts: sinusoids,
exponentials, Fourier series, DFT, frequency response.