Spring 2014
             


        
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Teaching Staff

Professor Ronald S. Fearing
Office hours: Mon 2-3 pm, Tues 230-330 pm, 725 Sutardja Dai Hall, x2-9193
E-mail: ronf@eecs.berkeley.edu

TA Lillian Ratliff
Office hours: Tues 12-1 pm (Cory 337b), Mon 1-2 pm (Cory 337a),
email: ratliffl@eecs.berkeley.edu

Yun Jae Cho
Office hours F 11-12 Cory Moore Room, ('2nd floor in the little courtyard')
email: chojoseph91@berkeley.edu

If TA office hours times have an empty intersection with your availability,
please email us and we will try to make arrangements.

Reader: Yale Chen
Office hours: TBA

Meeting Times

Lecture: MW 4-6pm, 390 Hearst Memorial
Section 101: F 1-2 pm, 241 Cory
Section 102: F 2-3 pm 241 Cory
Section 103: F 3-4 pm, 241 Cory
Note: You may attend any or all of the sections.

Textbook

"Signals and Systems" by Oppenheim and Willsky
(Also on reserve in the engineering library.)

Related Information



Announcements

Welcome to EECS 120, Spring 2014!










EE120 Course Schedule (Updated 2/17/2014)


Week Lecture # Date Topic                  Reading 
(OWY)      
1 1 1/22 LTI systems review, convolution, stability from impulse response  Ch1,  2-2.3            
2 2 1/27 LCCDE, FIR vs IIR, block diag, freq response 2.4, 3-3.2
3 1/29 CT and DT Fourier series  3.3-3.6
3 4 2/3 CTFT, FT of periodic, FT properties 4-4.3
5 2/5 FT properties: convolution, AM, freq resp 2nd order 4.4 - 4.7
4 6 2/10 DTFT, properties Ch 5
7 2/12 DTFT II, convolution Ch 5
5 8 2/17 President's day

8
2/19 lin phase, 2D FT, separability, convolution, projection slice 6-6.4

6 9
2/24 DFT
p. 417-418


2/26 Midterm #1 lectures 1-8, and PS #1-4 (FS, CFT, DTFT)
7 10 3/3 sampling I
7.1-7.3
11 3/5 sampling II, 2D DFT 7.3-7.4
8 12 3/10 down sample, upsample
7.5-7.6
13 3/12 Laplace transform, ILT by PFE
9.1-9.3, A.1-A.2
9 14 3/17 LT properties, freq response from LDE, 2nd order response
9.4-9.6, 6.7
15 3/19 LT: RoC, freq resp from pole-zero
9.4
10

SPRING BREAK
11 16 3/31 LT: all pass, minimum phase
9.7-9.9
17 4/2 Z transform
10-10.3
12
18 4/7 ZT properties, pole-zero 10.4-10.5

4/9 Midterm #2 Lectures 1-16, and PS #1-8 (DFT, sampling, LT)
13 19
4/14 ZT freq resp, solving LDE
A.3, 10.6-10.9
20 4/16 control,  noise cancelling
11-11.2
14 21 4/21 internal model principle, 2nd order
11.5, 11.6
22 4/23 control design II, disturb rejection

15 23 4/28 autonomous systems, edge detection
24 4/30 Course summary and review



5/5 RRR Week

5/7 RRR Week


5/16 Friday Final Exam 0800-1100