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Teaching Staff

Professor Ronald S. Fearing
Office hours: Tues. 3-4 pm, Thurs. 130-230 pm, 725 Sutardja Dai Hall, x2-9193
E-mail: ronf@eecs.berkeley.edu

Teaching Assistants
 Timothy Tsai
Office hours: Tues 2 pm, Thurs 3 pm (500 Soda Atrium)
email: tjtsai@eecs.berkeley.edu

Suchit Bhattarai
Office hours: Thurs 11 am (500 Soda Atrium)
email: suchitb@eecs.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: Edward Lai edward.lai@berkeley.edu
Office hours: TBA

Meeting Times

Lecture: MW 4-6pm, 120 Latimer
Section 101: W 11 am-12 pm, 12 Haviland
Section 102: W 12-1 pm, 285 Cory
Section 103: W 2-3 pm, 247 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, Fall 2014!
Please see Piazza for updates, etc.
  • Final Exam: Thurs Dec. 18, 2014. 0800-1100, Bechtel Aud.



  • EE120 Course Schedule (Updated 10/29/2014) (DRAFT)


    Week Lecture # Date Topic                  Reading 
    (OWY)      
    Homework
    1 1 9/3 LTI systems review, convolution, stability from impulse response  Ch1,  2-2.3            

    2 2 9/8
    LCCDE, FIR vs IIR, block diag, freq response 2.4-2.5, 3-3.2

    3 9/10
    CT and DT Fourier series
    clipped sine .ipynb  
    3.3-3.6
    HW 1 due 9/12 sol
    3 4 9/15
    CTFT, FT of periodic, FT properties 4-4.3

    5 9/17
    FT properties: convolution, AM, freq resp 2nd order 4.4 - 4.7
    HW 2 due 9/19 sol
    4 6 9/22
    FT properties, modulation Ch 4

    7 9/24
    FT properties duality, periodic functions Ch 4
    HW3 due 9/26 sol
    5 8 9/29
    ideal LPF, DTFT 4, 5.1-5.2

    9 10/1
    DTFT II Ch 5 HW4 due 10/3 sol
    6 10 10/6
    linear phase, filter design, time and frequency response 6-6.4

    11 10/8
    DFT fft example.ipynb p. 417-418, DFT H.O. HW5 due 10/10 sol
    7
    12
    10/13
    DFT II, review DFT H.O.

    10/15
    Midterm #1 lectures 1-10, Ch 1-5, and PS #1-5 (FS, CFT, DTFT)


    8
    13 10/20
    DFT example, JPEG 7.-7.6
    HW 6 due 10/31 sol
    14 10/22
    aliasing, interpolation, down sample
    7.-7.6

    9
    15 10/27
    Up sample/down sample example
    7.-7.6, sample H.O.

    16 10/29
    Laplace transform, ROC, ILT by PFE
    9.1-9.3, A.1-A.2
    HW7 due 11/7 sol
    10
    17 11/3
    LT: intro to control and stability
    9.4-9.6, 6.7
    18 11/5
    LT: feedback, gain/phase margin
    9.7-9.9 HW8 due 11/14 sol
    11 19 11/10
    LT:  IVT, FVT, freq response from pole-zero, filter design
    9

    20
    11/12
    Z transform
    ZT properties, pole-zero

    10-10.5 HW9 due 11/26
    12
    21
    11/17
    ZT freq resp, solving LDE A.3, 10.6-10.9

    11/19
    Midterm #2 Lectures 1-10+11-19, and PS #1-8 (DFT, sampling, LT)


    13 22
    11/24
    control,  noise cancelling
    11-11.2
    23 11/26
    internal model principle, 2nd order 11.5, 11.6
    14 24 12/1
    autonomous systems


    25 12/3 Course summary and review




    12/8
    RRR Week


    12/10
    RRR Week



    12/18
    Thursday Final Exam 0800-1100