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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  

  • Phil Sandborn, sandborn@berkeley, OH M 10-11, Th 10-11, 400 Cory
  • Ming Jin, jinming@berkeley, OH Tu 2-3 pm, 406 Cory

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

  • Reader: Joshua Cahyadi, jcahyadi@berkeley, Office hours: TBA
  • Meeting Times

    Lecture: MW 4-6pm, 3 LeConte
    Section 101: M 3-4 pm, Cory 247
    Section 102: W 9-10 am, Cory 521
    Section 103: Th 8-9 am, Dwinelle 109
    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.)
  • EE120 Piazza
  • Related Information



    Announcements

    Welcome to EECS 120, Fall 2016!
    Please see Piazza for updates,
  • EE120 Piazza
  • etc.




    EE120 Course Schedule (Updated 8/24/2016) (DRAFT)


    Ã
    Lecture # Date Topic                  Reading 
    (OWY)      
    Homework
    1 8/24
    LTI systems review, convolution, stability from impulse response  Ch1,  2-2.3 F15L1
    HW 1 due 9/2 sol
    2 8/29
    LCCDE, FIR vs IIR, block diag, freq response 2.4-2.5, 3-3.2 F15L2
    3 8/31
    CT and DT Fourier series
    clipped sine .ipynb  
    3.3-3.6 F15L2 HW 2 due 9/9 sol

    9/5
    Holiday


    4 9/7
    CTFT, FT of periodic, FT properties 4-4.3
    HW3 due 9/16 sol
    5 9/12
    FT properties: convolution, AM, freq resp 2nd order 4.4 - 4.7
     
    6 9/14
    FT properties, modulation Ch 4
    HW4 due 9/23 sol
    7 9/19
    FT properties duality, periodic functions Ch 4

    8 9/21
    ideal LPF, DTFT 4, 5.1-5.2
    HW5 due 9/30 sol
    9 9/26
    DTFT II Ch 5 DTFT HO  
    10 9/28
    linear phase, filter design, time and frequency response 6-6.4
    HW6 due 10/7 sol
    11 10/3
    DFT fft example.ipynb p. 417-418, DFT H.O.  
    12 10/5 DFT II DFT H.O. HW7 due 10/14
    13 10/10
    DFT example, JPEG 7.1-7.6, DFT table
    HW8 due 10/21 sol
    14 10/12
    aliasing, interpolation, down sample
    7.-7.6

    15 10/17
    Up sample/down sample example
    7.-7.6, sample H.O.

    16 10/19
    Laplace transform, ROC, ILT by PFE
    9.1-9.3, A.1-A.2

    10/24 LTII, midterm review 9.4-9.6, 6.7 Python #3, HW9 due 11/4 sol
    10/26
    Midterm in Class

    17 10/31
    LT:feedback 9.7-9.9 HW 10 due 11/14
    18 11/2
    LT:  feedback control, gain/phase margin 9

    19
    11/7
    freq/phase from pole-zero, filter design 9,11.5
    20
    11/9
    LT: IVT, FVT. Z transform, ZT freq resp, solving LDE 10-10.5,A.3, 10.6-10.9 HW11 due 11/18
    21
    11/14 all pass, steady state error

    Python#4 due 12/2
    22
    11/16
    control,  noise cancelling
    11-11.2 HW12 due 12/2
    23 11/21
    internal model principle, 2nd order 11.5, 11.6

    11/23
    Non instruction day

    24 11/28
    autonomous systems (Prof. Arcak)


    25 11/30 Course summary and review


    12/5
    RRR Week


    12/7
    RRR Week


    12/15
    Thursday Final Exam 0800-1100