Eecs 216 umich EECS 455 Digital Communication Signals and Systems. ” Goal:Compute any circuit voltage or current as a function of time t for t>0. Minimum grade requirement I didn't take 230 and 320 but I've heard they're professor dependent. where: H(jω) = R∞ −∞ h(t)e−jωtdt = F{h(t)}=frequency response function. edu Discussion Session 1: Wednesdays 12:30-1:30pm, 3150 DOW Discussion Session 2: Wednesdays 2-3pm, 1005 DOW GSI O ce Hours: Matt on Monday, 3-4:30pm, EECS 2420, Yelin on Friday, 12:30-2pm, BBB 1637 Pre-requisites: EECS 216 or Graduate Standing. EECS 301 Probabilistic Methods in Engineering. 1+0. † Read: Text sections 4. , differentiator) and a digital low Professor Andrew E. Continuous-time linear time-invariant systems, impulse response, convolution. X0 = 1 N PN¡1 n=0 x[n]=DC value=mean value of periodic signal x[n]. St The math from MATH 216 showed up in EECS 216. Enforced Prerequisite: (BIOMEDE 211 or EECS 215 or EECS 314) and (EECS 216) and (MATH 216) and (ENGR 101 or EECS 183 or EECS 180 or EECS 280) or Graduate Standing (No OP/F). edu and Matt Kvalheim, kvalheim@umich. D. The homework sets Browse Courses. Coverage of Material: Lecture: Tuesday EECS 216 { Winter 2008 Homework #9{Assigned March 25{Due Tuesday April 1 † Grading: Not all problems will be graded, but you should do all of them. 5sin(2πfst) V). edu Office Hours: T 4:30-6:00PM in 2433 EECS F 3:30-5:00PM in 2433 EECS ; Course Information. 4. Yagle, EECS 206 Instructor, Fall 2005 Dept. 8 . edu email address to enroll. Relevant Reading in Textbook: Chapter 1 (elementary signals and operations); EECS 216 COMPLETE SYSTEM RESPONSE SUMMARY OF VARIOUS SYSTEM RESPONSES The complete response of a system can be decomposed in 2 different ways: ZEROINPUT |RESPONSE{z } initialconds + ZEROSTATE |RESPONSE{z } frominput = TRANSIENT |RESPONSE{z } decaysto0 + STEADYSTATE | RESPONSE{z } doesn′tdecayto0 The zero Professor Andrew E. Stéphane Lafortune, who taught EECS 216 for decades and wrote a textbook on the subject, stated, “Every semester that I have worked with Ady, I have heard numerous comments from the students, during my own office hours, praising the quality of instruction provided by Ady during the discussion sections, the usefulness of the teaching EECS 216 LECTURE NOTES LINE SPECTRUM OF SIGNAL=SUM OF SINUSOIDS Given: x(t)=A0 +A1 cos ω1t+ θ1)++AN cos(ωNt+ θN). Usually you like some of these areas and dislike others. Highest frequency: ω= π. † Next week: Fourier transforms. Notes for the University of Michigan's EECS 216 (Signals and Systems) class Resources Signals and Systems By Fawwaz T. Finite x[n] = f3; 1; 4; 2; 5g. 2,2. Record a graph of the waveform using the ScopeConnect software. 7 and 5. An impulse has zero width, infinite height, and finite area under it. 4. If you go down the signals and systems route you’ll be doing math/eecs 216 stuff for the rest of your degree. X(z) z = b0+b1z+:::+bM z M a0z+a1z2+:::+aN zN+1 = RATIO OF TWO POLYNOMIALS = RATIONAL FUNCTION. Topic: Communications and sampling. Huh? Finite-duration signal x[n]!polynomial X(z) with coe–cients=x[n]. 3. EECS 692: Advanced Artificial Intelligence. edu Office hours: Mon 2-4pm, Wed 2-4pm, Fri 2-4pm; all on Zoom (link below) GSI office hours link on Zoom; passcode: eecs583. 3-3. 7. 205) At a meeting of the Paris Academy in EECS 216 { Winter 2008 Homework #10{Assigned April 1{Due Tuesday April 8 † Grading: Not all problems will be graded, but you should do all of them. Unique inverse only for Minor in Environmental Engineering. Industry ties: Michigan computer engineering faculty have close ties with industry and give students relevant tools to use in class. In lab, we will focus on the EECS 216 LECTURE NOTES FREQUENCY RESPONSE OF LTI SYSTEMS Note: ejωot → |h(t)| → H(jωo)ejωot in sinusoidal steady-state. Abstract The purpose of this document is to introduce EECS 206 students to linear time-invariant (LTI) systems and their frequency response. Matlab in CAEN labs have these. 5 × 11 inch "cheat sheet. From top to bottom, settings should read: Mode: Edge Source: CH1 Slope: (upward) Sweep: Normal Coupling: DC Press appropriate softkeys until trigger settings are as shown above. Feb. How does AM and SSB radio work? What exactly is bandwidth? Oct 25, 2024 · EECS undergraduate and graduate degree programs are considered among the best in the country. March 16, 6-8 PM, GGBrown 1504) Exam 3: 25% (Tues. 3: Pin Layout for LM 741 Op-Amp Pins 7 and 4 are the plus and minus power supply connections, respectively, while pins 3 and 2 are the TUTOR NAME MAJOR UNIQNAME COURSES IN-PERSON HOURS ONLINE HOURS; Zachary Bonza-Brodie: Mechanical Engineering: ZBONZA: Math 115, 116 ME 211, 240 Ph 140, 240: Keale Chang The first several weeks of EECS 216: Signals and Systems have been dedicated to introducing the notion of a linear time-invariant system (LTI) and characterizing the input/output relationships for such a system. Submission: Submit in black box in room 4230 EECS before 5 pm on Tuesday. edu Dec 27, 2007 · EECS 216 OVERVIEW OF EECS 216 QUESTIONS FOR ELECTRICAL & COMPUTER ENGINEERS 1. ) > Request permission into EECS 280 without the enforced prerequisite > To request permission for a class outside of EECS, contact that department EECS 216 EXAM #1 INFORMATION. I, II (4 credits) Architectures of single-chip DSP processors. Courses identified to be the most helpful to Aerospace students are: MSE 220, MSE 350; EECS 215, EECS 216; EECS Required pre-requisite: {[(EECS 216 or 306); (C or better, No OP/F)] and Junior or above} or Graduate Standing (3 credits) 438. Likely Majors: EE, CE, ECE. † Submission: Due in black box in room 4230 EECS before 5:00 on Tues. Includes analysis and numerical methods of solution used for design of Aerospace structures. Bring: Calculators NOT allowed (nor needed). Email: Confirm Email: Please enter a valid umich. Dual: Fourier series: Expand X(ejω) as a Fourier series with period 2π: x(n)=Fourier coefficients; computed using Professor Andrew E. Coverage of Material: Lectures: Tuesday February 5 EECS 216 EXAM #3 INFORMATION. Familiarity with basic mathematical abstractions such as sets and functions. Store these scope traces (plant and both channels of data) on the computer for later use. Overbye, and M. ) 18296 S R LEC 001 TTH 1030-12PM 1670 BEYSTER Lafortune STUDENTS MUST ELECT LAB, DISCUSSION AND LECTURE PREREQUISITE: EECS 373 or EECS 216 or approval of the instructor GRADING: • Homework: 25% • Laboratory Assignments: 25% • Quizzes (tentatively scheduled for February 20th and April 2nd): 30% • Project: 20% Homework is due at the beginning of class. Enforced Prerequisite: ENGR 101 or 151 or EECS 183 AND MATH 216 or 256 or 286; or Graduate Status. (3 credits) An introduction to the fundamental phenomena of solid and structural mechanics in Aerospace systems. EECS 551 Wavelets and Achilleas Anastasopoulos (734) 615-4024 4411 EECS 1301 Beal Avenue Ann Arbor, MI 48109-2122 EECS 215, EECS 216, & EECS 230. In the struggle to address today’s energy and environmental challenges, many potential solutions require electro-mechanical energy conversion. Late homework will not be accepted. Open menu Open navigation Go to Reddit Home. Mar. The skills we shall develop in doing so are applicable to a broad range of embedded system EECS 216 LECTURE NOTES COMPLEX EXPONENTIAL FOURIER SERIES Given: x(t) is continuous-time periodic function: Period T → x(t) = x(t+T). In this figure, the “plant” is the system whose output we wish to control. Review: In both lectures Thursday February 7. At the graduate level, we do not enforce prerequisites; they are simply advisory. Scaling: If x(t)! jSYSj ! y(t), then ax(t)! jSYSj ! ay(t) for: any constant a. EECS 216 Signals and Systems. Expand user menu Open settings menu. We will only do continuous time here, but discrete time may be useful to you. Mbl App Dev Entrprnr. Required pre-requisite: [(BIOMEDE 211 or EECS 215 or 314; C or better, No OP/F) (BIOMEDE 211 or EECS 215 or EECS 314) and (EECS 216) and (MATH 216) and (ENGR 101 or EECS 183 or EECS 180 or EECS 280); (B> for all courses, no optional pass/fail)] or Graduate Standing (3 credits) 519/PHYSIOL 519. This is a 1-credit hour seminar designed to teach students the essentials of using a computer effectively for EECS students. EECS 216 – Winter 2008 Homework #6 – Assigned Feb. Compare to 2-sided z-transform: X(z) = P1 n=¡1 x(n)z ¡n. ω; (3) Factor of 1 2π. How? Analog filter; use EECS 215 ideas. (Department endeavors to admit all students on the 216 waitlist. Figure 2. Administered through the Department of Civil and Environmental Engineering, the minor in Environmental Engineering provides students with a basic background in the tools environmental engineers use to assess environmental impacts, model contaminant fate, and perform sustainable engineering decision making. † Next week: Applications of Laplace: Transfer functions and s-plane circuits. AND: x = Re[z]; y = Im[z]; M = jzj; µ = arg[z]. If you like ALL of them, great! Based About. EECS 451 Digital Signal Processing and Analysis. Why? Remove frequencies > 1 2 (SAMPLING FREQUENCY) → ensures there will be no Moreover, the lecture notes of Prof. His music-based projects were highly interactive and enabled students to absorb a large amount of information without feeling overwhelmed. † Submission: Due in black box in room 4230 EECS before 5:00 Tues. 6. Minimum grade of “C” required for enforced prerequisite. In recent years, Lafortune has been one of the primary instructors for the EECS 216, which is required EE students are advised to take MATH 216 before MATH 215 as EECS 216 is to be preceded or accompanied by MATH 216. We'll get you paired up with a tutor, and you can work out a schedule that works for you. EECS 551 – Matrix Methods for Signal Processing Data Analysis and Machine Learning (On Campus) -Fall courses Introduction to Signals and Systems is one of the first courses a student will take in either the electrical engineering or computer engineering programs. , April 27, 1:30 PM - 3:30 PM, location TBA) The EECS 216 labs require Matlab's "Signal Processing Toolbox" and Matlab's Simulink. Use j not i in EECS since i=current in EECS! DEF: A complex number z can be written as z = x + jy = Mejµ = M6 µ where: x + jy=rectangular form of z; Mejµ = M6 µ=polar form of z. Edit: To clarify, 280 isn't super difficult, but the projects do take a while, hence the 6. x(n) causal!1-sided z-transform X+(z)=2-sided z-transform X(z) 2. † Submission: Submit in black box in room 4230 EECS before 5:00 on Tues. Goal: Represent amplitudes and phases as scaled impulses vs. Yet, we are expected Skip to main content. † Next week: More applications of Fourier transforms (mostly sampling). Thermocouplesandsome radiationdetectorsaresquare-lawdeviceswhoseoutputy(t)isthesquareoftheinputx(t). LTI Systems process input signals into output signals. 8. sin(0) = cos EECS 216 will answer all tenof the above questions during the term. Also:Non-zero initialconditions: capacitors charged and inductors “juiced. 22-29. Specific Tasks: Alter bandpass filter in LWA antenna to observe frequencies below 20 MHz. 2. As a GSI for EECS 216 and EECS 351, Nathan concentrated on sparking students’ interest in the material. Eecs 215 (circuit analysis) Eecs 216 (signals, the hardest class I took for the minor) Eecs 414 (MEMS devices) Eecs 460 (controls) Overall it was very manageable. When: Thursday February 7, 7:00-9:00 PM. CourseProfile (ATLAS) AEROSP 225 EECS 373: Introduction to Embedded System Design. EECS 314 covers these topics for everyone else. edu EECS 216 LECTURE NOTES REVIEW (?) OF COMPLEX NUMBERS DEF: j = p ¡1. com. The Matlab EECS (200 Level through HKN) CHEME (200 Level through OXE) Other Major-Specific Courses; How to sign up. Grading: Homeworks: 25% Exam 1: 25% (Tues. Review: In both lectures Tuesday April 15. Our excellence and impact comes through in the work of the two departmental divisions: Computer Science and Engineering; and Electrical and Computer Request permission into an ECE class (EECS 215, EECS 216, EECS 314, etc. Lab 4 Control ARB. Review: In both lectures Thursday March 20. S. EECS 216 SPECTRA FOR MODULATION METHODS Def: Modulation of a message signal m(t):Multipliesm(t) by a sinusoid. Achilleas Anastasopoulos for EECS 216 are posted on the course Canvas site. Examples of Fourier Series Expansions A. ˜x(t) =Lowpass-filtered version of x(t). 19 – Due Tuesday March 4 • Grading: Not all problems will be graded, but you should do all of them. Pro-tip for ME's: you can get almost all of these classes to double count for your major, so you only really need to take one extra class (216) to get the minor. Some additional planning and discipline will be needed on your part, but no serious issues will arise from this unless you wait until the last moments to attempt assignments. I will be taking courses like EECS 216, 270, 370, and more my sophomore year, and while I genuinely love my major, I don't know how to keep up with people so much smarter than me. To learn more about the sign-up process for TBP tutoring, please click here to visit the website. EECS 301: Probabilistic Methods in Engineering, Fall 2023, University of Michigan. Enforced Prerequisite: None. 00 ADVISORY, ENFORCED STUDENTS MUST ELECT LAB, DISCUSSION AND LECTURE SECTIONS. Fawwaz Ulaby and Prof. 15 – Due Tuesday Jan. Andrew Yagle, will be used by students in the undergraduate course, Introduction to Signals and Systems (EECS 216). Usingtrig, Professor Andrew E. 4-4. Or: Inflnite-duration x[n]=coe–cients of Laurent (power) series X(z). You may work with other students in the class on problem sets and lab reports. EX: Audio (from microphone) signal. 216 was a bit of a shock because it was as difficult as 215 was easy. Details will be announced later. Prof. You’ll never use this formula{ever! Need: x(t) piecewise continuous; of exponential order, for X(s) to be deflned. 1-5. J. piazza. Linear (response to scaled sum of inputs is scaled sum of responses) b. Signals and Systems is a core course for students studying electrical engineering and computer engineering at Michigan, and similar courses are taught at most EECS 216 Winter 2008: Sparse Imaging: A mirror web site for ENGINEERING 100: music signal processing: EECS 501 Fall of 2001: Phase Retrieval: EECS 210 Winter 2001: Wavelets and TF: Undergrad Handbook: EECS 658 Fall of 1999: Medical Imaging : SP Graduate Courses: EECS 564 Winter 1999: Inverse Scattering: DARPA-ARO MURI: EECS 551 Fall of 1997: Fast EECS 216 CONTINUOUS-TIME FOURIER TRANSFORM DEF: X(ω) = F{x(t)} = R∞ −∞ x(t)e−jωtdt; x(t) = 1 2π R∞ −∞ X(ω)ejωtdω. 19 † Grading: Not all problems will be graded, but you should do all of them. EECS 216: Signals & Systems 3 Winter 2008. A measurement is performed on the output by the measurement sub-system, which is EECS 216 CONTINUOUS-TIME FOURIER TRANSFORM DEF: X(ω) = F{x(t)} = R∞ −∞ x(t)e−jωtdt; x(t) = 1 2π R∞ −∞ X(ω)ejωtdω. Class Notes: STUDENTS MUST ELECT LAB, COLLABORATION: Homework, lab reports, and exams are given under the Honor Code. EX: Lfeat1(t)g = R 1 0 e(a¡s)tdt = 1 s¡a CRUCIAL FORMULA. Digital Signal Processing Design Laboratory Prerequisite: EECS 216, EECS 280 and EECS 451 or graduate standing. ) > Request a permission for EECS 461, EECS 501 or EECS 551 > Request permission into a CSE class (EECS 203, EECS 281, EECS 482, etc. Edit: I noticed u/Brianfellowes noted below that 216 is also dependent on who's teaching. ) are discussed. • Note: You have two weeks to do this set; try to finish before winter break. EECS 216 { Winter 2008 Homework #7{Assigned March 4{Due Tuesday March 11 † Grading: Not all problems will be graded, but you should do all of them. But Central Campus copies of Matlab likely don't have these. Reply reply [deleted] • Comment deleted by user. Instructor resources are available for this edition: please email Prof. The book is organized in parallel to the course and covers: Time-domain analysis of December 12-16, 19, 2022 Final examination date and time is determined by the regular meeting time of Lecture, Recitation and Seminar classes during the term. (4 credits) Designed for graduate students developing the methods and using the tools of scientific computing. EX: Lfcos(!t)1(t)g = Lf 1 2 (e j!t + e¡j!t EECS 216: Signals & Systems 4 Winter 2008. For convenience the pin layout of the LM 741 opamp is repeated below. EECS 216 – Winter 2008 Homework #1 – Assigned Jan. Inverse: x(n)=1 2π π −π X(ejω)ejωndω. Both time- and frequency-domain 5 IV. The lecturers go wayy to fast to comprehend shit in the class, and labs require countless hours of computation In EECS 461 you will learn how to use a microprocessor as a component of an embedded control system. , image deblurring) that are considered as examples in EECS 559. Required pre-requisite: Senior standing and I didn't exactly walk in expecting this to be an easy class, but I did expect it to be on the same level of let's say, EECS 280. (4 credits) 441. April 25, 26, 29-May 2, 2024 Final examination date and time is determined by the regular meeting time of Lecture, Recitation and Seminar classes during the term. More recently, you have been studying the frequency domain description of signals in terms of Fourier series and Fourier EECS 216 IMPULSES AND IMPULSE RESPONSE CONTINUOUS-TIME IMPULSES Def: An impulse is the limiting case of a constant-area high and fast pulse. Select a term, add courses, refine selections, and send your custom schedule to Wolverine Access in preparation for registration. DFT: x[n]= N−1 k=0 Xke j2πnk/N where X k = 1 N N−1 n=0 x[n]e−j2πnk/N. Calculus (differentiation and integration). I am struggling with looking at a system and being able to tell the system properties without doing to mathematic. EECS 550 Information Theory. Sharma, Power System EECS 216 EXAM #2 INFORMATION. The course is run horribly, and the discussions/lectures don't feel like they prepare you for the exam whatsoever. Why? So why do we modulate signals m(t) for communications purposes? 1. 2). Use of the internet and EECS 216 LECTURE NOTES USEFUL MATHEMATICAL METHODS AND FORMULAE Useful Trigonometry Facts and Identities 1. Stéphane Lafortune, who taught EECS 216 for decades and wrote a textbook on the subject, stated, “Every semester that I have worked with Ady, I have heard numerous comments from the students, during my own office hours, praising the quality of instruction provided by Ady during the discussion sections, the usefulness of the teaching EECS 216 LECTURENOTES COMBFILTER DESIGN USING POLESANDZEROS Given: A 48Hz sinusoidal signal plus interference (froma motor)at60Hz. Take the the 17964 P RW LAB 030 F 3-6PM 1016 EECS 216 Intro Signals&Syst 4. In particular, the properties of linearity and time-invariance have been described and it has been shown EECS 216 Winter 2008 Lab 1: LTI Systems Part II: In-lab & Post-lab Assignment Professor Kim Winick Department of Electrical Engineering & Computer Science University of Michigan c Kim Winick 2008 1 Laboratory Task Description Unless otherwise specified, it will be assumed that the unit of time is the second and the unit of voltage is the Volt. Remember: H(ejω)isperiodicinω with period 2π! −10 −5 0 5 10 0 1 2 3 mag for [1 −1/2 1] −10 Advisory Prerequisite: None. Goal: Digitally filter this signal x(t). A new textbook, Engineering Signals and Systems, by Prof. Note: (1) Sign change in e±jωt; (2) Integrate over t vs. Students without signal processing backgrounds should audit EECS 351 and learn 1D DSP before taking EECS 556. The Faculty However, what gives me anxiety isn't really about the classes I am taking right now, it's about my upper level courses. It covers transmission lines, electrostatics, magnetostatics, and touches upon time-varying fields. LECTURE NOTES FOR EECS 216 PROFESSOR ANDREW E. So there is some overlap with EECS 556, as well as the other courses EECS 460. Time: y(t) = x(t ¡ d) shifts plot of x(t) right by d if d > 0 (left if d < 0). EECS 401 Probabilistic Methods in Engineering. 2 nF Ge pn junction diode: 1N34A Figure 4. Sum of N sinusoids at N different frequencies. Engineering is a Notes for the University of Michigan's EECS 216 (Signals and Systems) class Resources 1 day ago · Prerequisite: EECS 216 or EECS 281 or ME 360 or CEE 212 or IOE 333 or Graduate Standing. multiplexing: Tutoring is available during the WN23 term for EECS 183, 203, 280, 281, 215, 216, 270, 314 and ENGR 101 on Wednesdays from 6:00 – 8:00 PM and Sundays from 1:00 – 3:00 PM via Zoom. You learned about op-amps in EECS 215, and you can find the details about op-amp operation in your EECS 215 lab book. The major topics of the course, and their signiflcance, are as follows: 1. 8 – Due Tuesday Jan. Quantitative Physiol. Relevant Reading in Textbook: Chapter 3: 3. YAGLE 1-3 pages unless otherwise noted. Theory and practice of signals and systems in both continuous and discrete time domains with examples from biomedical signal processing and control. Instructor: Joyce Chai. One pole becomes “fast,” other becomes “slow. Control Systems Analysis and Design Prerequisite: EECS 216 or EECS 306 or graduate standing. frequency. The default number of points used in plot is too small. Compute using "roots" in EECS 216 LAPLACE TRANSFORM Forward: Laplace transform X(s) of x(t) is: X(s) = Lfx(t)g = R 1 0 x(t)e¡stdt. Examples include electric propulsion drives for electric and hybrid electric vehicles, generators for wind turbines, and high-speed motor/alternators for flywheel EECS 300 (Currently EECS 216): Mathematical Methods in Electrical Engineering; EECS 401: Probabilistic Methods in Engineering; EECS 501: Probability and Random Variables; EECS 502: Stochastic Processes; EECS 550: Information Theory; EECS 554: Introduction to Digital Communication and Coding; EECS 557: Communication Networks ; EECS 558: Stochastic University of Michigan Department of Electrical Engineering and Computer Science EECS 216: Introduction to Signals and Systems Time/Place: Lecture (in person) section 001: T-TH 10:30-12:00 (Achilleas) Lecture (in person) section 002: T-TH 3:00-4:30 (Achilleas) Discussion (in person) 3 sections: TH 3:30-4:30 (Ady) F 12:30-1:30 (Ady) F 1:30-2:30 (Ady) Jobs: Michigan computer engineers are highly recruited by a wide variety of industries. Intro to electromagnetics/optics course that covers the underlying principles behind common electrical/electronics systems, including energy and data storage, EECS 216 – Winter 2008 Homework #2 – Assigned Jan. Bo Xiao 2433 EECS xiaobo@umich. It also derives the sampling theorem for periodic signals, EECS 216 Winter 2008 Lab 0: Suggested Exercise Professor Kim Winick Department of Electrical Engineering & Computer Science University of Michigan c Kim Winick 2008 1 Introduction The labs will officially start with Lab 1, which is now posted in the Lab Materials Resource Folder. Discrete in frequency⇔Periodic in time. Signals and Systems is a core course for students studying electrical engineering and computer engineering at Michigan, and similar courses are taught at most EECS 452 { Lecture 1 Digital Signal Processing Laboratory Course Description (from catalog) EECS 452. In class, we will focus on computer architecture beyond the CPU, fundamentals of the hardware/software interface, techniques for sensing and controlling the physical world, and a few other topics. Complete EECS 280; Complete one of (ROB 101, MATH 214, MATH, 217, MATH 417, MATH 419) This will set you up for all of our 300-level classes. ” Change the following settings for the wave form: Period 7 s, HiLevel 1 V, and LoLevel 0 V. 29 – Due Tuesday Feb. Note x[0] = 3 and flnite duration=5! length X(z) = 3+1z¡1 +4z¡2 +2z¡3 The EECS Department is one of the leading departments of its kind in the nation. Topic: Laplace transforms and properties. The most useful thing to do is view the prior recordings and then jump forward in these live EECS 559 emphasizes large-scale SIPML applications. The kits contain circuit elements such as resistors, capacitors and amplifiers, which students can assemble to demonstrate key course concepts. The specific embedded system we will be working with is a haptic interface, which uses force feedback to enable a human to interact with a computer through the sense of touch. Set the trigger on the scope. In EECS 216: Assume have M • N. WHY?: To solve difierence equations with nonzero initial conditions. 216 is one of the hardest classes I've taken. , a(t)). Though a petition is required for 414 to double count, but it UMich EECS Lab Videos Note that MATH 216 (or equivalent) is required for EECS 215 and BIOMEDE 211. 5. Relevant Lectures: Jan. ” Fastest for both=–1. DFT: x[n] = PN¡1 k=0 Xke j2nk=N where X k = 1 N PN¡1 n=0 x[n]e¡j2nk=N 1. Amrita Chaudhury (BME 451/452) encourages students in her senior capstone design course to combine critical thinking skills with imagination and resourcefulness; Patrick Pannuto (C4CS) conceived, designed, and initiated the course Computing for Computer Scientists, which has grown to over 600 students registered in the last year; Nathan Sawicki (EECS 216 & 351) A new textbook, Engineering Signals and Systems, by Prof. Don’t call them Dirac delta functions–Dirac would sue for defamation! EECS 215: Introduction to Electronic Circuits Coverage As the entry course into the EE and CE degree programs, EECS 215 not only introduces the student to the world of electronic circuits, it also provides previews of many related specialties, including IC fabrication, micromechanical sensors and actuators, display technologies, nanocapacitors, and hard disk drives. Transmission: m(t) can’t be radio broadcast; x(t) can (higher freqs). Period: X(ejω)isperiodicwith period 2π. I took it with Winick, who made it very difficult. Electrical Engineering Sample Schedule 2022-2023 Applies to students entering the CoE during or after Fall 2019 Terms Credit Hours 1 2 3 4 5 6 7 8 EECS 216 – Winter 2008 Homework #4 – Assigned Jan. Students who have not had the equivalent of EECS 216 and EECS 351 will find Topics 1-7 very fast paced because the notes rely heavily on the foundations from 216 and 351. Introduction to communications, control, and signal processing. Maximum=100; counts 20% Exam #2 score. Ulaby and Andrew Yagle This textbook has been revised, and the second edition is now available. Home; Course Overview; Lecture; Assignments; Labs; References; Staff; Piazza; Gradescope; Embedded systems are special-purpose computing devices not generally considered to be computers. Phasors should have been learned in EECS EECS 216 was my favorite class so far and Prof Lafortune was my favorite professor. • Fastest-oscillating discrete-time sinusoid: ω = π → cos(πn)=(−1)n. TIME CONTINUOUS DISCRETE; TOPIC TOPICS LIST TOPICS LIST; Review: Complex numbers: Useful formulae: Phasors[7 pages] DSP Glossary: Motive: 216 Overview: 216 EECS 216 LECTURE NOTES EXAMPLES OF DFT PROPERTIES Given: x[n] is a discrete-time signal with period N: x[n] = x[n + N] for all n. Info about EECS 216 > EECS 230: Electromagnetics I. If I am scoring below average in my lower Yelin Kim, yelinkim@umich. DEF: A system is LINEAR if the following two properties hold: 1. EECS 216 (Signals & Systems) or Graduate Standing; Other useful skills include differential equations, matrix algebra, and computer programming. Lab 3 AM Radio + + Vi Vo R C r r r R = 75 KΩ C = 2. Both time- and frequency-domain Studying EECS 216 at University of Michigan, taking an analog signal processing class. When: Thursday April 17, 8:00-10:00 AM (yes, AM) Where: Chrysler Center Auditorium (220). Goal: To determine the phase difierence jµx ¡ µyj from data x(t) and y(t). See the FTE section of this document for more information. Use the Atlas Schedule Builder to create your next academic schedule. Explanation: BIBO stable: For the bounded input if the system's output is bounded output then it is said to be BIBO stable system. Time: y(t) = x(¡t) reverses: °ips plot about t EECS 216 { Winter 2008 Homework #5 { Assigned Feb. The Honor Council investigates each suspected violation of the Honor Code and recommends action to the Faculty Committee on Discipline. 2. Superposition: If x1(t)! jSYSj ! y1(t) and x2(t)! jSYSj ! y2(t), EECS 216: Signals & Systems 2 Winter 2008. Now change the horizontal sweep time to 5 µs/division. Why: Design the system to fllter input x(t). NOT true if a varies with time (i. Abstract The purpose of this document is to introduce EECS 216 students to the z-transform and what it’s for. Honor Council office is located at 1234 EECS Building. EECS 216 at the University of Michigan (U of M) in Ann Arbor, Michigan. The Homework Policy and Lab Policy are posted on the course website, and EECS 216: Introduction to Signals and Systems. Actual figure is the sum of the following: Exam #1 score. EECS 216 LECTURE NOTES INVERSE Z-TRANSFORMS Given: X(z) = b0+b1z+:::+bM z M a0+a1z+:::+aN zN. Idk who’s teaching EECS 216 nowadays, but when I took it with Finelli, Winnick still wrote most of the hw and exams and it was hard. Matlab’s fitshift shifts DC EECS 216 LECTURE NOTES ELEMENTARY SIGNAL OPERATIONS: TRANSLATION Value: y(t) = x(t)+ c shifts plot of x(t) up by c if c > 0 (down if c < 0). Last homework before Exam #1. " Bring: No bluebooks (write answers directly on exam). It also introduces transfer (system)functions and shows how to use them to relate system descriptions. Course newsgroup. Negative frequencies are second half of fXkg: Use X¡k = XN¡k. eecs. Flexible Technical Electives (FTE): The flexible technical elective requirement is fulfilled by selected courses in EECS, other engineering departments, biology, chemistry, math or physics. Series: x(t) = P ∞ k=−∞ xke j2πkt/T; x k = 1 T RT/2 −T/2 x(t)e−j2πkt/T dt. Advisory Course Description: BME 311 Biomedical Signals and Systems. automotive, aerospace, computer, communication, chemical, bioengineering, power, etc. Course Description. Maximum=100; counts 30% Lab Reports. When: Thursday March 20, 7:00-9:00 PM. 1. Letasimplesinusoidx(t)=Acos(ωt)bepassedthroughasquare-lawdevice. For the relative weightings, see the introductory handout. Given: DSP system having: (1) sampling rate of 480Hz;and(2) 14delays. Special examination periods that differ from regular exam schedule are arranged for certain courses. The algorithmic and device technologies supporting these functions continue to advance at a rapid pace. Topic: Fourier Series expansions. 1: Envelope Detector clean looking result. (25 points: 5@5) The response of an LTI system to e¡2tu(t) is [e¡3t ¡e¡4t]u(t). • Submission: Submit in black box in room 4230 EECS before 5:00 on Tues. But: Interference not sinusoidal, just periodic: 4 harmonics upto 240Hz. if-else, . Lab 4 Control 2 Preliminary Information 2. EECS 550 – Information Theory (On Campus) -Fall courses. Math: Mathematicians: Impulses are distributions or generalized functions. *Prerequisite: EECS 216 or graduate standing EECS 501 – Probability and Random Processes (On Campus) -Winter courses *Prerequisite: EECS 301 or graduate standing. • Read: Text sections EECS 230 is an introductory electromagnetic/optics course. Bring: Closed book; 2 sides of 8. Your lab GSI will be available for consulting on the PRE-LAB 1 Assignment for the first hour of I took 270, 370, and 216 last semester and I found it kinda challenging because I found doing three EECS classes to be mentally draining. edu Office Hours: T 11:00AM-12:00PM in EPB 224 (CAEN Lab) and F 12:00-3:00PM in 2336 EECS ; Course EECS 216 or an equivalent linear systems course. It also presents examples of designing a digital speedometer (i. Then x(t) can be expanded as a weighted sum of sinusoids with angular frequencies that are integer multiples of ω0 = 2π T: x(t) = a0 + a1 cos(ω0t) +a2 cos(2ω0t)+ a3 cos(3ω0t)+ Prerequisite: 216 or (EECS 206 and EECS 215). Rotate the Level dial to change the trigger level to 500 mV. † Read: Text sections 3. Minimum grade requirement of “C” for enforced prerequisites. Time Invariant (response to a delayed input is a delayed output) EECS 216 LECTURE NOTES CONCEPTS BEHIND DISCRETE FOURIER TRANSFORM NOTE: See DFT: Discrete Fourier Transform for more details. Track down electromagnetic noise sources from within the antenna & receiver Advisory Prerequisite: Preceded or accompanied by MATH 216 and AEROSP 201. 1. Get app Get the Reddit app Log In Log in to Reddit. EECS 556 (Image Processing) introduces some applications (e. Freq. PD Nathan Sawicki EECS 216 & 351. This is by far the hardest class I've taken at UMICH and it doesn't help that we don't get answers to the practice exam. If you have any 4112 EECS 1301 Beal Avenue Ann Arbor, MI 48109-2122. II (4 credits) 2417A EECS wentzlof@umich. “I credit the great team of GSIs and IAs for their contributions to the course and for their devotion to the students,” said Lafortune. April 1. Introduction to Signals and Systems --- Theory and practice of signals and systems engineering in continuous and discrete time. Relevant Reading in Textbook: Chapter 2 (LTI systems) 2. (4 credits) A hands Additional Notes In order for this course to be re-evaluated as EECS 216, please send an example of each exam to engincredit@umich. Prof. 19. Hands-on Robotics Advisory Prerequisite: None. Class I'm fucked. Aboveexample: EX: K decreases from 0 to −∞: Poles move along unit circle from ±j to -1; coalesce at –1; split apart; move in opposite directions along real axis. Impact: Michigan’s computer engineers founded Google, created the iPod, were key to the Chevy Volt, and are helping run the State of Michigan. 1,2. While the target audience is EE/CE/CS/DS students, any student wishing to learn how to use their computer more effectively is encouraged to join. Weekly recitations and hardware/Matlab software laboratories. Abstract The purpose of this document is to introduce EECS 216 students to the DFT (Discrete Fourier Transform), where it comes from, what it’s for, and how to use it. EECS 501 Probability and Random Processes. He taught two different lecture sections of this lab-intensive course. Maximum=100; counts ROB 464 (EECS 464). TBP 1:1 tutoring. Apply this input to the plant and observe on the oscilloscope both the input (scope channel 1) and output response (scope channel 2). Relevant Lectures: January 8-10. We will send an email to this address with a link to validate your new email address. Finally, the website https://online216. All EECS 583 students should be able to access the site. Glover, T. 9, 6-8 PM, Dow 1013) Exam 2: 25% (Tues. Relevant Lectures: January 15-17. (−π,π) → (p− π,p+ π) for any p. Abstract The purpose of this document is review for EECS 216 students the concept of phasors{complex numbers used to represent sinusoids, to simplify the math of manipulating sinusoids. umich. Inverse: x(t) = 1 2j R c+j1 c¡j1 X(s)estds. Description: Space-time modulation has attracted renewed interest within the fields of radio frequency (RF) circuits, applied electromagnetics and optics in recent years. April 8. Exam times are not based on Discussion, Independent Study, Laboratory or other class components. Students learn the fundamentals of wave propagation and high speed interconnect modeling through transmission-line analysis. of EECS, The University of Michigan, Ann Arbor, MI 48109-2122 I. Course EECS 216 LECTURE NOTES TRIGONOMETRIC FOURIER SERIES OF PERIODIC SIGNALS THEOREM: Let x(t) be a bounded periodic signal with period T. Textbooks: Our primary textbook is J. The office phone number is 936-3252. edu Reading/Recording Schedule and Slides Free Textbook Information The next links are from in-person classes in fall 2021 making use of the above recordings in a "flipped" classroom fashion. edu/ is highly recommended for multiple-choice EECS 216 Winter 2008 Lab 2: FM Detector Part I: Intro & Pre-lab Assignment c Kim Winick 2008 1 Introduction In the first few weeks of EECS 216, you learned how to determine the response of an LTI system by convolving its input with the its impulse response. e. Value: y(t) = cx(t) scales vertical axis of plot by factor c. See the EECS 583 class page at www. edu (734) 647-4499 Office Hours: MW 1:00-2:00PM in 2417A EECS or by appointment; Graduate Student Instructor. FiniteFourierSeries Rarely,theFourierseriesofx(t)hasonlyafinitenumberofterms. Huh? A single frequency into an LTI system→Same single frequency out. Verify visually that the waveform is correct (i. † Read: Text sections 5. Exploration of advanced topics in Artificial Intelligence, focusing on the intersection of language, vision, machine learning, decision making, and cognitive modeling towards embodied AI agents that can communicate, learn, reason, perceive, and act. Students at home will rely on the Analog Discovery 2 tool—a compact instrument Prerequisite: 216 or (EECS 206 and EECS 215). Lab 1 LTI Systems 2. (4 credits) A hands-on, project based introduction to the principles of robotics and robot design NOTE: Plots of several periods of frequency response for h[n]. a = 0!Lf1(t)g = 1 s. Teaching/Courses. I considered doing three EECS courses my first semester but my advisor said that it's much better to try out just doing two before ramping up the difficulty and I would recommend you do the same EECS 215: 4 EECS 216: 7 EECS 230: 5 EECS 280: 6 EECS 301: 2 EECS 370: 3 EECS 373: 4 EECS 419: 2 Gonna be taking 461, 473, and 320 next semester - I imagine 473 is gonna be at least an 8. EECS 216 LECTURE NOTES CORRELATION BETWEEN SINUSOIDAL SIGNALS Given: x(t) = A cos(!t + µx) and y(t) = B cos(!t + µy); ¡1 < t < 1. 1 A Closed-Loop Feedback Model The block diagram of a generic closed-loop feedback control system is shown in Fig. Maximum=100; counts 25% Exam #3 score. II (4 credits) Basic techniques for analysis and design of controllers applicable in any industry (e. Where: Chrysler Center Auditorium (220). Dirichlet (Sufficient) Conditions for Convergence: Histo- (Bracewell p. Bring: Closed book; 4 sides of 8. Given: x[n] is a discrete-time signal with period N: x[n]=x[n+N] for all n. edu. Our research activities, which range from the nano- to the systems level, are supported by more than $75M in Please enter your umich. Students are expected to be familiar with basic concepts of programming, such as control flow (e. Log In / Sign Up; Advertise on ISD 599 (EECS 419) Electric Machinery and Drives. So: Modulated signal: x(t)=m(t)cos(2πf ct)wheref c=carrier frequency. Electrical Biophys. Using Re[z]=1 2 (z + z∗)withz = Xkejωkt,wehave: • x(t)=A0 + 1 2 N k=1 (Xke jωkt + X∗ k e −jωkt)whereX k = Akejθk. EECS 216: Signals and Systems, Winter 2019 (Jointly with Stephane Lafortune) and 2022 (Jointly with Greg Wakefield), University of Michigan. EECS 444/544: Analysis of Societal Networks, Fall 2018, 2019 and EECS 427 VLSI Design I EECS 270 & EECS 312 Fall & Winter EECS 430 Wireless Link Design EECS 330 & senior standing Winter EECS 438 Advanced Lasers and Optics Lab EECS 334 or EECS 434 Winter EECS 452 Digital Signal Processing Lab EECS 280 & EECS 216 & [351 or 455] Fall & Winter Students will then need to take two Engineering courses (at least at the 200 level) outside of the Aerospace department. Preferred Skills: Completed EECS 215/EECS 314; Completed/taking EECS 230; Completed/taking EECS 411; Circuit design; Radio Design; Soldering; LabVIEW. r/uofm A chip A close button. 22 Grading: Not all problems will be graded, but you should do all of them. EECS 216 LECTURE NOTES DIGITAL SIGNAL PROCESSING: COMPLETE SYSTEM x(t) =Continuous-time (analog) signal. 1 and 3. The website for the new edition is: ss2-2e. He did mention in the first day of class that the average grade was something like a B- or C+ if I’m not mistaken but that doesn’t really mean anything, as long as you study consistently every week and do the homework you’re gonna be fine. Fawwaz Ulaby for requesting access. Avoid Winick if at all possible; I had 216 with Winick and the class is a nightmare. Theory and practice of signals and systems engineering in continuous and discrete time. HOW GRADES WERE ASSIGNED IN EECS 216: I compute the weighted sum of the exams, labs and homework. Enforced Prerequisite: EECS 216 or EECS 281 or MECHENG 360 or CEE 212 or IOE 333; No OP/F or graduate standing. Required pre-requisite: [(EECS 334 or 434 or PHYS 402); (C or better, No OP/F)] or Graduate Standing Advisory pre-requisite: EECS 334 or EECS 434. EECS 216 1-SIDED Z-TRANSFORM DEF: Z+fx(n)g = X+(z) = P1 n=0 x(n)z¡n, even if x(n) is noncausal. The book is based on the presentation slides that Lafortune developed over the years while teaching the material for EECS 216, the introductory signals and systems course offered by the department of Electrical Engineering and Computer Science at the University of Michigan. Submission: Submit in black box in room 4230 EECS before 4:45pm Tuesday. Topic: Applications of Laplace transform 1. EECS 216 Rant . 0. 5 (skip 3. CoE students Prof. Video overview of EECS 216. Progress in the availability and performance of tunable semi-conductor devices as well as electro-/magneto-optic, phase change, and 2D Email: tarunesh at umich. Press the Mode/Coupling button. Goal: Filter out60 Hzperiodic interference, while keeping 48Hz sinusoid. Tau Beta Pi offers some opportunities for one-on-one tutoring upon request. The circuits and semiconductor classes are EECS 460. Tons of work, nigh impossible homework/exams Reply reply Kamikaze_Commie • I took 215 last semester with Fred Terry and am taking 216 this semester EECS 215 and 216 introduce circuits and signals for electrical engineering majors. Of course, The first was EECS 216, Introduction to Signals and Systems. Laboratory exercises using two state-of-the-art xed-point processors EECS 373: Introduction to Embedded System Design. → Fourier EECS 216 s-PLANE CIRCUIT ANALYSIS BASIC CONCEPT BEHIND s-PLANE CIRCUIT ANALYSIS Given:A circuit with severalinductors and capacitors and different sources. 5 Grading: Not all problems will be graded, but you should do all of them. Emphasis of coverage of material: Lectures: EECS 216 LECTURE NOTES FORWARD OR DIRECT Z-TRANSFORM DEF: Zfx[n]g = X(z) = P1 n=0 x[n]z¡n (compareto Lfx(t)g = R 1 0 x(t)e¡stdt). Poles: f0;p1:::pN g are roots of a0z +::: + aN zN+1 = 0; assume pn distinct. PROPERTIES OF 1-SIDED Z-TRANSFORM X+(z): 1. 12 { Due Tuesday Feb. Reply reply orangeandblack5 • Workload is EECS 216 in Systems (communications, control, signal processing) EECS 230 in Electromagnetics (electromagnetics, optics, remote sensing) EECS 280 in Computers (hardware, software) These courses introduce you to each of these four areas of EE (solid state comes later). 15 Grading: Not all problems will be graded, but you should do all of them. Need: R∞ −∞ |x(t)|dt < ∞ ⇔ x(t) “absolutely integrable” for X(ω) to exist. To get access to the piazza group, sign up here EECS 216 FEEDBACK CONTROL Given: Fixed LTI system with impulse response h(t) = e2tu(t) Learnabout itin EECS 460. They are: a. Real part Imag part Magnitude Argument or phase LEMMA: Euler’s EECS 216 Winter 2008 Lab 3: AM Radio Part I: Intro & Pre-lab Assignment c Kim Winick 2008 1 Introduction 1. STAT 608 (Optimization Methods in Statistics) covers many of the same methods as EECS 559. Coverage This class is focused on the principles and practices of modern embedded systems design. 1 A Bit of History The transmission and storage of information are vital functions of a modern society. To receive tutoring in one of these subjects, please submit this form with your name, course number, and an estimate of how much tutoring you're looking for. David DuRussel dvddrssl@umich. Yagle's version of 216, from what I've heard, isn't particularly difficult (easier than 215 even). Bring: Closed book; 6 sides of 8. Adv Lasers Lab. Yagle, EECS 216 Instructor Dept. Assigned before, and due after, EECS 216 LECTURE NOTES BASIC SYSTEM PROPERTIES What: Input x(t)! jSYSTEMj ! y(t) output. Fourier series, Fourier transforms, spectrum, frequency response and filtering. March 11. They are ubiquitous components of our everyday lives, with an estimated fifteen embedded devices for every 417/EECS 417. Professor of EECS, University of Michigan fredty@umich. Time: y(t) = x(dt) scales horizontal axis of plot by factor d. Provisions will be made to allow you to access this lab except during scheduled lab times for EECS 215 or 216. Please see below. Students learn how to use HPC clusters, and utilize community tools and Courses Taught. Appointments to the Committee are rotated to ensure representation of all Engineering Departments. EECS 216 DISCRETE-TIME FOURIER TRANSFORM DTFT: X(ejω)= ∞ n=−∞ x(n)e −jωn = X(z)| z=ejω (z-xform on unit circle). g. Electrostatics and magnetostatics cover the underlying principles behind EECS 216- Take with Yagle at all costs. Soln: Compute the CORRELATION COEFFICIENT = ‰xy = CN (x;y) = C(x;y)= p E(x)E(y) where: C(x;y) = R T 0 x(t)y(t)dt and E(x) = C(x;x) and T = 2! =period. tvffp nrvpmk gwkr zzogie vthl hszjqp hnwxx odca wzvkljy fuli