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41 - 50 of 203 results for: EE

EE 178: Probabilistic Systems Analysis

Introduction to probability and its role in modeling and analyzing real world phenomena and systems, including topics in statistics, machine learning, and statistical signal processing. Elements of probability, conditional probability, Bayes rule, independence. Discrete and continuous random variables. Signal detection. Functions of random variables. Expectation; mean, variance and covariance, linear MSE estimation. Conditional expectation; iterated expectation, MSE estimation, quantization and clustering. Parameter estimation. Classification. Sample averages. Inequalities and limit theorems. Confidence intervals.
Terms: Win | Units: 3-4 | UG Reqs: GER:DB-EngrAppSci, WAY-AQR, WAY-FR
Instructors: Prabhakar, B. (PI) ; Jain, V. (TA)

EE 179: Analog and Digital Communication Systems

This course covers the fundamental principles underlying the analysis, design and optimization of analog and digital communication systems. Design examples will be taken from the most prevalent communication systems today: cell phones, Wifi, radio and TV broadcasting, satellites, and computer networks. Analysis techniques based on Fourier transforms and energy/power spectral density will be developed. Mathematical models for random variables and random (noise) signals will be presented, which are used to characterize filtering and modulation of random noise. These techniques will then be used to design analog (AM and FM) and digital (PSK and FSK) communication systems and determine their performance over channels with noise and interference.
Terms: Win | Units: 3
Instructors: Pauly, J. (PI) ; Sands, J. (TA)

EE 180: Digital Systems Architecture (CS 180)

The design of processor-based digital systems. Instruction sets, addressing modes, data types. Assembly language programming, low-level data structures, introduction to operating systems and compilers. Processor microarchitecture, microprogramming, pipelining. Memory systems and caches. Input/output, interrupts, buses and DMA. System design implementation alternatives, software/hardware tradeoffs. Labs involve the design of processor subsystems and processor-based embedded systems. Formerly EE 108B.
Terms: Win | Units: 4 | UG Reqs: GER:DB-EngrAppSci, WAY-SMA
Instructors: Kozyrakis, C. (PI) ; Angkanapiwat, B. (TA) ; Delgadillo, J. (TA) ; Lee, S. (TA) ; Zhu, W. (TA)

EE 184: Internet Principles and Protocols

This course covers the basic functions underlying computer networks and their organization into a layered architecture. The principles set forth for internetworking that allowed the Internet to be open and scalable are highlighted. Addressing in the Internet, the Internet Protocol (IP), the Transmission Control Protocol (TCP), and the various routing protocols used in the Internet are examined. The course also examines the design of specific prevalent networks (Ethernet and Wi-Fi, in particular) addressing both Physical Layer functionality (how bits are signaled on the transmission medium) and Media Access Control (MAC) Layer functionality which comprises how stations are addressed, the protocol according to which stations access a common shared transmission medium, and various management functions necessary for the operation of the network).
Last offered: Winter 2023 | Units: 3

EE 185: Interactive Light Sculpture Project

Design, prototype, build, refine, program, and install a large interactive light sculpture in the Packard Building to celebrate the 125th anniversary of the EE department. Students may take the course for 1, 2, or 3 quarters; each quarter focuses on a different phase of the project. Topics covered include energy budgeting, communication, enclosure design, scalability, timing, circuit design, structural design, and safety. Prerequisite: ENGR 40M, or an introductory EE or CS course in circuits or programming.
Last offered: Autumn 2021 | Units: 3 | Repeatable 3 times (up to 9 units total)

EE 186: Introduction to Embedded Systems

This course introduces embedded systems and provides a comprehensive understanding of the key principles, including specification, design, development, and testing. Topics covered include, but are not limited to, clocks, GPIO, interrupts, buses, and storage. A modern microcontroller will be used as the target environment for a series of laboratory projects and a comprehensive final project. Prerequisite: CS 106B
Terms: Aut | Units: 4
Instructors: Kapetanovic, Z. (PI) ; Angkanapiwat, B. (TA) ; Lee, C. (TA)

EE 190: Special Studies or Projects in Electrical Engineering

Independent work under the direction of a faculty member. Individual or team activities involve lab experimentation, design of devices or systems, or directed reading. Course may be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-15 | Repeatable for credit

EE 191: Special Studies and Reports in Electrical Engineering

Independent work under the direction of a faculty member given for a letter grade only. If a letter grade given on the basis of required written report or examination is not appropriate, enroll in 190. Course may be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-15 | Repeatable for credit

EE 191A: Special Studies and Reports in Electrical Engineering

EE191A is part of the Accelerated Calculus for Engineers program. Independent work under the direction of a faculty member given for a letter grade only. EE 191A counts as a Math one unit seminar course: it is this unit that constitutes the ACE program.
Terms: Aut, Win, Spr | Units: 1
Instructors: Boahen, K. (PI) ; Duchi, J. (PI) ; Fan, J. (PI) ; Schroeder, D. (PI) ; Wootters, M. (PI)

EE 191W: Special Studies and Reports in Electrical Engineering (WIM)

WIM-version of EE 191. For EE students using special studies (e.g., honors project, independent research project) to satisfy the writing-in-major requirement. A written report that has gone through revision with an adviser is required. An adviser from the Technical Communication Program is recommended.
Terms: Aut, Win, Spr, Sum | Units: 3-10
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