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Course Criteria
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4.00 Credits
Introduction to the techniques for programming applications involving timing-sensitive actions. Hands-on experiences with object-oriented programming styles. Timing requirements, timing specification, response times, deadlines, application programming interfaces to real-time operating systems and middleware, remote procedure call, and distributed objects. Prerequisites: CSE104/Computer Science 143A or EECS111, and EECS112. Formerly ECE147. (Design units: 2)
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2.00 Credits
Conception, planning, implementation, programming, testing of an approved project. Options include: parallel processing, VLSI design, microprocessorbased design, among others. Prerequisite: senior standing. In-progress grading. Formerly EECS129. (Design units: 2-2)
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4.00 Credits
Sets and set operations; nature of probability, sample spaces, fields of events, probability measures; conditional probability, independence, random variables, distribution functions, density functions, conditional distributions and densities; moments, characteristic functions, random sequences, independent and Markov sequences. Prerequisite: Mathematics 2D. Formerly ECE186. (Design units: 0)
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3.00 Credits
Introduction to analog communication systems including effects of noise. Modulation-demodulation for AM, DSB-SC, SSB, VSB, QAM, FM, PM, and PCM with application to radio, television, and telephony. Signal processing as applied to communication systems. Prerequisites: EECS150A and EECS140. Formerly EECS141. (Design units: 1)
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3.00 Credits
Signal space analysis. Optimum receivers for digital communication. Maximum a posteriori and maximum likelihood detection. Matched filter and correlation receiver. PAM, QAM, PSK, FSK and MSK and their performance. Introduction to equalization, synchronization, information theory, and error control codes. Prerequisite: EECS141A. (Design units: 1)
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4.00 Credits
Analysis and synthesis of antennas and antenna arrays. Adaptive arrays and digital beam forming for advanced wireless links. Friis transmission formula. Wireless communication equations for cell-site and mobile antennas, interference, slow and fast fading in mobile communication. Prerequisite: EECS180 or consent of instructor. Formerly ECE134. (Design units: 0)
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4.00 Credits
Vector calculus, complex functions, and linear algebra with applications to electrical engineering problems. Prerequisites: Mathematics 2J and 3D. Formerly ECE180. (Design units: 0)
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4.00 Credits
Network architectures, models, protocols, routing, flow control, and services. Queuing models for network performance analysis. Prerequisites: EECS40 or CSE22 or consent of instructor; EECS112 or consent of instructor; EECS140 or Mathematics 67. Formerly ECE161. (Design units: 2)
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4.00 Credits
Characteristics and properties of continuous-time (analog) signals and systems. Analysis of linear time-invariant continuous-time systems using differential equation and convolutional models. Analysis of these systems using Laplace transforms, Fourier series, and Fourier transforms. Examples from applications to telecommunications. Prerequisites: EECS70A/CSE70A; EECS145. Formerly ECE120B. (Design units: 0)
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4.00 Credits
Analysis of discretetime linear-time-invariant (DTLTI) systems in the time domain and using ztransforms. Introduction to techniques based on Discrete-Time, Discrete, and Fast Fourier Transforms. Examples of their application to digital signal processing and digital communications. Prerequisite: EECS70A/CSE70A. Same as CSE120A. EECS150B/CSE120A and EECSH150B may not both be taken for credit. Formerly ECE120A. (Design units: 0)
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