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Course Results

Results for: Department: Electrical Engineering 17 courses
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  • ESE 124: Programming Fundamentals

    Undergraduate 4 credits

    Prerequisite: Declared Area of Interest or Major in Electrical or Computer Engineering.

    The course presents fundamental and more advanced C programming concepts. Lectures discuss the C language constructs and exemplify their using in relevant programming applications. The course also introduces fundamental concepts in electrical and computer engineering, such as bitwise operations, text file scanning, stack-based computation, table-based finite state machine implementation, hash tables, and linked lists. Scheduled lab activities focus on devising, implementing, debugging, and validating C programs for the concepts discussed in class. A course project focuses on developing a more extensive C program that comprehensively utilizes the programming concepts discussed during the semester.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16594030Alexa DoboliMon. & Weds.09:30-12:50PMWest (Main Campus)Open +
    ×

    Note: This class meets online on the days/times indicated.

    Session 165941L30Alexa DoboliTues. & Thurs.09:30-12:50PMWest (Main Campus)Open +
    ×

    Note: This class meets online on the days/times indicated.

  • ESE 188: Understanding ML

    Undergraduate 3 credits

    SBC: TECH

    This is a course on the basics of machine learning. Students develop an intuitive understanding of the core concepts of machine learning including supervised and unsupervised learning, classification and prediction. The course provides a number of practical examples from a wide range of disciplines including biomedicine, social sciences, and engineering. The course does not require any prerequisites in engineering or computer science.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26527430Vibha ManeFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESE 211: Electronics Laboratory A

    Undergraduate 2 credits

    Prerequisite: ESE 271 Corequisite: ESE 372

    Introduction to the measurement of electrical quantities; instrumentation; basic circuits, their operation and applications; electronic devices; amplifiers, oscillators, power supplies, wave-shaping circuits, and basic switching circuits.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26603230Sergey SuchalkinFlexible (Online)TBAWest (Main Campus)Open
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    Session 266033L30Sergey SuchalkinFlexible (Online)TBAWest (Main Campus)Open
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  • ESE 224: Cmptr Tchnq for Electr Dsgn II

    Undergraduate 3 credits

    Prerequisite: ESE 124

    Introduces C++ programming language for problem solving in electrical and computer engineering. Topics include C++ structures, classes, abstract data types, and code reuse. Basic object-oriented programming concepts as well as fundamental topics of discrete mathematics and algorithms are introduced.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26594230Vibha ManeFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESE 231: Intro to Semiconductor Devices

    Undergraduate 3 credits

    Prerequisites: AMS 361 or MAT 303; PHY 127/134 or PHY 132/134 or PHY 142

    The principles of semiconductor devices. Energy bands, transport properties and generation recombination phenomena in bulk semiconductors are covered first, followed by junctions between semiconductors and metal-semiconductor. The principles of operation of diodes, transistors, light detectors, and light emitting devices based on an understanding of the character of physical phenomena in semiconductors. Provides background for subsequent courses in electronics.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26538230Ridha KamouaFlexible (Online)TBAWest (Main Campus)Open
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  • ESE 271: Electrical Circuit Analysis

    Undergraduate 3 credits

    Prerequisite: MAT 127 or 132 or 142 or 171 or AMS 161 Pre/co-requisite: PHY 127/134 or 132/134 or 142

    The course covers the following topics: passive circuit elements: resistors, capacitors, inductors. Elements of circuit topology. Kirchhoff's and Ohm's law. Nodal and mesh analysis. Equivalent circuits. Steady-state AC circuits. Phasors. Transient analysis. Laplace transforms. Fundamentals of AC power, coupled inductors (transformers).

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 1 Extended6296730Thomas RobertazziFlexible (Online)TBAWest (Main Campus)Open +
    ×

    Note: This course used an automatic waitlist. GPNC grading option not available.

  • ESE 300: Tech Commun for EE/CE

    Undergraduate 3 credits

    Prerequisite: WRT 102; ESE or ECE major, U3 standing; Pre- or Corequisite: ESE 314 or 324 or 380 or 382

    Topics include how technical writing differ from other forms of writing, the components of technical writing, technical style, report writing, technical definitions, proposal writing, writing by group or team, instructions and manuals, transmittal letters, memoranda, abstracts and summaries, proper methods of documentation, presentations and briefings, and analysis of published engineering writing. Also covered are the writing of resumes and cover letters.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16594330Ronald MargeFlexible (Online)TBAWest (Main Campus)Open
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  • ESE 301: Eng Ethics and Soc Impact

    Undergraduate 3 credits

    Prerequisite: U3 or U4 standing; one D.E.C. E or SNW course

    DEC: H SBC: STAS

    The study of ethical issues facing engineers and engineering related organizations and the societal impact of technology. Decisions involving moral conduct, character, ideals and relationships of people and organizations involved in technology. the interaction of engineers, their technology, the society and the environment is examined using case studies.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26603830Donna TumminelloFlexible (Online)TBAWest (Main Campus)Open
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  • ESE 304: Apps of Operational Amplifiers

    Undergraduate 3 credits

    Prerequisite: ESE 372

    Design of electronic instrumentation: structure of basic measurement systems, transducers, analysis and characteristics of operational amplifiers, analog signal conditioning with operational amplifiers, sampling, multiplexing, A/D and D/A conversion; digital signal conditioning, data input and display, and automated measurement systems. Application of measurement systems to pollution and to biomedical and industrial monitoring is considered.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16594430Mikhail GouzmanFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESE 305: Deterministic Signals & Systms

    Undergraduate 3 credits

    Pre- or Corequisite: ESE 271

    Introduction to signals and systems. Manipulation of simple analog and digital signals. Relationship between frequencies of analog signals and their sampled sequences. Sampling theorem. Concepts of linearity, time-invariance, causality in systems. Convolution integral and summation; FIR and IIR digital filters. Differential and difference equations. Laplace transform, Z-transform, Fourier series and Fourier transform. Stability, frequency response and filtering. Provides general background for subsequent courses in control, communication, electronics, and digital signal processing.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16315430Sangjin HongFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESE 306: Random Signals & Systems

    Undergraduate 4 credits

    Pre- or Corequisite: ESE 305

    Random experiments and events; random variables, probability distribution and density functions, continuous and discrete random processes; Binomial, Bernoulli, Poisson, and Gaussian processes; system reliability; Markov chains; elements of queuing theory; detection of signals in noise; estimation of signal parameters; properties and application of auto-correlation and cross-correlation functions; power spectral density; response of linear systems to random inputs.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26594730Vibha ManeFlexible (Online)TBAWest (Main Campus)Open
    ×

    Session 265948R30Vibha ManeFlexible (Online)TBAWest (Main Campus)Open
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  • ESE 319: Electromag and T Lines

    Undergraduate 3 credits

    Prerequisite: ESE 271

    Fundamental aspects of electromagnetics wave propagation and radiation, with application to the design of high speed digital circuits and communications systems. Topics include: solutions of Maxwell's equations for characterization of EM wave propagation in unbounded and lossy media; radiation of EM energy; guided wave propagation with emphasis on transmission lines theory.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 1 Extended6594530Jayant ParekhFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESE 346: Computer Communications

    Undergraduate 3 credits

    Pre- or corequisite for ESE and ECE majors: ESE 306 Pre- or corequisite for CSE majors: AMS 310 or 311

    Basic theory and technology of computer communications. Introduction to performance evaluation, error codes and routing algorithms. Other topics include Ethernet, wireless networks including LTE and 5G, fiber optic networking, software defined networking, networking on chips, space networks, data centers, grids and clouds, and network security. Not for credit in addition to CSE 310 or ISE 316.This course is offered as both CSE 346 and ESE 346.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16602830Carlos GamboaFlexible (Online)TBAWest (Main Campus)Open
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  • ESE 372: Electronics

    Undergraduate 4 credits

    Prerequisite: ESE 271 Corequisite for ESE and ECE majors: ESE 211

    The pertinent elements of solid-state physics and circuit theory are reviewed and applied to the study of electronic devices and circuits, including junction diodes, transistors, and gate and electronic switches; large- and small-signal analysis of amplifiers; amplifier frequency response; and rectifiers and wave-shaping circuits.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26487130Ridha KamouaFlexible (Online)TBAWest (Main Campus)Open
    ×

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