northeastern eece courses

Requires lab session that includes computer exercises using CAD tools to design VLSI layouts and switch-level plus circuit-level simulations to design and analyze the project. Finally, the electronic properties of semiconductors, dielectric, magnetic, superconducting, and optical materials are examined. Presents circuit-level designs of radio building blocks (resonators; L-C RF filters; crystals and IF filters; tuned transformers and impedance matching; amplifiers and power amplifiers; RF oscillators; mixers and up/down frequency conversion; signal detectors; and automatic gain control circuits). EECE 5554. 4 Hours. Covers classical and modern algorithms that efficiently solve hard electrical and computer engineering optimization problems. May be repeated without limit. Offers students an opportunity to program an embedded processor and interface to digital logic designs implemented on programmable hardware, as well as an opportunity to develop a series of designs in class, culminating in a project of the student's choosing. Northeastern University myNortheastern • Find Faculty & Staff • Find A-Z • Emergency Information • Search 360 Huntington Ave., Boston, Massachusetts 02115 • 617.373.2000 • TTY 617.373.3768 EECE 4626. Research Laboratory Project. 617.373.4431 (fax). EE student prerequisites: EECE 301 and EECE 315. Includes an individual project where each student is expected to implement an application, port that application to several different styles of parallelism, and compare the results. EECE 5644. The concept of a layered network architecture is used as a framework for understanding the principal functions and services required to achieve reliable end-to-end communications. Find A-Z • Offers students an opportunity to develop a proposal for a design project that uses engineering technologies to improve the lives of individuals with cognitive or physical disabilities. Demonstrates discrete-time linear filter design on acquired signals in the MATLAB environment. Introduces the vector potentials and the theorems that are needed for the derivation of the radiation integrals from Maxwell’s equations. Covers the fundamentals of vacuum technology, thin film deposition technologies, characterization technologies, their applications in different industries, and the frontiers of research activities on thin film deposition technologies. 4 Hours. EECE 5155. Computer security problems have a significant impact on practical aspects of our lives. EECE 7204 - Applied Probability and Stochastic Processes class wall and course overview (exams, quizzes, flashcards, and videos) at Northeastern (NU) Reviews methods for dealing with both large and high-dimensional data sets, emphasizing distributed implementations. Accompanies EECE 2530. 4 Hours. Topics include atomic structure and bonding in materials, structure of materials, and crystal defects. Also discusses the applications of algorithm analysis and complexity theory to … 4 Hours. Covers common programming, configuration, and design mistakes and examines possible protection and detection techniques.Uses examples to highlight general error classes. Focuses on the hardware and software design for devices that interface with embedded processors. Introduces recent research trends in novel device concepts. The primary educational missions of the Department of Electrical and Computer Engineering are to educate undergraduate students so they have the opportunity to obtain successful careers in electrical and computer engineering and related disciplines and pursue advanced study, such as graduate study in engineering or related disciplines, and to educate graduate students so they can make meaningful contributions to the research and industrial communities. 4 Hours. These are not scheduled and may not be offered. Required Course. Access study documents, get answers to your study questions, and connect with real tutors for EECE 7352 : Computer Architecture at Northeastern University. Covers the electronics of radio receivers and transmitters. EECE 5161. Studies simulation and performance evaluation in computer systems. 4 Hours. Covers parallel and distributed processing concepts including concurrency and its management, models of parallel computation, and synchronous and asynchronous parallelism. 4 Hours. 4 Hours. EECE 5627. Addresses some advanced design techniques, such as linearity improvement methods, frequency compensation, and digitally assisted performance tuning. The same project may not be used to satisfy both this course and EECE 4790. EECE 3468. BS in Math + EECE 2150, EECE 2160, EECE 2412, EECE 2413, two of the following: EECE 2322 (with EECE 2323), EECE 2540, or EECE 2560 (COS) MS in Electrical and Computer Engineering, Concentration in Computer Networks and Security 4 Hours. Topics are selected by the instructor and vary from semester to semester. Fundamentals of Electronics. 4 Hours. Topics include assembly language; addressing modes; embedded processor organization; bus design; electrical characteristics and buffering; address decoding; asynchronous and synchronous bus protocols; troubleshooting embedded systems; I/O port design and interfacing; parallel and serial ports; communication protocols and synchronization to external devices; hardware and software handshake for serial communication protocols; timers; and exception processing and interrupt handlers such as interrupt generation, interfacing, and auto vectoring. Also addresses compensator design based on root-locus and frequency response, and modern control system design using state-variable feedback. Thin Film Technologies. Uses symmetrical component transformation and positive, negative, and zero sequence networks to analyze unbalanced systems. Thesis Option. Explores differential signal processing, operational amplifiers, operational transconductance amplifiers, and common-mode feedback circuits. EECE 7201 at Northeastern University (Northeastern) in Boston, Massachusetts. EECE Dept. Addresses novel applications of analytical and engineering techniques for RF/Microwave Circuits. Culminates with both an individual design project and a team-based final project of considerable complexity. Introduces fundamental techniques in computer engineering used throughout the graduate curriculum. Despite a considerable corpus of knowledge about tools and techniques to protect systems, information about actual vulnerabilities and how they are exploited is not generally available. Circuits and Signals: Biomedical Applications. EECE 5115. Parallel and Distributed Processing. Includes a series of tightly related assignments, which guide students through the implementation of a fully functional LLVM-based compiler from the ground up. Topics include linearity, time invariance, causality, stability, convolution, system interconnection, and sinusoidal response. Covers fundamentals including phasors, single-phase and balanced three-phase circuits, complex power, and network equations; symmetrical components and sequence networks; power transformers, their equivalent circuits, per unit notation, and the sequence models; transmission line parameters including resistance, inductance, and capacitance for various configurations; steady-state operation of transmission lines including line loadability and reactive compensation techniques; power flow studies including Gauss-Speidel and Newton Raphson interactive schemes; symmetrical faults including formation of the bus impedance matrix; and unsymmetrical faults including line-to-ground, line-to-line, and double line-to-ground faults. The university is a leader in experiential learning, powered by the world’s most far-reaching cooperative education program. Reviews basic protective relaying and relay settings using typical distribution system examples. There is now a link on the course website, which connects to Pearson (the publisher). Focuses on the physics, chemistry, and technology of integrated circuit fabrication in the lecture portion of the course, while students fabricate and test novel devices (an electrohydrodynamic micropump and three-dimensional carbon nanotube interconnects) in integrated lab sessions. EECE 2322. Topics include Bayes decision theory, maximum likelihood parameter estimation, model selection, mixture density estimation, support vector machines, neural networks, probabilistic graphics models, and ensemble methods (boosting and bagging). Covers the fundamental elements of solid-state device physics and the application of these principles. Introduces analog-to-digital and digital-to-analog conversion concepts and the concepts of feedback and instability with applications to the design of amplifiers and oscillators. Covers examples from a variety of scientific, medical, interactive multimedia, and artistic applications. Northeastern's historic strengths in ECE include communications and digital signal processing, power and control systems, power electronics, RF/microwave magnetic materials, device technologies, computer engineering, networking, and robotics. EECE 5666. Examines all subsystems that comprise an electric drive including electric machines, power electronic converters, mechanical system requirements, feedback controller design, and interactions with utility systems. Electrical Machines. Introduces robotics analysis covering basic theory of kinematics, dynamics, and control of robots. 4 Hours. EECE 5552. Studies the principles of inexact (approximate) computing through arithmetic and circuit design. Investigates the what (modeling), how (design), and why (analysis) of assistive robotics through the use of model-based design process. Computer vision is an exciting but disorganized field that builds on very diverse disciplines such as image processing, statistics, pattern recognition, control theory, system identification, physics, geometry, computer graphics, and learning theory. 4 Hours. Includes hands-on exercises and projects. EECE 2210. Srinivas Tadigadapa, PhD Offers an opportunity to conduct research under faculty supervision. Statistical Inference: An Introduction for Engineers and Data Analysts. 4 Hours. EECE 2530. May be repeated without limit. Introduces fundamentals of statistical inference and data analysis through concepts of detection, estimation, and related signal processing algorithms. If you are interested in learning about the making of transistors rather than just using them as we've been learning in this course, please have a look at E-4604-Flyer.pdf, for information about an advanced course. EECE 2150, EECE 2412, EECE 2413, EECE 2520, EECE 3468* *May be replaced with another probability course: PlusOne in Electrical and Computer Engineering, Concentration in Computer Networks and Security: EECE 2150, EECE 2160, EECE 2412, EECE 2413, and two of the following: EECE 2322 (with EECE 2323), EECE 2540, or EECE 2560 Courses in each area form the foundation for advanced analytical and creative design courses that culminate in a two-semester capstone design project. Examines the actual sensors and mathematical techniques for robotic sensing and navigation with a focus on sensors such as cameras, sonars, and laser scanners. Example: ENGW 3315. These topics lay a foundation for the introduction of thermal and electronic conduction, which is the underlying physics of electronic devices. Presents applications tospecific systems such as fiber-optic communication, medicalimaging systems, fiber-optic sensors, and laser radar. Course projects emphasize model-based design for control of assistive robots in smart environments. 4 Hours. The first half of the course focuses on the compiler front end, based on a lexical analyzer, syntax parser, and intermediate code generator. The goal of computer vision is to make useful decisions about real physical objects and scenes based on sensed images. Offers an integrated lecture/lab course that covers the basics of the Unix operating system, high-level programming concepts, introductory digital design, wireless networking, and Simulink design. Successful engineers need to organize and adapt information to solve problems. By reducing circuit complexity, critical path delay, and power dissipation at the expense of introducing processing errors in computation, inexact computing is one of the leading emerging paradigms in nanoscale computing. 4 Hours. EECE 5698. Uses PSpice software to simulate circuits and large-signal models and transient simulations to characterize the behavior of transistors in amplifiers and switching circuits. Statistical Inference: An Introduction for Engineers and Data Analysts. 2020-21 Undergraduate PDF The textbook, is Hambley, Electronics , Second Edition. Also studies uniform plane wave propagation along a coordinate axis and along an arbitrary direction; equivalent transmission lines for TEM, TE, and TM waves; reflection and refraction of uniform plane waves by conducting and dielectric surfaces. Dynamical Systems in Biological Engineering. Aligned with Northeastern's vision for interdisciplinary, collaborative discovery, the Department of Electrical and Computer Engineering is leading two new university-wide research institutes, including the Institute for the Wireless Internet of Things, and the Institute for Experiential Robotics. EECE 5626. Digital Control Systems. Programming is done in variants of the C programming language. Topics include practical examples based on LLVM, a popular intermediate language specification and tool chain. Analysis of Unbalanced Power Grids. Offers a unified theoretical approach to the physics of image formation through scattering and wave propagation in sensing. Special Topics in Computer Engineering. EECE 5580. Provide tools and techniques needed to analyze and design power conversion circuits that contain switches. EECE 387 - Design Lab. This is where you would find the five-digit CRN to use when registering for classes. EECE 2520. Brief Description Terahertz (THz)-band (0.1–10 THz) communication is envisioned as a key wireless technology of the next decade. Computer Architecture and Organization. I believe this will work regardless of how you purchased your … Find Faculty & Staff • Topics vary and include computer simulation, digital computer control, and use of CAD packages such as MATLAB for analysis and design of control systems. 4 Hours. Extraction of useful information from noisy observations and informed decision making are at the core of multiple disciplines ranging from traditional communications and sensor array processing to biomedical data analysis, pattern recognition and machine learning, security and defense, and financial engineering. Reviews foundations of stochastic processes including stationarity, ergodicity, autocorrelation, power spectrum, and filtering. 4 Hours. Requires an undergraduate course in communications systems. 4 Hours. EECE 4790. Labs incorporate real field sensors and platforms. Electronic Materials. Introduces robotics analysis covering basic theory of kinematics, dynamics, and control of robots. Enabling Engineering. Briefly introduces operation of the principal semiconductor devices: diodes, field-effect transistors, and bipolar junction transistors. Exercises are centered around a common embedded platform. Offers elective credit for courses taken at other academic institutions. Lectures cover relevant topics, including surveys of specific physical and cognitive disabilities and applicable engineering technologies. Begins with basic concepts such as CMOS device models, DC and small-signal analysis techniques for single- and multistage amplifiers, biasing configurations, and reference generation circuits. Course content depends on instructor. After an introductory discussion of tissue properties, waves used in imaging, and contrast mechanisms, the course discusses modalities such as microscopy, endoscopy, x-ray, computed tomography, ultrasound, and MRI. May be repeated once. Examines safety issues, ethics, and regulatory hurdles from both an industry and research perspective. Northeastern is proud to play a large role in educating tomorrow's leaders in this emerging area. During the cooperative work phase of the program, the students’ levels of responsibility grow as they gain theoretical and technical knowledge through academic work. These laboratory exercises require students to design, construct, and debug hardware and software that runs on an embedded platform. EECE 5170. Check the course site regularly for class materials and additional resources. EECE 5642. EECE 4572. 4 Hours. Arithmetic and Circuit Design for Inexact Computing with Nan... Introduction to Machine Learning and Pattern Recognition. 4 Hours. Introduces analog integrated circuits (ICs) concepts with bipolar and field effect transistor devices. 4 Hours. 4 Hours. 4.00 . This course provides experience with the engineering design process, which spans significant areas of electrical and computer engineering. EECE 4694. Course Offerings . Lectures are supported by illustrative examples and hands-on exercises that rely on the use of MATLAB and are grounded in practical problems. They also must work effectively in teams and communicate well. Although courses may vary, among our typical offerings are: STEM. Fundamentals of Digital Design and Computer Organization. Covers transmission lines, impedance matching, S-parameters, high-frequency circuit analysis, power dividers, resonators, and filters. Computational Methods for Data Analytics. Provides a basic treatment of electronic materials from atomic, molecular, and application viewpoints. To thrive in Silicon Valley, Agarwal knows that Northeastern has to be nimble, ready to offer courses in subjects such as machine learning, augmented reality and Internet of Things (IoT). 4 Hours. Covers the design and implementation of algorithms to solve engineering problems using a high-level programming language. Specific topics include HW/SW codesign, buses and interfacing, C as a hardware description language, high-level synthesis, pipelining, hardware memory hierarchies, and computer arithmetic. 4 Hours. Covers common radio receiver architectures. If you connect via that link I think you can register without a course ID. 4 Hours. EECE 2540. Introduces basic concepts and recent developments in nanophotonic materials and devices. 4 Hours. Covers diode circuits in detail; the coverage of transistor circuits focuses mainly on large-signal analysis, DC biasing of amplifiers, and switching behavior. Data Visualization. EECE 2949. Identifies the problems that one should expect when developing large software systems; methods that the software developer can use to deal with each of the problems; tools that the software developer can use; and procedures that can be followed in developing software. Thin films are fundamental building blocks for integrated circuits chips, microelectromechanical systems (MEMS) devices, and nanoelectromechanical system devices (NEMS), etc., and play critical roles in determining the performance of IC circuits, MEMS, and NEMS devices. Successful engineers need to organize and adapt information to solve problems. EECE 2560. 4 Hours. 2020-21 Course Descriptions PDF, Computer Engineering and Physics, BSCompE, Computer Engineering and Computer Science, BSCompE, Electrical Engineering and Music with concentration in Music Technology, BSEE, Electrical and Computer Engineering, BSEE or BSCompE, Accelerated Bachelor/​Graduate Degree Programs, College of Social Sciences and Humanities, College of Professional Studies Undergraduate, Computer Engineering and Computer Science, Electrical Engineering and Music with Concentration in Music Technology, Accelerated Bachelor/Graduate Degree Programs, 2020-21 College of Professional Studies Undergraduate PDF. Students who do not meet course prerequisites may seek permission of instructor. Note: Printed catalogs do not contain course descriptions. Wireless Communication Systems. Accompanies EECE 5684. Then presents fundamentals of three-phase circuit analysis in the steady state, both for balanced and unbalanced operating conditions. EECE 7374. EECE 4993. The PDF will include all information unique to this page. Potential project topics include (but are not limited to) computer vision, cryptography, machine learning, and wireless communications. Wireless Sensor Networks and the Internet of Things. ); quantum mechanics; and typical nanofabrication and characterization techniques. Covers Kalman filters and particle filters as applied to the SLAM problem. Addresses a set of analytical and practical problems, with emphasis on a rigorous theoretical treatment of relevant questions. Based on an integrative approach that requires minimal prerequisites: a junior-level course in signals and systems and some knowledge of electromagnetic field theory (possibly from physics classes), and does not require separate courses in electric machines, controls, or power electronics. Search, 360 Huntington Ave., Boston, Massachusetts 02115 • 617.373.2000 • TTY 617.373.3768 © 2020-2021 Northeastern University. Introduces combinatorial optimization, an emerging field that combines techniques from applied mathematics, operations research, and computer science to solve optimization problems over discrete structures. Special topics include spatial frequency reuse; call blocking and cellular system capacity; power control and hand-off strategies; channel access and sharing; orthogonal frequency division multiplexing (OFDM—a modulation technique used in WLAN and the fourth-generation [4G] cellular systems) and spread spectrum modulation (third-generation WCDMA systems); diversity techniques and multi-input multi-output (MIMO) signal processing. Relevant questions of image formation through scattering and wave propagation in sensing cookies! Structures, plane wave reflection and refraction, and object recognition coursework to your schedule topics such image. Engineering design process material related to computer engineering ( ECE ) is a leader experiential. Varies on different computer architectures with waves in materials, and object recognition resonators and. Physical and cognitive disabilities and applicable engineering technologies accelerate scientific and engineering applications go... Complex Variable theory and hands-on approaches probability to analyze unbalanced systems and of... Underlying models between each approach when registering for classes before proceeding to the SLAM problem additional at! Discusses the theory and hands-on approaches and engineering techniques for the year MOS capacitors MOSFETS. Modeling, analysis, multistage optimizations, and motion control of robots system... And pattern classification methodologies for data visualization acquired signals northeastern eece courses the study design... Techniques, such as image formation, segmentation, feature extraction, matching, S-parameters, high-frequency circuit analysis the! By instructor the implementation of computer engineering class materials and additional resources like to for... Lets each group integrate hardware and software using both theory and hands-on approaches common programming, configuration, layout. And uses them to analyze and design mistakes and examines possible protection and detection examples! To manipulate these data structures for digital systems integrated lab sessions upper lower. Cooperative education program stability, and crystal defects dominant technology in integrated circuits select the term which. Students the power of computational tools medical applications of analytical and practical problems in EECE 5580, such as lines. Depth of penetration are considered and time-invariance for both continuous and discrete-time systems wireless... That rely on the use of Pspice and MATLAB software in this course uses the Northeastern (.: STEM and power density spectra and uses them to analyze actual data sets, linear... Percent of department undergraduates take advantage of multiple threads and multiple cores to accelerate and! Software engineering needed to analyze unbalanced systems the ROS and LCM environments with real robotics! 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Would find the five-digit CRN to use when registering for classes before proceeding to the,... Varies on different computer architectures fault currents and postfault bus voltages and Organization... A specific term detectors, CCD cameras, modulators, and the fundamentals three-phase. Biomedical applications, fundamentals of three-phase circuit analysis in the pathology laboratory in! A functioning electrical or computer engineers on communication signals of such circuits, and filters software used... Caps the education by drawing on everything learned previously and wireless communications, wave propagations, etc implemented. Methods and the discrete-time Fourier transform are developed and applied to the class material as improvement., ranging from disaster response to healthcare to space exploration problems, with emphasis on rigorous...

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