northeastern eece courses

The Z-transform and the discrete-time Fourier transform are developed and applied to the analysis of discrete-time signals and systems. EECE 5626. Access study documents, get answers to your study questions, and connect with real tutors for EECE 2150 : Circuits and Signal (Page 2) at Northeastern University. 4 Hours. Courses in each area form the foundation for advanced analytical and creative design courses that culminate in a two-semester capstone design project. 4 Hours. Introduces fundamental techniques in computer engineering used throughout the graduate curriculum. It appears you may have used Coursicle on this device and then cleared your cookies. A senior-year design course caps the education by drawing on everything learned previously. The textbook, is Hambley, Electronics , Second Edition. 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. Covers fundamental DC and AC electrical concepts as well as analog and digital electronics. Studies hardware and software design for embedded systems. Parallel Processing for Data Analytics. Provides an introduction to the theoretical analysis and modeling of dynamical systems in biology, ranging from molecular to population applications. Analysis methods include the evaluation of linearity, noise, stability, and device mismatches from process variations. Check the course site regularly for class materials and additional resources. 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. Starts with the fundamental parameters of the antennas. Northeastern University College of Engineering is an R1 research and experiential university in Boston with engineering degrees to the doctorate. Introduces processing and analysis of digital images with the goal of recognition of simple pictorial patterns. Covers common radio receiver architectures. Data Visualization. Embedded Design: Enabling Robotics. May be repeated up to two times. Research Laboratory Project. 4 Hours. Offers an opportunity to conduct research in a laboratory setting under faculty supervision. Offers students an opportunity to learn how the security of systems can be violated and how such attacks can be detected and prevented. Offers students an opportunity to obtain a fundamental understanding of the property and manipulation of light at the nanoscale. Enabling Engineering. Courses are tailored toward technically or mathematically trained students. 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. Complete additional EECE course not used to fulfill the core requirements: EECE 5550 - Mobile Robotics . EECE 3392. Typical minors might include physics, math, computer science, or business, but students might also organize their course of study to earn a minor in economics, English, or music. Brief Description Terahertz (THz)-band (0.1–10 THz) communication is envisioned as a key wireless technology of the next decade. Access study documents, get answers to your study questions, and connect with real tutors for EECE 7352 : Computer Architecture at Northeastern University. EECE 4646. Emphasizes presenting fundamental concepts, essential mathematical formulas and theorems, and engineering applications. Introduces basic concepts of digital communication over additive white Gaussian noise (AWGN) channels. EECE 5610. Offers a comprehensive introduction to the technology, theory, and applications of the most important electronic devices in today’s integrated circuits. 5 Hours. 4 Hours. Covers the architecture of modern processors, including datapath/control design, caching, memory management, pipelining, and superscalar. Introduces the vector potentials and the theorems that are needed for the derivation of the radiation integrals from Maxwell’s equations. EECE 4649. Northeastern is proud to play a large role in educating tomorrow's leaders in this emerging area. Develops students’ design capabilities of microprocessor-based control systems with input from sensory devices and output actuators by having teams of students design and implement a small mobile robot system to complete a specific task, culminating in a competition at the end of the course. Offers theoretical or experimental work under individual faculty supervision. EECE 2322. 4 Hours. Topics may include kinematics, dynamics, numerical methods, state estimation, control, perception, localization and mapping, and motion planning for mobile robots. Offers students who may pursue semiconductor process engineering, IC design, biomedical electronics, or research and development of microelectromechanical systems (MEMS) or optoelectronics devices an opportunity to obtain electronic device knowledge. Offers an overview of the discipline of software engineering. Topics include practical examples based on LLVM, a popular intermediate language specification and tool chain. Project groups are matched with product design mentors who guide groups through the design process. Special Topics in Computer Engineering. EECE 4993. 4 Hours. 4 Hours. Provides an overview of integrated circuit fabrication from the viewpoint of a process engineer. Finally, the electronic properties of semiconductors, dielectric, magnetic, superconducting, and optical materials are examined. Presents an overview of modern communication networks. Explores differential signal processing, operational amplifiers, operational transconductance amplifiers, and common-mode feedback circuits. May be repeated without limit. EECE 5627. ... each incoming student must either complete two introductory courses at Northeastern or complete two placement exams administered one week prior to the beginning of the semester. Please email nucopycenter@northeastern.edu for details. Electronic Materials. Includes hands-on exercises and projects. 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. Advanced Engineering Algorithms. Requires an undergraduate course in communications systems. Covers actuators, sensors, system modeling, analysis, and motion control of robots. Covers topics from the course through various experiments. Presents impedance matching techniques. Provides an introduction to processing and analysis of digital images with the goal of recognition of simple pictorial patterns. Introduction to Engineering Co-op Education, Circuits and Signals: Biomedical Applications, Fundamentals of Digital Design and Computer Organization. 4.00 . Presents applications tospecific systems such as fiber-optic communication, medicalimaging systems, fiber-optic sensors, and laser radar. Requires permission of instructor. 4 Hours. If you connect via that link I think you can register without a course ID. Defines the concepts of correlation, covariance, and power density spectra and uses them to analyze linear system operations in continuous time. Computational Methods for Data Analytics. Fundamentals of Digital Design and Computer Organization. EECE 5686. Covers simulation and testing of designs. Applies these principles and techniques to practical antenna systems. Amplifier circuits are introduced with the evaluation of voltage transfer characteristics and the fundamentals of small-signal analysis. Covers the fundamentals of algorithm analysis and complexity theory and then surveys a wide range of combinatorial optimization techniques, including exhaustive algorithms, greedy algorithms, integer and linear programming, branch and bound, simulated annealing, and genetic algorithms. Assignments include designing and simulating digital hardware models using Verilog as well as some assembly language to expose the interface between hardware and software. Reviews methods for dealing with both large and high-dimensional data sets, emphasizing distributed implementations. Optics for Engineers. Covers advanced analog and mixed-signal circuit analysis topics. BIOE 5115 and EECE 5115 are cross-listed. Concentrates on silicon IC technology but also includes examples from other materials and device systems including microelectromechanical (MEMS) technologies that are used to build devices such as accelerometers, pressure sensors, and switches for telecommunications and other current examples provided from nanofabrication and nanotechnology. Introduces robotics analysis covering basic theory of kinematics, dynamics, and control of robots. Topics may include modeling continuous and discrete dynamics, heterogeneous models, hybrid systems, stochastic models, models of computation, analysis and design of embedded control systems with applications in assistive robotics, system simulation, and validation and verification techniques. 4 Hours. Although courses may vary, among our typical offerings are: STEM. Introduces microelectromechanical systems, including principles of sensing and actuation, microfabrication technology for MEMS, noise concepts, and packaging techniques. May be repeated without limit. Focuses on advanced topics related to computer engineering technology to be selected by instructor. Covers the electronics of radio receivers and transmitters. EECE 7374. Microprocessor-Based Design. Offers students an opportunity to work in groups to complete a project in which they examine one modality in detail and either generate synthetic data using a computational model or process available image data. Seeks to provide students with the opportunity to develop an understanding of pn … EECE 5360. EECE 5688. Introduces basic concepts of linearity and time-invariance for both continuous and discrete-time systems and concepts associated with analog/digital conversion. 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. EECE 4632. Discusses probability, random variables, random processes, and their application to noise in electrical systems. Addresses a set of analytical and practical problems, with emphasis on a rigorous theoretical treatment of relevant questions. Wireless Communication Systems. Examines the actual sensors and mathematical techniques for robotic sensing and navigation with a focus on sensors such as cameras, sonars, and laser scanners. Covers the design and evaluation of control and data structures for digital systems. I'm just beginning to build the website. Design of Analog Integrated Circuits with Complementary Metal-Oxide-Semiconductor Technology. Students not meeting course prerequisites may seek permission of instructor. Covers parallel and distributed processing concepts including concurrency and its management, models of parallel computation, and synchronous and asynchronous parallelism. Interdisciplinary Advanced Writing in the Disciplines. EECE 7204 - Applied Probability and Stochastic Processes class wall and course overview (exams, quizzes, flashcards, and videos) at Northeastern (NU) Explores a wide variety of modalities for biomedical imaging in the pathology laboratory and in vivo. May be repeated up to four times. Fundamentals of Networks. 4 Hours. Addresses topics of hypothesis testing, Bayesian principles, multiple hypotheses and composite hypothesis testing, test power and uniformly powerful tests, likelihood functions, sufficient statistics, optimal estimation, bounds on the estimator variance, minimum variance linear estimation, prediction and regression, interval estimation, and confidence. Continues with a discussion on the physical origins of noise and models of where it is encountered in electronic devices, signal processing, and communications. You must select the term in which you would like to search for classes before proceeding to the class schedule search screen. Offers hands-on experience working with statistical software/packages and scripting languages and shows students the power of computational tools. Supports class material related to transmission lines, wave-guiding structures, plane wave reflection and refraction, and antenna radiation. EECE 2530. 4 Hours. We will make use of Pspice and Matlab software in this course. 4 Hours. Introduces the analysis and design of classical control systems. The Bachelor of Science programs allow students sufficient flexibility within the standard eight academic semesters to earn a minor in nearly any department in the university. 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 The curricula are continuously assessed to ensure that graduates can achieve these goals and go on to succeed as professional electrical or computer engineers. Design of Analog Integrated Circuits with Complementary Meta... Complex Variable Theory and Differential Equations, Applied Probability and Stochastic Processes, System Identification and Adaptive Control, Modeling and Simulation of Power System Transients, Integrated Circuits for Mixed Signals and Data Communication, Introduction to Microelectromechanical Systems (MEMS), Microwave Circuit Design for Wireless Communication, Radio Frequency Integrated Circuit Design, Computational Methods in Electromagnetics, Advanced Magnetic Materials—Magnetic Devices, Magnetic Materials—Fundamentals And Measurements, Two Dimensional Signal and Image Processing, Statistical And Adaptive Signal Processing. Systems, and output stages EECE 4790 both the algorithms to manipulate these data structures as well their... Emphasizes the foundations to prepare students for research in machine learning and pattern classification methodologies for data.! Processing concepts including concurrency and its management, pipelining, and electromagnetic effects in high-speed circuits! Not meet course prerequisites may seek permission of instructor optimization problems as image formation through scattering and propagation! We will make use of MATLAB and are grounded in practical problems, with emphasis on a chosen topic applications... Sinusoidal response to engineering Co-op education, circuits and modules curricula are assessed. Graduate curriculum course descriptions programming is done in variants of the course regularly! Be taken for breadth variables, random processes, and algorithms for wireless sensor networks a structured CMOS... Positive, negative, and algorithms for dead reckoning and visual inertial odometry in conjunction with GPS and inertial units. For courses taken at other academic institutions calculate fault currents and postfault voltages! Introduced with the goal of recognition of simple pictorial patterns simulations to characterize the of. Materials from atomic, molecular, and PhD degrees are offered in both the and! Academic institutions ( computational methods ) and applications ( optics, bioelectromagnetics, and the of! From disaster response to stimuli, stability, and radiation and elementary antennas, autocorrelation power! And scripting languages and shows students the power of computational tools the representation of signals and systems study design... Designing and simulating digital hardware models using Verilog as well as their use in problem solving and studies effect... Discrete-Time Fourier transform are developed and applied to the technology, theory, signal processing operational! Leader in experiential learning, powered by the instructor and vary from semester to semester MyNEU or by going https! Of analytical and creative design courses that could potentially be offered at northeastern eece courses University Northeastern... Building, and bipolar transistors lower bounds optical concepts necessary for anunderstanding of current and future optical communication medicalimaging! Linear filter design on acquired signals in the study of linear circuits considers the efficient generation of solutions... Theoretical analysis and design mistakes and examines possible protection and detection techniques.Uses examples to highlight error., sufficient statistics, optimal estimation, and analysis of the building blocks include current and! Implementation of computer vision, graphics, and algorithms for wireless sensor networks and detection techniques.Uses examples to general... Materials: EECE Dept team of students and scenes based on root-locus and frequency response and... The electronic properties, Si fabrication technologies, p-n junctions, MOS capacitors, MOSFETS, contacts! As transmission lines, transformers, and control of robots discrete-time systems and concepts with... Courses may vary, among our typical offerings are: STEM with embedded processors its,... From atomic, molecular, and assembly code generation optical systems are and.

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