PHYS 3602. Power Management Integrated Circuits. Simulation and Performance Evaluation. Studies the principles of inexact (approximate) computing through arithmetic and circuit design. 4 Hours. Reviews frequency domain signal analysis through treatment of noiseless analog communication. Includes attendance at Distinguished Lecture Series (DLS). 4 Hours. Continues EECE 7202. Department of Chemical Engineering. 4 Hours. Parallel Processing for Data Analytics. Covers transmission lines, impedance matching, S-parameters, high-frequency circuit analysis, power dividers, resonators, and filters. 4 Hours. Microwave Circuit Design for Wireless Communication. 4 Hours. Uses hardware description languages to describe and design both behavioral and register-transfer-level architectures and control units. Course projects emphasize model-based control of humanoids for completing practical tasks from space exploration to disaster response. It must be noted that ECE 403, ECE 404, and ECE 405 (cross-listed with PHYS 358, 233, and 256, respectively) do not count as technical electives; they are List-1 Natural Science Electives ().. Other ECE courses acceptable as technical electives for electrical engineering students. Topics include linearity, time invariance, causality, stability, convolution, system interconnection, and sinusoidal response. EECE 7214. 4 Hours. Focuses on performance of CMOS and BiCMOS implementations of building blocks for these systems. EECE 5641. Covers fundamentals of operating systems (OS) design, including theoretical, OS-generic design considerations as well as the practical, implementation-specific challenges in the development of a real OS. The Capstone Design Courses are taken as follows: (EECE4790 - Summer 1 and EECE4792 - Spring) OR (EECE4790 - Summer 2 and EECE4792 - Fall) * ENGW3315. Course lectures will be available online for remote students. The goal of the field of computer vision is to make useful decisions about real physical objects and scenes based on sensed images. EECE 7270. 4 Hours. Introduces basic device and signal models and circuit laws used in the study of linear circuits. EECE 7271. Microwave Circuits and Networks. EECE 7213. CS 4300 Computer Graphics 4. Treats the analysis and design of analog ICs, their functional performance, and applications. Information Theory. The first part of the course emphasizes understanding and modeling of such circuits, and provides a background for engineering evaluation of power converters. 4 Hours. The second part covers standardization efforts, including Bluetooth, IEEE 802.15.4 and Zigbee, RFID, 6LowPan, and Internet of Things, among others. 4 Hours. Complete 8 additional semester hours from either the depth or breadth course lists below: Course Lists Depth Courses. Complete 20 semester hours from the depth course list below. Has anyone taken it before that would recommend it? Covers advanced analog and mixed-signal circuit analysis topics. 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. Students may take elective coursework outside these lists only with the prior approval of the program director. Offers theoretical and/or experimental work conducted under the auspices of the department. Includes attendance at Distinguished Lecture Series (DLS). Assignments include designing and simulating digital hardware models using Verilog as well as some assembly language to expose the interface between hardware and software. BSEE Flow Chart (Note EECE 3201 is a prerequisite for EECE 3204) Old Curriculum (2013-2014 Catalog) BSEE Degree Sheet; BSEE Flow Chart; General Education Accelerated Bachelor/Masters. Includes experiments with microwave transmission line measurements and the determination of the properties of dielectric materials, network analyzer analysis of microwave properties of circuit elements and transmission line electrical length, analysis of effective dielectric constant and loss from microstripline resonator transmission, optical measurement of refraction and reflection leading to determination of Brewster angle and optical constants for transparent and absorbing materials, and measurement of radiation patterns from dipole antennas. EECE 432 - Physics & Tech of Solar Cells. 4 Hours. EECE 5610. 3 Required CE … EECE 7296. 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). Discusses in detail two major adaptive schemes, model reference adaptive control (MRAC) and self-tuning regulators (STR). Also addresses compensator design based on root-locus and frequency response, and modern control system design using state-variable feedback. EECE 7336. Offers a comprehensive introduction to the technology, theory, and applications of the most important electronic devices in today’s integrated circuits. The uses of the building blocks are demonstrated for the design of popular ICs, such as operational amplifiers and voltage comparators. ); quantum mechanics; and typical nanofabrication and characterization techniques. 1-4 Hours. Covers fundamental algebraic concepts and algebraic structures. The first half of the course focuses on the compiler front end, based on a lexical analyzer, syntax parser, and intermediate code generator. ARCH 5210. The goal of computer vision is to make useful decisions about real physical objects and scenes based on sensed images. Addresses novel applications of analytical and engineering techniques for RF/Microwave Circuits. Introduces topics such as image formation, segmentation, feature extraction, matching, shape recovery, dynamic scene analysis, and object recognition. 4 Hours. Elective: Complete 8 additional semester hours from either the depth or breadth course lists below. EECE 7201. Dissertation Term 2. Studies machine learning (the study and design of algorithms that enable computers/machines to learn from experience/data). Provides an introduction to the theoretical analysis and modeling of dynamical systems in biology, ranging from molecular to population applications. 4 Hours. EECE 7297. Hope this list will help students select their electives! Achieving this goal requires obtaining and using descriptions (models) of the sensors and the world. Offers analytical and/or experimental work conducted under the auspices of the department. Recognizes that system complexities are growing exponentially, driven by ever-increasing application demands and technological advances that allow one to put complete multiprocessor systems on a chip (MPSoCs). 4 Hours. 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 Course List; Code Title Hours; EECE 5552. Design of Analog Integrated Circuits with Complementary Metal-Oxide-Semiconductor Technology. Covers a wide range of disciplines, from electronics to mechanics, material properties, microfabrication technology, electromagnetics, and optics. EECE Tech Elective 1 ; 4 EECE2150 Circuits/Signals: Biomed Apps. Primarily covers both classic and timely techniques in the area of performance evaluation, including capacity planning to predict system performance, scheduling, and resource allocation in computer systems. 4 Hours. Covers fundamentals of probabilistic system modeling, building toward techniques that allow analyzing complex stochastic systems in a tractable fashion. Applied Probability and Stochastic Processes. Administrative policies, academic curricula, and course descriptions. Northeastern combines rigorous academics with experiential learning and research to prepare students for real-world engineering challenges. Comprises the theory of functions of a complex variable. Course List; Code Title Hours; EECE 5115. Performance analysis is another fundamental theme of this course. Topics include modeling and layout of CMOS, bipolar, BiCMOS devices, and passive components; DC building blocks, including precision current and voltage references; performance analysis of signal gain, impedances, and frequency response and speed of basic/compound amplifier structures; architectures of operational amplifiers, including low-voltage, OTAs, and three-stage designs; feedback and performance merits, topologies, instability, and frequency compensation of feedback amplifiers; nonlinear and analog computation IC functions; noise in ICs, physical origins and device modeling , noise circuit analysis, SNR and NF, and techniques for the enhancement of system noise performance. Dynamical Systems in Biological Engineering. Covers design and modeling of architectures, communication protocols, and algorithms for wireless sensor networks. 4 Hours. 4 Hours. Modern computers take advantage of multiple threads and multiple cores to accelerate scientific and engineering applications. Advanced Power Electronics. Special Problems in Electrical and Computer Engineering. Covers aspects of power electronics not studied in other courses. Assistive Robotics: EECE 5576. ECE Depth Courses as listed in the catalog Academic Advising For support with academic questions, students should reach out to their undergraduate academic advisor in their home college as well as the Graduate School by emailing email@example.com for more information about the PlusOne pathway of interest within COE. Covers common programming, configuration, and design mistakes and examines possible protection and detection techniques.Uses examples to highlight general error classes. Practical measurements include use of voltmeters, ammeters, ohm meters, and impedance meters, as well as oscilloscope measurements of frequency, gain, distortion, and upper- and lower-cutoff frequencies of amplifiers. Electrical Engineering. Unrestricted Technical Electives (12 SH): 11 IV. Includes a number of practical lab assignments that require students to apply their knowledge, as well as engage in a discussion of the current research in the field. Accompanies EECE 2210. 4 Hours. Through a mix of lectures and paper discussions, offers students an opportunity to learn how parallel computing systems work and review recent research related to scalability, energy efficiency, sustainability, resilience, and big data management. EECE 7202. Topics include linear operators and their representations; matrices, algebraic equations, equivalence, and similarity transformations; introduction to the state-variable theory of continuous and discrete linear systems; standard canonical representations, the concept of state, and the representation of interconnected systems, linear spaces, the state equations, and their solution; stability; and introduction to the general control problem in terms of controllability and observability. 4 Hours. Presents numerical techniques used in solving scientific and engineering problems with the aid of digital computers. 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. Covers theory and practice of modern signal processing techniques with emphasis on optimal filtering and multirate signal processing. 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. Fundamentals of Engineering Algorithms. 4 Hours. EECE 4622. Applied Probability and Stochastic Processes. Course content depends on instructor. 2020-21 College of Professional Studies Undergraduate PDF Requires concurrent registration in EECE 5580. EECE 7237. 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. Discusses synchronization systems, analysis of PLL in the presence of noise, methods of timing recovery, channel capacity, and Shannon’s noisy channel coding theorem. 4 Hours. Introduces combinatorial optimization, an emerging field that combines techniques from applied mathematics, operations research, and computer science to solve optimization problems over discrete structures. Covers the practical aspects of control systems design through lab experiments. Offers an opportunity to conduct research in a laboratory setting under faculty supervision. Introduces basic computational and mathematical techniques for modeling, simulating, and analyzing the performance by using simulation, including models, random-number generation, statistics, and discrete event-driven simulation. Topics include transmission lines: transmission line model with distributed circuit elements, transmission line equations and solutions, one-dimensional traveling and standing waves, and applications; electromagnetic field theory: Lorentz force equations, Maxwell’s equations, Poynting theorem, and application to the transmission line’s TEM waves. From all MSECE concentrations jointly covers hardware and software is one very important area... Integrated lab sessions theoretical or experimental work under the auspices of the art processor! If time permits, resolution, and radiation and elementary antennas back end, based on,! 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