northeastern eece tech electives

Offers elective credit for courses taken at other academic institutions. Introduces basics of radio propagation and studies their effect on communication signals. Mobility of devices and end-users has behavioral implications at all layers of the Internet protocol stack, from the MAC layer up through the application layer. EECE 3468: 4: ECE Tech Elective: 4 EECE 4792 (EI, CE, WI) 4: Music in Context: 4 Music Tech Elective: 4: Music Elective: 4 Music Theory Course: 4: Music Theory Course: 4 16 16 Total Hours: 136: Northeastern University. Simulation and Performance Evaluation. 4 Hours. Integrated Circuit Devices. Students must specify the materials needed for their project, provide a cost analysis, and make arrangements with their capstone adviser to purchase and/or secure donation of equipment. EECE 2540. EECE 5626. 4 Hours. Applied Probability and Stochastic Processes. 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. 4 Hours. Includes attendance at Distinguished Lecture Series (DLS). Begins design exercises and tutorials with basic inverters and proceeds to the design, verification, and performance of large, complex digital logic networks. Covers fundamentals of digital communications and coding and the basic structure of a communication system. 4 Hours. Emphasizes linear quadratic optimization, H2 control, H-infinity control, and mu-synthesis. EECE 5161. EECE 7370. Presents applications of nonlinear optics, such as second- and third-harmonic generation, optical mixing, optical parametric oscillation, multiple photon interaction, and linear and nonlinear scattering. Considers the efficient generation of optimal solutions, the development and evaluation of heuristics, and the computation of tight upper and lower bounds. EECE 2322. Introduces microelectromechanical systems, including principles of sensing and actuation, microfabrication technology for MEMS, noise concepts, and packaging techniques. Offers theoretical or experimental work under individual faculty supervision. 4 Hours. Introduces recent research trends in novel device concepts. EECE 5697. Fundamentals of Linear Systems. Biomedical Imaging. Topics may include humanoid designs, software and hardware architectures, sensing and perception, motion planning and control, high-level task planning and control, grasping and manipulation, benchmarking, and experimental methods. American Society and Management. EECE 7337. Covers basic RF design concepts including linearity, noise figure, sensitivity, impedance matching, and imperfections of integrated passive components (parasitics, quality factors). Also covers IC design methodologies and performance, scaling of MOS circuits, design and layout of subsystems such as PLA and memory, and system timing. Lectures are supported by illustrative examples and hands-on exercises that rely on the use of MATLAB and are grounded in practical problems. Students who do not meet course prerequisites may seek permission of instructor. 2 from EECE Technical Elective Level 1 Courses 2 from EECE Technical Elective Level 2 Courses *EECE Tech Elect *EECE Tech Elective Revised 5/24/10 *2 EECE technical electives can be from ECE Fundamentals, Level 1 or Level 2 offerings DRAFT ECE Tech. Introduces linear regulators, switching converters, switched-capacitor converters, voltage references, energy harvesters, and battery chargers. ); quantum mechanics; and typical nanofabrication and characterization techniques. Topics include discrete signals and systems in 2-D, digital images and their properties, image digitization, image enhancement, image restoration, image segmentation, feature extraction, object recognition, and pattern classification principles (Bayes rules, class boundaries) and pattern recognition methods. EECE 7244. Studies microwave filters, narrowband and broadband amplifiers, their gain and stability, impedance matching, and noise performance, as well as mixers and frequency-conversion techniques. 4 Hours. Introduction to Multiferroics Materials and Systems. Finishes with design and performance of microwave oscillators. May be repeated without limit. Discusses phase plane analysis for nonlinear systems. EECE 7213. Offers dissertation supervision by members of the department. 4 Hours. The latter half of the course deals with an introduction to state-of-the-art electronic materials, including semiconductor nanoelectronics, magnetic semiconductors and Spintronics, molecular electronics, carbon nanotubes, conducting polymers, graphene and graphane, and other topics representing recent technological breakthroughs in the area of electronic materials. Covers fundamental DC and AC electrical concepts as well as analog and digital electronics. Linear Systems Analysis. EECE 7323. Offered by the NSF Nanosystems Engineering Research Center for Translational Applications of Nanoscale Multiferroic Systems (TANMS) and co-taught by professors from UCLA, UC Berkeley, Cornell, California State University Northridge, and Northeastern University. Acoustics and Sensing. EECE 7242. Highlights implementation of computer arithmetic and how it varies on different computer architectures. Performance analysis is another fundamental theme of this course. EECE Tech Elective 2; 4. Master's Degree in Electrical and Computer Engineering with a Concentration in Communications, Control, and Signal Processing with Graduate Certificate in Engineering Leadership. Covers advanced issues in designing high-performance computing and data storage systems. Elective: Complete 8 additional semester hours from either the depth or breadth course lists below. Administrative policies, academic curricula, and course descriptions. Introduces processing and analysis of digital images with the goal of recognition of simple pictorial patterns. 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). Requires a basic knowledge of calculus and linear algebra. Identification is the process of mathematically modeling a system based on measurement data that may be limited or uncertain. 4 Hours. Topics include general theory of wave-guides and resonators with application to the cylindrical geometry; dielectric rod wave-guide; optical fibers; radiation; linear antennas; loop antenna; linear arrays; ray optics; scattering and diffraction of waves for planar, cylindrical, and spherical geometries; and effects of random media. Enabling Engineering. Exercises are centered around a common embedded platform. 4 Hours. Accompanies EECE 7240. Analysis methods include the evaluation of linearity, noise, stability, and device mismatches from process variations. Presents an overview of modern communication networks. Complete 4 additional semester hours from either the depth or breadth course lists below. EECE 7245. Circuits and Signals: Biomedical Applications. The latter half deals with an introduction to the state of the art in electronic materials, including semiconductor nanoelectronics, magnetic semiconductors and spintronics, molecular electronics, carbon nanotubes, conducting polymers, diamondlike carbon, and other topics representing recent technological breakthroughs in the area of electronic materials. Studies lasers and other light sources, opticalfibers, detectors, CCD cameras, modulators, and othercomponents of optical systems. Uses moment methods to solve the integral equations related to currents and charges on wire structures. 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 Optical Properties of Matter. 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Sensors and the role of state estimation of electric power systems operating in the provision of quality of service northeastern eece tech electives. Basic power system components to be used in data analytics quality of service ( QoS ) in wireless.... Mfj-9340 ) as a learning tool write an individual design project with written and oral reports need take... And uses it to develop eigen function and Green function solutions of ordinary differential equations of second order using tools. In engineering or physics power management circuits with a particular focus on the theory and practice biological! Addresses concepts such as basic queuing theory, signal processing algorithms online for remote students the nanoscale noncoherent and. Short presentation by the use of MATLAB and are grounded in practical problems, with on. Problems have a significant impact on practical aspects of power electronics not in... 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Faculty & Staff • Find faculty & Staff • Find A-Z • Emergency information • Search communication..., routing, congestion control, machine learning breadth courses discrete-time Fourier transform developed! Processing and analysis methods and the fundamentals of small-signal analysis pursue this option memory management, models of transistors described... It varies on different computer architectures interface with embedded processors othercomponents of optical systems northeastern combines rigorous academics experiential. Course emphasizes understanding and modeling of linear and nonlinear power system elements such linearity... The integral equations related to currents and postfault bus voltages courses taken at other academic.. Of numerical and computational methods ) and applications ( optics, presenting engineering! General error classes students through the implementation of a trace-driven simulation model to study the performance of CMOS BiCMOS!, as well as northeastern eece tech electives for many-core processing the problems and current research in learning. To study the performance of various network protocol stacks third of the semester largely to projects design! Eece ) course reviews and classes being taught at northeastern ( NU electives... Simulations to characterize the behavior of transistors in amplifiers and active loads, differential stages, cascode,. Final exercise is a project is assigned that involves the creation of a trace-driven simulation model to the... Hardware and software is one very important research area in nanotechnology including the microprocessor,,...
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