Programming is done in variants of the C programming language. 4 Hours. Covers classical and modern algorithms that efficiently solve hard electrical and computer engineering optimization problems. This is where you would find the five-digit CRN to use when registering for classes. Introduces the analysis and design of classical control systems. 4 Hours. Expects students to evaluate progress with interim milestone reports and to present the final design project with written and oral reports. EECE 7201 at Northeastern University (Northeastern) in Boston, Massachusetts. 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. Covers both the algorithms to manipulate these data structures as well as their use in problem solving. Covers common radio receiver architectures. Communications Systems. myNortheastern • Software Engineering 1. 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. Continues EECE 4790. Lectures are supported by illustrative examples and hands-on exercises that rely on the use of MATLAB and are grounded in practical problems. 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). Computer vision brings together imaging devices, computers, and sophisticated algorithms to solve problems in industrial inspection, autonomous navigation, human-computer interfaces, medicine, image retrieval from databases, realistic computer graphics rendering, document analysis, and remote sensing. These are used in association with techniques and algorithms for dead reckoning and visual inertial odometry in conjunction with GPS and inertial measurement units. Micro- and Nanofabrication. 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. Special Topics in Electrical and Computer Engineering. EECE 2150 - Circuits and Signal (167 Documents) EECE 2322 - Digital Logic Design (126 Documents) EECE 3468 - NOISE AND STOCHASTIC PROCESSES (100 Documents) EECE 2412 - Introduction to Electronics (66 Documents) Presents methods to calculate fault currents and postfault bus voltages. The resulting project is a tool capable of interpreting a subset of the C programming language and generating an executable program represented with MIPS assembly code. EECE 2540. Embedded Design: Enabling Robotics. EECE 5698. Introduces basic device and signal models and circuit laws used in the study of linear circuits. Reviews foundations of stochastic processes including stationarity, ergodicity, autocorrelation, power spectrum, and filtering. The PDF will include all information unique to this page. Discusses the representation of signals and systems in both the time and frequency domain. Covers biomedical optics and discusses the theory and practice of biological and medical applications of lasers. Offers hands-on experience working with statistical software/packages and scripting languages and shows students the power of computational tools. Introduces robotics analysis covering basic theory of kinematics, dynamics, and control of robots. The Z-transform and the discrete-time Fourier transform are developed and applied to the analysis of discrete-time signals and systems. 617.373.7529 EECE 5626. Introduces the fundamental concepts of acoustics and sensing with waves. EECE 5554 - Robotics Sensing and Navigation . The academic program is supported by extensive laboratory facilities for study and experimentation in computing, circuit analysis, electronics, digital systems, microwaves, control systems, semiconductor processing, very large-scale integration (VLSI) design, and digital signal processing. Presents numerical techniques used in solving scientific and engineering problems with the aid of digital computers. Requires concurrent registration in EECE 5581 for undergraduate students. Courses are tailored toward technically or mathematically trained students. Introduces basic concepts and recent developments in nanophotonic materials and devices. 2020-21 College of Professional Studies Undergraduate PDF EECE 5554. Please see the programs tabfor a list of the department's academic programs. Explores a wide variety of modalities for biomedical imaging in the pathology laboratory and in vivo. More than 90 percent of department undergraduates take advantage of the cooperative education program. Professor and Chair, 409 Dana Research Center EECE 7244 at Northeastern University (Northeastern) in Boston, Massachusetts. They also must work effectively in teams and communicate well. 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. Applies these principles and techniques to practical antenna systems. Analysis methods include the evaluation of linearity, noise, stability, and device mismatches from process variations. EECE 387 - Design Lab. Lectures cover relevant topics, including surveys of specific physical and cognitive disabilities and applicable engineering technologies. Covers introduction to multiferroics, atomic structure of multiferroics (chemistry), multiferroic material science, continuum-level analysis of multiferroic materials, and multiferroic devices. Finally, the electronic properties of semiconductors, dielectric, magnetic, superconducting, and optical materials are examined. The schedule of classes lists all of the classes that are available for registration in a specific term. 4 Hours. EECE 2210. Microprocessor-Based Design. Digital Signal Processing. 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 7203 - Complex Variable Theory and Differential Equations . Introduces the programming tools, algorithms, and software tools used in data analytics. 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. 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. Examines fundamental principles of wireless system design, focusing on modern techniques used in cellular systems and wireless local area networks. Uses hardware description languages to describe and design both behavioral and register-transfer-level architectures and control units. EECE 4626. Includes hands-on exercises and projects. 4 Hours. 4 Hours. EECE 7374. Covers fundamental DC and AC electrical concepts as well as analog and digital electronics. 4 Hours. High-Level Design of Hardware-Software Systems, Operating Systems: Interface And Implementation, Preparing High-Stakes Written and Oral Materials, Special Problems in Electrical and Computer Engineering. 4 Hours. BIOE 5115 and EECE 5115 are cross-listed. Considers the efficient generation of optimal solutions, the development and evaluation of heuristics, and the computation of tight upper and lower bounds. 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. Covers the architecture of modern processors, including datapath/control design, caching, memory management, pipelining, and superscalar. 4.00 . EECE 5161. Covers experiments reinforcing basic electronics topics such as diodes, bipolar junction transistors (BJT) as a switch, BJT amplifiers, and MOSFET circuits for switching and amplification. 4 Hours. 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. In the hands-on labs, offers students an opportunity to follow the steps of creating a startup or conducting new research and assembling a microcontroller-based sensor system for collecting digital biomarkers. Modern computers take advantage of multiple threads and multiple cores to accelerate scientific and engineering applications. EECE 5645. Examines control system objectives, modeling and mathematical description, transfer function and state-variable representations, feedback control system characteristics, system responses, and stability of feedback systems. Course material includes state-of-the-art in the field, current research trends, and algorithms and their applications, with an emphasis on the mathematical methods used. Find Faculty & Staff • Begins with the basic theory of discrete and continuous probabilities, then develops the concepts of random variables, random vectors, random sequences, and random processes. Introduces fundamentals of statistical inference and data analysis through concepts of detection, estimation, and related signal processing algorithms. High-Performance Computing. Studies hardware and software design for embedded systems. May be repeated without limit. 4 Hours. You can recover your data by answering these questions. 617.373.4431 (fax). Srinivas Tadigadapa, PhD Includes a software development project that covers all the stages of the life cycle. Topics include difference and differential equation models, with basic theory including nondimensionalization, steady states, linearization, stability, eigenvalues, global behavior, singular perturbations, multistability, hysteresis, cooperativity, periodic solutions, excitable systems, bifurcations, and an introduction to spatial (PDE) models. Digital electronics topics include CMOS logic gates, dynamic power dissipation, gate delay, and fan-out. Beyond covering the theory behind statistical data analysis, the course also offers a hands-on approach, using Spark as a development platform for parallel learning. The final exercise is a project that lets each group integrate hardware and software to realize a complete embedded design. Offers a unified theoretical approach to the physics of image formation through scattering and wave propagation in sensing. Topics include practical examples based on LLVM, a popular intermediate language specification and tool chain. Covers a range of algorithms, focusing on the underlying models between each approach. The second part covers standardization efforts, including Bluetooth, IEEE 802.15.4 and Zigbee, RFID, 6LowPan, and Internet of Things, among others. These problems arise in a wide range of disciplines–including computer-aided design, parallel computing, computer architecture, and compiler design–and are usually NP-complete, making it unlikely that optimal solutions can be found in a reasonable amount of time. EECE 4604. Studies machine learning (the study and design of algorithms that enable computers/machines to learn from experience/data). EECE 5652. Introduction to Software Security. EECE 5638. Emergency Information • Employs a commercial radio transceiver (MFJ-9340) as a learning tool. Biomedical Imaging. ); quantum mechanics; and typical nanofabrication and characterization techniques. May be repeated up to two times. The high-frequency circuit models of transistors are described and used to evaluate the frequency responses of amplifiers. I believe this will work regardless of how you purchased your … 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. Covers common programming, configuration, and design mistakes and examines possible protection and detection techniques.Uses examples to highlight general error classes. Covers examples from a variety of scientific, medical, interactive multimedia, and artistic applications. 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. Topicsinclude geometrical optics, polarized light, diffraction, andinterference. 4 Hours. 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. Covers actuators, sensors, system modeling, analysis, and motion control of robots. Introduces the vector potentials and the theorems that are needed for the derivation of the radiation integrals from Maxwell’s equations. Electrical and Computer Engineering Capstone 1. Exercises are centered around a common embedded platform. Covers concepts of correlation, regression analysis, classification, and decomposition. Design of Analog Integrated Circuits with Complementary Metal-Oxide-Semiconductor Technology. 4 Hours. Includes receiver noise and sensitivity; transmitter range; spurious emissions and IM distortion; antennae and propagation in the atmosphere; wireless standards; multiple-access techniques; and software-defined radio. EECE 5360. Electrical Engineering. 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. May be repeated without limit. Offers an opportunity to conduct research in a laboratory setting under faculty supervision. EECE 5642. Provides an overview of integrated circuit fabrication from the viewpoint of a process engineer. EECE 2750. Wireless Communication Systems. Introductory Directed Research in Electrical and Computer Engineering. Blackboard: This course uses the Northeastern University Blackboard Course Management System accessible through MyNEU or by going to https://blackboard.neu.edu. May be repeated without limit. Classical Control Systems. They also must work effectively in teams and communicate well. Covers accelerating scientific and other applications on computer clusters, many-core processors, and graphical processing units (GPUs). If time permits, also covers digital PAM transmission through band-limited AWGN channels, zero ISI condition, system design in the presence of channel distortion, and equalization techniques. Offers students an opportunity to program using assembly language and to simulate execution. Parallel and Distributed Processing. 4 Hours. 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. Covers the fundamentals of parallel machine-learning algorithms, tailored specifically to learning tasks involving large data sets. Presents a range of topics that include assembly language programming, number systems, data representations, ALU design, arithmetic, the instruction set architecture, and the hardware/software interface. Presents an overview of modern communication networks. Introduces fundamentals of statistical inference and data analysis through concepts of detection, estimation, and related signal processing algorithms. Interdisciplinary Advanced Writing in the Disciplines. EECE 5155. I'm just beginning to build the website. Discusses metrics and benchmarking techniques used for evaluating performance. Topics include tools and techniques for practical visualization and elements of related fields, including computer graphics, human perception, computer vision, imaging science, multimedia, human-computer interaction, computational science, and information theory. Introduces processing and analysis of digital images with the goal of recognition of simple pictorial patterns. Covers Kalman filters and particle filters as applied to the SLAM problem. Check the course site regularly for class materials and additional resources. Topics may include kinematics, dynamics, numerical methods, state estimation, control, perception, localization and mapping, and motion planning for mobile robots. Complete 16 semester hours from the course list. Introductory Directed Research in Electrical and Computer En... Healthcare Technologies: Sensors, Systems, and Analysis, Hardware-Software Codesign for FPGA-Based Systems. All the necessary information about device models, homework, examinations, 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. Students have access to state-of-the-art computing facilities, including numerous Linux and Windows-based workstations. 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. Introduces the basic concepts related to circuits and circuit elements; current, voltage, and power; models for resistors, capacitors, and inductors; and circuit analysis using Kirchhoff’s laws. Topics include theory of interpolation; the theory of numerical integration and differentiation, numerical solutions of linear as well as nonlinear systems of equations, the theory of least squares; and numerical solution of ordinary and partial differential equations using a programming environment such as MATLAB. EECE 4632. 4 Hours. For a list of the design and computer engineering problems and implement the project proposed that... Interim milestone reports and to present the final exercise is a discipline that prepares graduates solve. 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