May be repeated without limit. Circuits and Signals: Biomedical Applications. Data Visualization. Srinivas Tadigadapa, PhD 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. 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. May be repeated without limit. Optics for Engineers. 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. Topics include the characteristics of discrete signals and systems, sampling, and A/D conversion; the Z-transform, the Fourier transform, and the discrete Fourier transform; fast Fourier transform algorithms; design techniques for IIR and FIR digital filters; and quantization effects in digital signal processing. Covers examples from a variety of scientific, medical, interactive multimedia, and artistic applications. May be repeated up to four times. Studies lasers and other light sources, opticalfibers, detectors, CCD cameras, modulators, and othercomponents of optical systems. 5 Hours. Therefore, the goal of the electrical engineering and computer engineering programs is to help students develop these skills and provide the appropriate technical background for a successful career. Special Topics in Computer Engineering. Presents methods to calculate fault currents and postfault bus voltages. Blackboard: This course uses the Northeastern University Blackboard Course Management System accessible through MyNEU or by going to https://blackboard.neu.edu. Discusses the representation of signals and systems in both the time and frequency domain. Check the course site regularly for class materials and additional resources. Accompanies EECE 4524. Reviews frequency domain signal analysis through treatment of noiseless analog communication. Design of Analog Integrated Circuits with Complementary Metal-Oxide-Semiconductor Technology. Also covers IC design methodologies and performance, scaling of MOS circuits, design and layout of subsystems such as PLA and memory, and system timing. Students not meeting course prerequisites may seek permission of instructor. 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. Studies the principles of inexact (approximate) computing through arithmetic and circuit design. Explores differential signal processing, operational amplifiers, operational transconductance amplifiers, and common-mode feedback circuits. Finally, the electronic properties of semiconductors, dielectric, magnetic, superconducting, and optical materials are examined. Interdisciplinary Advanced Writing in the Disciplines. EECE 4630 at Northeastern University (Northeastern) in Boston, Massachusetts. Presents numerical techniques used in solving scientific and engineering problems with the aid of digital computers. 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. Topics include simple parallel algorithm formulation, parallelization techniques, interconnection networks, arrays, trees, hypercubes, message routing mechanisms, shared address space and message-passing multiprocessor systems, communication cost and latency-hiding techniques, scalability of parallel systems, and parallel programming concepts and application case studies. 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. Investigates the science and engineering of mobile robots. May be repeated without limit. The goal of computer vision is to make useful decisions about real physical objects and scenes based on sensed images. More than 90 percent of department undergraduates take advantage of the cooperative education program. Covers classical and modern algorithms that efficiently solve hard electrical and computer engineering optimization problems. 4 Hours. Software Engineering 1. Fundamentals of Electromagnetics. The second part deconstructs a compiler back end, based on structural analysis, multistage optimizations, and assembly code generation. Fundamentals of Computer Networks. 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. Research Laboratory Project. Teams of students propose, design, and build a functioning electrical or computer engineering system—just as they might in actual practice. EECE 4626. 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. 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. 1-4 Hours. 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. Music ensemble courses available for undergraduate students to take without added charge. High-Performance Computing. The first part of the course covers general aspects of wireless sensor networking, including protocol design, modeling, and simulation at all layers of the communication stack. Several courses are also available 100% online, allowing you to tailor your coursework to your schedule. Healthcare Technologies: Sensors, Systems, and Analysis. 4 Hours. System models are essential to four key aspects of the assistive robot design process: derivation of executable specifications, hardware and software design based on simulations, implementation by code generation, and continuous testing and verification. 4 Hours. The Z-transform and the discrete-time Fourier transform are developed and applied to the analysis of discrete-time signals and systems. Covers topics from the course through various experiments. 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. Emphasizes MOS devices, which are currently the dominant technology in integrated circuits. Special Topics in Electrical and Computer Engineering. Examines fundamental principles of wireless system design, focusing on modern techniques used in cellular systems and wireless local area networks. Covers sampling and analysis tools for linear discrete-time dynamic systems, including the design of digital control systems using transform techniques by discrete equivalent and direct design methods; root locus, Bode and Nyquist diagrams, and Nichols charts; controller implementation issues, such as digital filter realizations, nonlinear effects due to quantization, round off, dead band, and limit cycles; and selection of the sampling rate. Accompanies EECE 2210. 4 Hours. EECE 2750. The schedule of classes lists all of the classes that are available for registration in a specific term. Focuses on specific topics in nanophotonics, including silicon photonics; photonic crystals; plasmonics and optical metamaterials, with their diverse applications in optical circuits; imaging; optical trapping; biomedical sensing; and energy harvesting. Digital electronics topics include CMOS logic gates, dynamic power dissipation, gate delay, and fan-out. The final exercise is a project that lets each group integrate hardware and software to realize a complete embedded design. 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. BIOE 5115 and EECE 5115 are cross-listed. 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. Brief Description Terahertz (THz)-band (0.1–10 THz) communication is envisioned as a key wireless technology of the next decade. 4 Hours. EECE 5697. Successful engineers need to organize and adapt information to solve problems. Wireless Sensor Networks and the Internet of Things. myNortheastern • Enabling Engineering. Lectures cover relevant topics, including surveys of specific physical and cognitive disabilities and applicable engineering technologies. Introduces modern techniques (computational methods) and applications (optics, bioelectromagnetics, and electromagnetic effects in high-speed digital circuits). Also discusses the applications of algorithm analysis and complexity theory to … If the issue persists, please contact us at support@coursicle.com. Provides an overview of integrated circuit fabrication from the viewpoint of a process engineer. Studies machine learning (the study and design of algorithms that enable computers/machines to learn from experience/data). 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. Introduces fundamentals of statistical inference and data analysis through concepts of detection, estimation, and related signal processing algorithms. ... EECE 5640 - High-Performance Computing . Northeastern University College of Engineering is an R1 research and experiential university in Boston with engineering degrees to the doctorate. 4 Hours. 4.00 . Introduction to Software Security. Covers the structure and implementation of a modular compiler. BIOE 7890 - Master’s Project . Uses the ideal operational amplifier model, focusing on differential amplifiers and active filter circuits. Discussions will be conducted on Piazza.. Introduces basic concepts and recent developments in nanophotonic materials and devices. Culminates with both an individual design project and a team-based final project of considerable complexity. 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. EECE Dept. The high-frequency circuit models of transistors are described and used to evaluate the frequency responses of amplifiers. Discusses applications to wave guides, resonators, optical fibers, and radiation and elementary antennas. EECE 3468. The department also offers significant research opportunities throughout all fields of electrical and computer engineering, including participating in research centers based in our department and college. 4.00 . EECE 4792. 4 Hours. Covers advanced analog and mixed-signal circuit analysis topics. Introduces algorithm complexity analysis and its application to developing efficient algorithms. Studies hardware and software design for embedded systems. 4.00 . They also must work effectively in teams and communicate well. 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. EECE 4993. 2020-21 Graduate PDF EECE 387 - Design Lab. Programming is done in variants of the C programming language. Accompanies EECE 5684. EECE 5645. The textbook, is Hambley, Electronics , Second Edition. Introduces fundamentals of statistical inference and data analysis through concepts of detection, estimation, and related signal processing algorithms. You can recover your data by answering these questions. Starts with the fundamental parameters of the antennas. Fundamentals of Engineering Algorithms. 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. 4 Hours. Assignments include designing and simulating digital hardware models using Verilog as well as some assembly language to expose the interface between hardware and software. Simulation and Performance Evaluation. 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. 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. Of noiseless analog communication biomedical systems computing through arithmetic and circuit design for control of robots of industries through... 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