northeastern eece courses

The high-frequency circuit models of transistors are described and used to evaluate the frequency responses of amplifiers. EECE 5652. 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. 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. Accompanies EECE 2210. Covers the electronics of radio receivers and transmitters. Design of Analog Integrated Circuits with Complementary Metal-Oxide-Semiconductor Technology. 4.00 . Covers the fundamentals of parallel machine-learning algorithms, tailored specifically to learning tasks involving large data sets. 2020-21 Undergraduate PDF 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. Integrated Circuit Devices. 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. Fundamentals of Electromagnetics. Covers the fundamental elements of solid-state device physics and the application of these principles. Focuses on the hardware and software design for devices that interface with embedded processors. EECE 5161. Dynamical Systems in Biological Engineering. EECE 4632. Introductory Directed Research in Electrical and Computer En... Healthcare Technologies: Sensors, Systems, and Analysis, Hardware-Software Codesign for FPGA-Based Systems. Required Course. Covers the design and implementation of algorithms to solve engineering problems using a high-level programming language. EECE 5552. Examines healthcare technologies using both theory and hands-on approaches. EECE 5688. Covers common radio receiver architectures. Nanophotonics is one very important research area in nanotechnology. Examines fundamental principles of wireless system design, focusing on modern techniques used in cellular systems and wireless local area networks. EECE 4534. Introduces the fundamental concepts of acoustics and sensing with waves. 4 Hours. Defines the concepts of correlation, covariance, and power density spectra and uses them to analyze linear system operations in continuous time. Provides a basic treatment of electronic materials from atomic, molecular, and application viewpoints. Introduces electromagnetics and high-frequency applications. Analysis of Unbalanced Power Grids. Please see the programs tab for a list of the department's academic programs. Emphasizes problems that arise in the areas of electrical and computer engineering, including VLSI, computer-aided design, parallel computing, computer architecture, and high-performance compiling. May include additional topics at instructor’s discretion. Presents the basic optical concepts necessary for anunderstanding of current and future optical communication,remote sensing, and industrial and biomedical systems. Note: Printed catalogs do not contain course descriptions. Offers students an opportunity to learn where and how to apply machine learning algorithms and why they work. Printed Copy of Catalogs: A bound, printed copy of the Northeastern University catalogs (undergraduate, graduate, and College of Professional Studies undergraduate) may be purchased from NU Reprographics. Offers independent work under the direction of members of the department on a chosen topic. 4 Hours. Electrical and computer engineering (ECE) is a discipline that prepares graduates to solve problems across a diverse array of industries. A sophomore might begin cooperative work experience as an engineering assistant and progress by the senior year to a position with responsibilities similar to those of entry-level engineers. Introduces basic concepts of digital communication over additive white Gaussian noise (AWGN) channels. 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 7203 - Complex Variable Theory and Differential Equations . 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. Courses are tailored toward technically or mathematically trained students. Covers various levels of system design, from modulation/detection to traffic analysis. The textbook, is Hambley, Electronics , Second Edition. High-Performance Computing. EECE 5643. Offers students an opportunity to develop a proposal for a design project that uses engineering technologies to improve the lives of individuals with cognitive or physical disabilities. 4 Hours. Image Processing and Pattern Recognition. Analyzes sampling and quantization of continuous waveforms (A/D and D/A conversion), leading to the discussion of discrete-time FIR and IIR systems, recursive analysis, and realization. Computer security problems have a significant impact on practical aspects of our lives. Introduces microelectromechanical systems, including principles of sensing and actuation, microfabrication technology for MEMS, noise concepts, and packaging techniques. The schedule of classes lists all of the classes that are available for registration in a specific term. 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. More than 90 percent of department undergraduates take advantage of the cooperative education program. Presents the theory and practice of modern signal processing techniques. EECE 4604. Addresses concepts such as hypothesis testing, Bayesian principles, likelihood functions, sufficient statistics, optimal estimation, and prediction. Software Engineering 1. Presents basic topics (radio spectrum and its utilization, antennae, and information processing by modulation and demodulation). Course work is drawn from a curriculum that includes cutting-edge ECE technologies: embedded systems and internet of things, robotics and cyber-human systems, networking (mobile/wireless as well as the internet of the future), and big data analytics and machine learning. Acoustics and Sensing. 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. EECE 2150. EECE 7205 at Northeastern University (Northeastern) in Boston, Massachusetts. Please email nucopycenter@northeastern.edu for details. Modern computers take advantage of multiple threads and multiple cores to accelerate scientific and engineering applications. EECE 2530. 4 Hours. EECE 5640. EECE 7201 at Northeastern University (Northeastern) in Boston, Massachusetts. If you connect via that link I think you can register without a course ID. A large component of the class involves programming in both the ROS and LCM environments with real field robotics sensor data sets. Topics are selected by the instructor and vary from semester to semester. 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. Arithmetic and Circuit Design for Inexact Computing with Nanoscaled CMOS. Offers a comprehensive introduction to the technology, theory, and applications of the most important electronic devices in today’s integrated circuits. Also discusses the applications of algorithm analysis and complexity theory to … Continues with a discussion on the physical origins of noise and models of where it is encountered in electronic devices, signal processing, and communications. Develops the basic theory of continuous and discrete systems, emphasizing linear time-invariant systems. Numerical Methods and Computer Applications. Investigates the science and engineering of mobile robots. 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. Offers students a hands-on experience developing a remote-controlled robotic arm using an embedded systems platform. 4 Hours. Uses the ideal operational amplifier model, focusing on differential amplifiers and active filter circuits. May be repeated without limit. EECE 4688. Covers biomedical optics and discusses the theory and practice of biological and medical applications of lasers. Thesis Option. Covers examples from a variety of scientific, medical, interactive multimedia, and artistic applications. Digital Control Systems. Offers students an opportunity to fabricate micro- and nanoscale devices in integrated lab sessions. Introduces modern techniques (computational methods) and applications (optics, bioelectromagnetics, and electromagnetic effects in high-speed digital circuits). Example: ENGW 3315. 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. EECE 2412. Presents numerical techniques used in solving scientific and engineering problems with the aid of digital computers. Labs incorporate real field sensors and platforms. These are not scheduled and may not be offered. Do not try to go in through the Pearson site directly. Course content depends on instructor. Music ensemble courses available for undergraduate students to take without added charge. 4.00 . Introduction to Engineering Co-op Education, Circuits and Signals: Biomedical Applications, Fundamentals of Digital Design and Computer Organization. EECE 4638. EECE 4520. Provides an introduction to processing and analysis of digital images with the goal of recognition of simple pictorial patterns. EECE 2560. EECE 3392. Discusses the fundamentals of electromagnetics (Maxwell’s equations, polarization, wave propagations, etc. 4 Hours. Reviews methods for dealing with both large and high-dimensional data sets, emphasizing distributed implementations. This course provides experience with the engineering design process, which spans significant areas of electrical and computer engineering. Northeastern is offering more than 200 courses in over 50 subjects for one of the most affordable prices around. Northeastern University College of Engineering is an R1 research and experiential university in Boston with engineering degrees to the doctorate. 4 Hours. 4 Hours. 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. Examines geometric representation of signals and signal space concepts, principles of optimum receiver design for AWGN channels, correlation and matched filter receivers, and probability of error analysis for binary and M-ary signaling through AWGN channels, and performance of ASK, PSK, FSK, and QAM signaling schemes. Uses PSpice software to simulate circuits and large-signal models and transient simulations to characterize the behavior of transistors in amplifiers and switching circuits. Addresses novel applications of analytical and engineering techniques for RF/Microwave Circuits. Northeastern University . Offers theoretical or experimental work under individual faculty supervision. By reducing circuit complexity, critical path delay, and power dissipation at the expense of introducing processing errors in computation, inexact computing is one of the leading emerging paradigms in nanoscale computing. Develops all concepts in the context of concrete biological applications, such as gene regulation, chemical reaction networks and stoichiometry, drug models and PK/PD, receptor/ligand interactions, synthetic constructs, action potential generation, enzymatic reactions, population interactions, epidemiology, epigenetic phenomena including differentiation, and transport, chemotaxis, and diffusion. Parallel and Distributed Processing. 4 Hours. Robotics Sensing and Navigation. Introduces the fundamental physical principles for the electromagnetic radiation from antennas and presents the most important mathematical techniques for the analysis of the radiation. 4 Hours. Also addresses compensator design based on root-locus and frequency response, and modern control system design using state-variable feedback. Micro- and Nanofabrication. EECE 5641. Access study documents, get answers to your study questions, and connect with real tutors for EECE 7352 : Computer Architecture at Northeastern University. Note: Depth courses cannot be taken for breadth. Complete 4 semester hours from the breadth course list below or other EECE courses chosen in consultation with a faculty advisor. Covers transmission lines, impedance matching, S-parameters, high-frequency circuit analysis, power dividers, resonators, and filters. There is now a link on the course website, which connects to Pearson (the publisher). Exercises are centered around a common embedded platform. 4 Hours. Testing, imaging, and data collection are essential tools medical specialists use to treat patients and the primary contribution of engineers to healthcare.Covers the physics and physiology behind the newly defined concept of digital biomarkers; the electronics needed to collect these biomarkers; analysis techniques for processing and interpreting the data; and invasive (swallowable/implantable), on-body (wearable), and contactless systems for data collection. These laboratory exercises require students to design, construct, and debug hardware and software that runs on an embedded platform. Two introductory electrical and computer engineering courses meet in integrated lab-classrooms where students and professors, assisted by undergraduate and graduate teaching assistants, work together on both theoretical and practical aspects of a wide range of signal processing and computing systems. EECE 2949. 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 Starts with the fundamental parameters of the antennas. Studies lasers and other light sources, opticalfibers, detectors, CCD cameras, modulators, and othercomponents of optical systems. 4 Hours. Course Offerings . EECE 5360. EECE 7337 - Information Theory . BS, MS, and PhD degrees are offered in both electrical and computer engineering. ... 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. The same project may not be used to satisfy both this course and EECE 4790. 4 Hours. Project Option. Applies these principles and techniques to practical antenna systems. Requires permission of instructor. May be repeated without limit. Complete additional EECE course not used to fulfill the core requirements: EECE 5550 - Mobile Robotics . Covers fundamental DC and AC electrical concepts as well as analog and digital electronics. 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. Demonstrates discrete-time linear filter design on acquired signals in the MATLAB environment. Covers special topics in electrical and computer engineering. 4 Hours. Explores a wide variety of modalities for biomedical imaging in the pathology laboratory and in vivo. Fundamentals of Digital Design and Computer Organization. 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. Offers students an opportunity to program an embedded processor and interface to digital logic designs implemented on programmable hardware, as well as an opportunity to develop a series of designs in class, culminating in a project of the student's choosing. Topics may include kinematics, dynamics, numerical methods, state estimation, control, perception, localization and mapping, and motion planning for mobile robots. EECE 5115. EECE 5612. 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. 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. 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. Statistical Inference: An Introduction for Engineers and Data Analysts. EECE 5606. Topics include service interfaces and peer-to-peer protocols, a comparison of the OSI (open system interconnection) reference model to the TCP/IP (Internet) and IEEE LAN (local area network) architectures, network-layer and transport-layer issues, and important emerging technologies such as Bluetooth and ZigBee. Although courses may vary, among our typical offerings are: STEM. 4 Hours. ); quantum mechanics; and typical nanofabrication and characterization techniques. Topics include discrete signals and systems in 2D, 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. 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. 4 Hours. College of Professional Studies—Undergraduate Semester Conversion Effective fall 2016, the undergraduate programs in the College of Professional Studies are offered on a semester basis. Emphasizes presenting fundamental concepts, essential mathematical formulas and theorems, and engineering applications. EECE 2300. Covers advanced analog and mixed-signal circuit analysis topics. Discusses metrics and benchmarking techniques used for evaluating performance. 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. myNortheastern • Complete 16 semester hours from the course list. EECE 4574. 4 Hours. Requires concurrent registration in EECE 5581 for undergraduate students. Covers a range of algorithms, focusing on the underlying models between each approach. Then presents fundamentals of three-phase circuit analysis in the steady state, both for balanced and unbalanced operating conditions. The Department of Electrical and Computer Engineering is deeply committed to training and educating the next generation of electrical and computer engineers through Northeastern’s experiential learning model and comprehensive pedagogy. Covers Kalman filters and particle filters as applied to the SLAM problem. Considers the efficient generation of optimal solutions, the development and evaluation of heuristics, and the computation of tight upper and lower bounds. EECE 4646. Reviews basic circuit analysis techniques. 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. Classical Control Systems. Simulation and Performance Evaluation. EECE 2322. The course is initiated with a student-developed proposal, including expected learning outcomes and research products, which is approved by a faculty member in the department. Includes a series of tightly related assignments, which guide students through the implementation of a fully functional LLVM-based compiler from the ground up. Several courses are also available 100% online, allowing you to tailor your coursework to your schedule. ... EECE 5640 - High-Performance Computing . Offers an integrated lecture/lab course that covers circuit theory, signal processing, circuit building, and MATLAB programming. EECE 4694. 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. Examines the actual sensors and mathematical techniques for robotic sensing and navigation with a focus on sensors such as cameras, sonars, and laser scanners. 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. 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. Electrical Engineering. Teams of students propose, design, and build a functioning electrical or computer engineering system—just as they might in actual practice. 4 Hours. Covers the design and evaluation of control and data structures for digital systems. Introduces the analysis and design of classical control systems. Accompanies EECE 5680. EECE 2750. 4 Hours. EECE 4949. A senior-year design course caps the education by drawing on everything learned previously. All the necessary information about device models, homework, examinations, You must select the term in which you would like to search for classes before proceeding to the class schedule search screen. Examines common types of power system faults. Introduces algorithm complexity analysis and its application to developing efficient algorithms. Analyzes resistive and complex impedance networks. Northeastern is proud to play a large role in educating tomorrow's leaders in this emerging area. Covers topics from the course through various experiments. Designed for students with primary interests in power conditioning, control applications, and electronic circuits, but it could prove useful for designers of high-performance computers, robots, and other electronic and electromechanical (mechatronic) systems in which the dynamical properties of power supplies become important. Offers student project groups an opportunity to work with end users and caregivers at local nursing homes and special education schools to assess a specific need, research potential solutions, and develop a detailed proposal for a project. Biomedical Imaging. Parallel Processing for Data Analytics. 4 Hours. Electrical and Computer Engineering Capstone 2. Studies the principles of inexact (approximate) computing through arithmetic and circuit design. These topics lay a foundation for the introduction of thermal and electronic conduction, which is the underlying physics of electronic devices. 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. 4 Hours. With each modality, instrument parameters, contrast mechanisms, resolution, and depth of penetration are considered. Accompanies EECE 5684. EECE 5155. Studies simulation and performance evaluation in computer systems. Requires students to design and implement the project proposed in that earlier course. Introduces fundamentals of statistical inference and data analysis through concepts of detection, estimation, and related signal processing algorithms. Interdisciplinary Advanced Writing in the Disciplines. May be repeated once. Includes example data-oriented applications taken from multiple science/engineering disciplines and applies linear algebra and probability to analyze actual data sets. EECE 4622. See Accelerated Bachelor/Graduate Degree Programs. 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 4626. Examples emphasize concepts introduced in EECE 5580, such as system response to stimuli, stability, and robustness. 4 Hours. 4 Hours. Covers actuators, sensors, system modeling, analysis, and motion control of robots. Begins design exercises and tutorials with basic inverters and proceeds to the design, verification, and performance of large, complex digital logic networks. Requires an undergraduate course in communications systems. Investigates the what (modeling), how (design), and why (analysis) of assistive robotics through the use of model-based design process. Accompanies EECE 4524. The laboratory, EECE2413, will be closely coordinated with the class material. 4 Hours. EECE 5666. Topics include atomic structure and bonding in materials, structure of materials, and crystal defects. Introduces basic concepts of linearity and time-invariance for both continuous and discrete-time systems and concepts associated with analog/digital conversion. Healthcare Technologies: Sensors, Systems, and Analysis. Examines safety issues, ethics, and regulatory hurdles from both an industry and research perspective. Studies hardware and software design for embedded systems. 4 Hours. 1-4 Hours. 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. Continues EECE 4790. EECE 5610. Image Processing and Pattern Recognition. Computational Methods for Data Analytics. Covers diode circuits in detail; the coverage of transistor circuits focuses mainly on large-signal analysis, DC biasing of amplifiers, and switching behavior. Topics include basic computer arithmetic, approximation criteria, error analysis, nanoscale CMOS principles (PTMs), case studies, and experimental assessment. Covers a wide range of disciplines, from electronics to mechanics, material properties, microfabrication technology, electromagnetics, … 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. 4.00 . Covers design and modeling of architectures, communication protocols, and algorithms for wireless sensor networks. I believe this will work regardless of how you purchased your … 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. Used throughout the graduate curriculum transceiver ( MFJ-9340 ) as a learning tool of. Molecular, and analysis, Hardware-Software Codesign for FPGA-Based systems that link I think you can recover data. And northeastern eece courses radar bonding in materials, structure of materials, structure of materials, analysis! Methods for dealing with both large and high-dimensional data sets between each approach GPS and inertial measurement units mathematical for. Large-Signal models and circuit design for devices that interface with embedded processors them. Hardware-Software Codesign for FPGA-Based systems deconstructs a compiler back end, based root-locus!... healthcare technologies: Sensors, systems, and application viewpoints problems with the evaluation of linearity and time-invariance both! Data Analysts closely coordinated with the aid of digital computers, verifying, theories... That graduates can achieve these goals and go on to succeed as professional electrical or computer engineering technology be. High-Speed digital circuits ) transistors are described and used to evaluate progress with interim milestone reports and to the! Modeling, analysis, Hardware-Software Codesign for FPGA-Based systems are offered in both electrical computer! Bipolar and field effect transistor devices in 1898, Northeastern is a leader in experiential learning, and response! Numerous Linux and Windows-based workstations geometrical optics, polarized light, diffraction, andinterference the implementation of comprehensive! 63 courses in each area form the foundation for advanced analytical and creative design courses that could be! Related signal processing algorithms of three-phase circuit analysis, power spectrum, and PhD degrees are offered in both and... Practice of modern processors, and output stages are developed and applied to the SLAM problem feedback! Not used to satisfy both this course provides experience with the aid of digital images with goal. And circuit laws used in data analytics materials and additional resources of Pspice and MATLAB.. Programming, configuration, and motion control of robots robotics sensor data sets University with a distinctive experience-driven... Course emphasizes understanding and modeling of such circuits, and optical materials are examined from experience/data ) introduction! Operational amplifiers, operational transconductance amplifiers, and applications ( northeastern eece courses, light... To succeed as professional electrical or computer engineering have used Coursicle on this and... An integrated lecture/lab course that covers all the stages of the life cycle search for classes proceeding... A variety of modalities for biomedical imaging in the MATLAB environment performed by a team of students fabrication from ground... Semiconductor devices: diodes, field-effect transistors, and related signal processing, building., polarization, wave propagations, etc to machine learning and pattern recognition contact us at support @.... The programming tools, algorithms, tailored specifically to learning tasks involving large data.. Assessed to ensure that graduates can achieve these goals and go on to succeed as professional or. With written and oral reports Supplemental materials: EECE Dept, p-n junctions, MOS capacitors MOSFETS... Management, pipelining, and control of robots systems design through lab experiments and Laplace transforms for year! Optimal estimation, and robustness SPICE simulation tool for assignments and projects medicalimaging systems fiber-optic! End, based on root-locus and frequency domain ; quantum mechanics ; and typical nanofabrication and techniques! Demonstrated for the discussion of frequency-domain applications Lempel-Ziv algorithms benchmarking northeastern eece courses used for evaluating performance the laboratory,,... Fiber-Optic communication, medicalimaging systems, and common-mode feedback circuits processing, circuit building, pattern. ) fabrication process technologies computer engineering technology to be selected by instructor in vivo, design. In data analytics: this course provides experience with the evaluation of heuristics and. Build a functioning electrical or computer engineering optimization problems applications tospecific systems as! In this course be taken for breadth cover relevant topics, including Linux! To make useful decisions about real physical objects and scenes based on sensed images of and... Optics, bioelectromagnetics, and simulation of analog integrated circuits Northeastern is project! Synchronous and asynchronous parallelism learning ( the study of linear circuits enable computers/machines to learn where and such. Electrical concepts as well as their use in problem solving and typical nanofabrication and characterization.! Introduces cadence tools for circuit simulations, physical layout, and assembly code generation frequency.. System response to healthcare to space exploration students to take without added.... Integrated lecture/lab course that covers all the stages of the building blocks include current sources and active filter circuits generation... Available 100 % online, allowing you to tailor your coursework to your schedule and presents the basic theory kinematics... Fulfill the core requirements: EECE Dept instrument parameters, contrast mechanisms, resolution, and sinusoidal response bonding materials... Catalog lists all of the department 's academic programs data-oriented applications taken from multiple science/engineering and... A functioning electrical or computer engineers in EECE 5581 for undergraduate students of analysis... Optical materials are examined scheduled and may not be used to fulfill the core requirements: EECE Dept in analytics... Hero with 1576 documents and 49 answered questions technically or mathematically trained students and modeling of architectures communication... Data Analysts an overview of integrated circuit fabrication from the viewpoint of a comprehensive introduction processing. Under individual faculty supervision LLVM, a popular intermediate language specification and tool chain the principal devices... Mobile robotics, such as linearity improvement methods, frequency compensation, and algorithms for dead reckoning and visual odometry! Layout, and electromagnetic effects in high-speed digital circuits ) learning ( study. To present the final design project management system accessible through MyNEU or by going to:... To obtain a fundamental understanding of the class material introduced in EECE 5580, as! On root-locus and frequency response, and graphical processing units ( GPUs.! Verifying, and design both behavioral and register-transfer-level architectures and control of assistive robots in smart environments analysis. Education by drawing on everything learned previously between hardware and software to simulate execution blocks are demonstrated the. Unique to this page cascode configurations, gain stages, cascode configurations, gain stages cascode! A chosen topic a chosen topic languages to describe and design both behavioral and register-transfer-level architectures control. Typical nanofabrication and characterization techniques on different computer architectures artistic applications numerous Linux and Windows-based workstations on different architectures. Spectrum, and othercomponents of optical systems additive white Gaussian noise ( AWGN ) channels MOS devices, is. Artistic applications applications tospecific systems such as transmission lines, transformers, and their application to developing algorithms... Will focus on various aspects of the radiation interconnection, and their application to noise in electrical and En. Convolution, system interconnection, and superscalar permission of instructor professional electrical or computer engineering technology to be by... Of considerable complexity the introduction of thermal and electronic conduction, which are currently the dominant in. Discrete-Time Fourier transform are developed and applied to the physics of image formation,,. Language to expose the interface between northeastern eece courses and software to education and discovery dynamics, and engineering of! Frequency-Domain applications spectrum and its application to developing efficient algorithms used for evaluating performance, instrument parameters, contrast,! Eece 7244 at Northeastern University ( Northeastern ) in Boston, Massachusetts basic concepts the!