Laboratory experience with power electronic circuits. Same subject as 16.410[J] Prereq: Permission of instructor G (Fall, Spring) Power ElectronicsPrerequisite: (EECS 215 and EECS 216 and preceded or accompanied by EECS 320) or graduate standing. Subject meets with 6.945Prereq: 6.034 or permission of instructor U (Spring)3-0-9 units. Optimum receivers in Gaussian noise. Power flow using Poynting's theorem, force estimation using the Maxwell stress tensor and Principle of virtual work. Treatment of electromechanical transducers, rotating and linear electric machines. Low-power design. CourseProfile (ATLAS), EECS 524. Prereq: None U (Fall, Spring)Units arrangedCan be repeated for credit. (3 credits)Theory, systems and applications of active and passive microwave remote sensing: radiative transfer; blackbody radiation; microwave radiometry; atmospheric propagation and emission; radiometer receivers; surface and volume scattering and emission; radar systems; resolution techniques; calibration; synthetic aperture radar; scatterometers; applications to meteorology, oceanography and hydrology. Our top-ranked programs attract stellar students and professors from around the world, who pioneer the frontiers of information science and technology with broad impact on society. Geometrical and physical theories of diffraction. Topics include the simplex method, network flow methods, branch and bound and cutting plane methods for discrete optimization, optimality conditions for nonlinear optimization, interior point methods for convex optimization, Newton's method, heuristic methods, and dynamic programming and optimal control methods. Applied Quantum Mechanics IPrerequisite: Permission of instructor. Only 300 and 400 level courses that are not required in the degree plan can be used to satisfy the technical elective requirements. Explores biomedical signals generated from electrocardiograms, glucose detectors or ultrasound images, and magnetic resonance images. Courses Introduces interactive computer theorem proving with the Coq proof assistant, which is used for all assignments, providing immediate feedback on soundness of logical arguments. Rigorously explores what kinds of tasks can be efficiently solved with computers by way of finite automata, circuits, Turing machines, and communication complexity, introducing students to some major open problems in mathematics. Electrical BiophysicsPrerequisite: EECS 215 and 216 or graduate standing. Minimum grade of “C” required for enforced prerequisite. Enrollment limited to seating capacity of classroom. (January IAP 2005), Introduction to Nanoelectronics Enrollment limited. Prereq: Permission of instructor G (Fall) Limited to 18. (4 credits) Micro electro mechanical systems (MEMS), devices and technologies. (Spring 2003), Advanced Electromagnetism Minimum grade of “C” for enforced prerequisite. (Spring 2009), Machine Learning for Healthcare (Spring 2016), Representation and Modeling for Image Analysis Acad Year 2022-2023: G (Fall, Spring)3-0-9 units, Same subject as 2.75[J], HST.552[J] (4 credits) Theory and implementation of state-of-the-art machine learning algorithms for large-scale real-world applications. Electrical Circuits, Systems, and ApplicationsPrerequisite: MATH 214 or MATH 216, PHYSICS 240. Credit for only one: EECS 215, or EECS 314. In this course, students go over some classic concepts of information retrieval and then quickly jump to the current state of the art in the field, where crawlers, spiders, and hard-of-hearing personal butlers roam. (3 credits)Production Systems Engineering (PSE) investigates fundamental laws that govern production systems and utilizes them for analysis, design, and continuous improvement. Foundations of Artificial IntelligenceAdvisory Prerequisite: Graduate standing. DC machines. Emphasis on using these concepts in systems problems. (1-6 credits)Students working under the supervision of a faculty member plan and execute a research project. To view the degree requirements for any of the Master's of Science … Kullback-Leibler distance and information geometry. Students taking graduate version complete additional assignments. Image coding and compression. See description under subject IDS.136[J]. Term projects. Abstract integration, expectation, and related convergence results. Subject meets with 6.830Prereq: (6.033 and (6.006 or 6.046[J])) or permission of instructor U (Spring)3-0-9 units. Special Topics in ElectromagneticsPrerequisite: ermission of instructor. It is important to note that choosing one of these areas does not prevent you from taking courses … (4 credits) (Students who have previously enrolled in 505 or 551 cannot get credit for 453). Prereq: 6.994 G (Fall, IAP, Spring, Summer)0-0-1 unitsCan be repeated for credit. Not offered regularly; consult departmentUnits arrangedCan be repeated for credit. Consult department for details. School of Electrical Engineering and Computer Science College of Engineering 1148 Kelley Engineering Center 110 SW Park Terrace Corvallis, OR 97331-5501 Phone: (541) 737-3617 Fax: (541) 737-1300 … Examines the implications of work on brain scanning, developmental psychology, and cognitive psychology. Computer-aided design for MEMS layout, fabrication and analysis. Communication NetworksPrerequisite: Graduate standing, preceded by EECS 301 or accompanied by EECS 501. (4 credits)Design of algorithms for nonnumeric problems involving sorting, searching, scheduling, graph theory and geometry. M. F. Kaashoek, B. Lampson, N. B. Zeldovich, Prereq: 6.031 and 6.033 Acad Year 2021-2022: Not offered Same subject as 16.413[J] Topics include standard cryptographic functions and protocols, threats and defenses for real-world systems, incident response and computer forensics. Not offered regularly; consult department4-0-8 units. Students may use this subject to find an advanced undergraduate project. Topics include ray tracing, the graphics pipeline, transformations, texture mapping, shadows, sampling, global illumination, splines, animation and color. MIT OpenCourseWare is a free & open publication of material from thousands of MIT courses, covering the entire MIT curriculum. Electrical Engineering Systems Design IIPrerequisite: EECS 200, at least 3 of 4 (215, 216, 230, 280), Co-requisite EECS: 4th of 4 (215, 216, 230, 280) Minimum grade of C required for enforced prerequisites. Minimum grade of “C” required for enforced prerequisites. Topics: ancient ciphers, Shannon theory, symmetric encryption, public key encryption, hash functions, digital signatures, key distribution. (4 credits)Review of integrated circuit fabrication technologies and BJT and MOS transistor models. See description under subject 2.75[J]. Minimum grade of “C” required for enforced prerequisites. Reflection and transmission at normal incidence. Introduction to principles of Bayesian and non-Bayesian statistical inference. Stability considerations, pole-zero cancellation, root locus techniques in feedback amplifiers. Gaussian beams and ABCD law. (Spring 2011), Data Communication Networks Applications in selected areas such as cryptography, logic programming, theorem proving, approximation of optimization problems, or parallel computing. Advanced angular momentum theory, second quantization, non-relativistic quantum electrodynamics, advanced scattering theory, density matrix formalism, reservoir theory. Topics include waveform analysis and spectral analysis of speech; synthesis of speech; perception and discrimination of speech-like sounds; speech prosody; models of speech recognition; speech development; analysis of atypical speech; and others. Prereq: None G (Fall, IAP, Spring, Summer)0-1-0 unitsCan be repeated for credit. Individual experimental work related to electrical engineering and computer science. Topics include locking, scalability, concurrent data structures, multiprocessor scheduling, load balancing, and state-of-the-art synchronization techniques, such as transactional memory. First-year graduate subject in algorithms. Prereq: Permission of instructor U (IAP)Units arranged [P/D/F]Can be repeated for credit. Students meet and question technologists, activists, law enforcement agents, journalists, and legal experts. Electrical Engineering and Computer Science at UC Merced is for students ready to engage in cutting-edge research that crosses disciplines. UCMerced. Topics include complexity classes, lower bounds, communication complexity, proofs and advice, and interactive proof systems in the quantum world; classical simulation of quantum circuits. (Spring 2013), Laboratory in Software Engineering Student teams learn to design and build functional and user-friendly web applications. (Fall 2009), Microelectronic Devices and Circuits Real world projects, usually in partnership with hospitals for specific disabled clients. Decidable and undecidable problems. Scattering by half plane (Wiener-Hopf method) and wedge (Maliuzhinets method); edge diffraction. Theory will be motivated by the use of examples taken from a variety of fields. Rapid prototyping of embedded systems. Department of Electrical and Computer Engineering 4016 Seamans Center for the Engineering Arts and Sciences Iowa City, Iowa, 52242. Microwave Measurements LaboratoryPrerequisite: EECS 330, Graduate Standing. (3 credits)Current topics of interest in theoretical computer science. (4 credits) Students design and construct functioning biomedical instruments. Not offered regularly; consult department3-0-9 units. Enrollment may be limited. Models of dynamical devices are developed. CourseProfile (ATLAS), EECS 548 (SI 649). Coreq: 6.912; or permission of instructor U (Fall, Spring)0-2-1 unitsCan be repeated for credit. Describes current techniques used to analyze and fabricate nanometer-length-scale structures and devices. The text is backed up by numerous exercises and worked examples throughout, firmly rooted in engineering practice, ensuring that all mathematical theory introduced is directly relevant to real-world engineering. (Fall 2002), Queues: Theory and Applications Multivariate normal distribution. Adaptive and non-adaptive processing of signals received at arrays of sensors. Microwave Circuits IPrerequisite: EECS 311 or 330, or graduate standing. Highlights AES, RSA, Discrete Log, Elliptic Curves. Using tools in building software. High-Tech EntrepreneurshipPrerequisite: None. Not offered regularly; consult departmentUnits arrangedCan be repeated for credit. Same subject as 3.155[J]Prereq: Calculus II (GIR), Chemistry (GIR), Physics II (GIR), or permission of instructor U (Spring)3-4-5 units. (4 credits). Preference to students in the Bernard M. Gordon-MIT Engineering Leadership Program. Covers the process of drafting and filing patent applications, enforcement of patents in the courts, the differences between US and international IP laws and enforcement mechanisms, and the inventor's ability to monetize and protect his/her innovations. Subject meets with 6.320Prereq: Physics II (GIR) and (2.087 or 18.03) U (Fall)4-4-4 units. Introduction to Embedded System ResearchAdvisory Prerequisites: A prior >= 400-level course on computer system or sensor design and analysis. DC motors. Presents innovative approaches to computational problems in the life sciences, focusing on deep learning-based approaches with comparisons to conventional methods. Introduces the theory of error-correcting codes. Overview The data science and engineering (DSE) group works to develop technology, processes, and software to enable effective access to and utilization of overwhelming amounts of information. CourseProfile (ATLAS), EECS 583. Conditioning and independence. Review of probability and laws of large numbers; Poisson counting process and renewal processes; Markov chains (including Markov decision theory), branching processes, birth-death processes, and semi-Markov processes; continuous-time Markov chains and reversibility; random walks, martingales, and large deviations; applications from queueing, communication, control, and operations research. Applications include compilers, computer-algebra systems, deductive systems, and some artificial intelligence applications. Integrated overview of the biophysics of cells from prokaryotes to neurons, with a focus on mass transport and electrical signal generation across cell membrane. Enrollment may be limited. Not offered regularly; consult department3-0-9 units. CourseProfile (ATLAS), EECS 281. (4 credits)This course covers the fundamentals of patents for engineers. (Fall 2012), Quantitative Physiology: Cells and Tissues D. M. Freeman, A. Hartz, L. P. Kaelbling, T. Lozano-Perez, Prereq: 6.003 and (6.008, 6.041, or 18.600) U (Spring)4-0-8 units. Application of the principles of energy and mass flow to major human organ systems. Students taking graduate version complete additional assignments. (Spring 2007), Introductory Digital Systems Laboratory Covers image representations, texture models, structure-from-motion algorithms, Bayesian techniques, object and scene recognition, tracking, shape modeling, and image databases. Introduction to quantum computational complexity theory, the study of the fundamental capabilities and limitations of quantum computers. Design exercises. Emphasis on the fundamental cryptographic primitives of public-key encryption, digital signatures, pseudo-random number generation, and basic protocols and their computational complexity requirements. Linear Systems TheoryPrerequisite: Graduate standing. Same subject as 8.431[J]Prereq: 6.013 or 8.07 G (Spring)3-0-9 units. Computer NetworksPrerequisite: EECS 281 and EECS 370 or graduate standing in CSE. First third of course focuses on mass transport through membranes: diffusion, osmosis, chemically mediated, and active transport. Probabilistic models; stochastic processes, correlation functions, power spectra, spectral factorization. Software EngineeringPrerequisite: EECS 281. Adaptive Signal ProcessingPrerequisite: EECS 564. Subject meets with 6.215Prereq: 18.06 G (Fall)4-0-8 units, Same subject as 18.456[J]Prereq: 6.251[J] or 15.093[J] Acad Year 2021-2022: Not offered Hypothesis testing; detection; matched filters. Students design, make, and program an Internet-connected wearable or handheld device. CourseProfile (ATLAS), EECS 659. Topics include basics of deep learning, programmable platforms, accelerators, co-optimization of algorithms and hardware, training, support for complex networks, and applications of advanced technologies. Technology constraints. Comprehensive treatment of optimality conditions and Lagrange multipliers. (3 credits) Introduction to information visualization. CourseProfile (ATLAS), EECS 550. Subject meets with 6.034Prereq: 6.0001 G (Fall)4-3-5 units. Institute LAB. Electrical Engineering (Minor) ... EE 4810 Full-Time Curricular Practical Training in Electrical Engineering. Subject meets with 6.555[J], 16.456[J], HST.582[J]Prereq: (6.041 or permission of instructor) and (2.004, 6.003, 16.002, or 18.085) U (Spring)3-1-8 units. Subject meets with 14.150Prereq: 6.041 or 14.30 U (Spring)4-0-8 units. Topics include: semiconductor growth, material characterization, lithography tools, photo-resist models, thin film deposition, chemical etching, plasma etching, electrical contact formation, micro-structure processing and process modeling. Introduction to computational techniques for modeling and simulation of a variety of large and complex engineering, science, and socio-economical systems. the skills acquired will make students marketable as engineering managers of manufacturing organizations. Readings from current literature. Some prior versions of courses listed above have been archived in OCW's DSpace@MIT repository for long-term access and preservation. CourseProfile (ATLAS), EECS 473. The treatment of optical networks are from the architecture and system design points of view. Architectural principles, analysis, algorithmic techniques, performance analysis, and existing designs are developed and applied to understand current problems in network design and architecture. Quantization, wavefunctions, and Schrodinger's equation. Prepares students for practical use and development of computational engineering in their own research and future work. Course Description. Pulse width modulation. MOS device models including Deep Sub-Micron effects. Prereq: 6.035 Acad Year 2021-2022: G (Fall) Students taking graduate version complete different assignments. (Fall 2005), Introduction to Machine Learning (4 credits) Construction and design of lasers; gaussian beams; nonlinear optics; fiber optics; detectors; dispersion; Fourier optics; spectroscopy. Computer Science PragmaticsPrerequisite: EECS 180 or EECS 183 or ENGR 101 or ENGR 151 or preceded or accompanied by (EECS 280 or EECS 281). (3 credits)Modeling and analysis of strategic decision environments from combined computational and economic perspectives. Applications and examples drawn from diverse domains. (Spring 2003), Advanced Natural Language Processing Includes a design project for practical application of concepts, and labs for experience building silicon transistors and devices. Introduction to CryptographyPrerequisite: (EECS 203 or MATH 312 or MATH 412) and (EECS 180 or EECS 183 or EECS 280) and EECS 376 & EQ. (Fall 2016), Principles and Practice of Assistive Technology In response to the strong interest of MIT students in educational programs at the interface of classical engineering disciplines and the life sciences -- in particular, in the EECS 6-7 degree program initiated in 2011-12, and the need for a Masters in Engineering program in this area, the Departments of Biology and Electrical Engineering and Computer Science … Number of courses: Minimum grade of “C” required for enforced prerequisite. Semiconductor Optoelectronic DevicesPrerequisite: EECS 320 or graduate standing. (3 credits)Theory and applications of adaptive filtering in systems and signal processing. The first courses in the electrical and computer engineering … Not offered regularly; consult departmentUnits arrangedCan be repeated for credit. (Spring 2008), Practical Programming in C Lyapunov methods and practice, through explicit instruction, analysis, Lagrangian relaxation and... 320 or graduate standing games in competition for prizes awarded by a project on multi-million gate FPGAs properties and with! 3D printing ) to continue advanced studies in a standard object-oriented programming ( )! Information for current undergraduate students and EES students pursuing the master of engineering in... Cost formulations thermal sensors/actuators and applications in finance, sports, engineering, science! Central nervous system ( Ph.D. ) a rigorous introduction to CSE graduate research Prerequisite: EECS 351 transient.! About higher order effects, absolute stability theory, vibrational control, sliding modes and feedback linearization strategies for dynamic. Main mathematical models of random graphs, strings, arrays, records and trees EECS 406 ENGR! 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