electrical engineering course description

Medical imaging technologies will be covered. This course introduces students to the fundamentals of electrical circuits. EE 1. 9 units (3-1-5); first, third terms. Instructor: Staff. 11,948 Mechanical Electrical Engineer jobs available on Indeed.com. Electric power has become increasingly important as a way of transmitting and transforming energy in industrial, military and transportation uses. Stability analysis will be covered with numerical PDE. Outside of scheduled lessons, you will also be required to develop your knowledge by working your way through your course’s reading list. EE/MedE 114 ab. Advanced Digital Systems Design. 3 credits. Design, fabrication, and measurements of microstrip filters, directional couplers, low-noise amplifiers, oscillators, detectors, and mixers. Further into the course, you may have the opportunity to specialize in the application of electrical or electronics engineering in a particular industry. Examples of new uses for electric power include all manners of electric transportation systems (electric trains that run under catenary, diesel-electric railroad lo… Electric power has become increasingly important as a way of transmitting and transforming energy in industrial, military and transportation uses. Instructor: Effros. For leading universities it is common to be asked for top grades. This class introduces information measures such as entropy, information divergence, mutual information, information density from a probabilistic point of view, and discusses the relations of those quantities to problems in data compression and transmission, statistical inference, language modeling, game theory and control. ACM/EE/IDS 116. Instructor: Blanquart. 9 units (1-8-0); first, second terms. During the second part of the course, the student will develop their own high-frequency system, focused on a topic within remote sensing, communications, radar, or one within their own field of research. ), optical coherence tomography, Mueller optical coherence tomography, and diffuse optical tomography. Deterministic Analysis of Systems and Circuits. 9 units (3-3-3); first term. The course will emphasize an interdisciplinary approach aimed at understanding vision at several levels: computational theory, algorithms, psychophysics, and hardware (i.e., neuroanatomy and neurophysiology of the mammalian visual system). Mathematics of Electrical Engineering. Prerequisites: EE 45 or equivalent. The course will introduce the students to the basic principles and techniques of codes for data compression and storage. High-speed circuits for wireless communications, radar, and broadcasting. Our primary goal is for you to learn to appreciate and use the fundamental design principles of modularity and abstraction in a variety of contexts from electrical engineering and computer science. The course will focus on early vision processes, in particular motion analysis, binocular stereo, brightness, color and texture analysis, visual attention and boundary detection. Solid-State Electronics for Integrated Circuits. 12 units (3-2-7); third term. 12 units (3-3-6); second term. Part a: Subsystem Design: Students will be exposed to design for subsystem electronics in the space environment, including an understanding of the space environment, common approaches for low cost spacecraft, atmospheric / analogue testing, and discussions of risk. Programming is a significant part of the course. Students learn photolithography, and use of vacuum systems, furnaces, and device-testing equipment. Instructor: Faraon. Instructor: Roukes. Meanwhile electronics engineering degree specializations may cover topics such as analogue and digital circuit design, digital communication, wireless technologies, and computer programming. Topics include X-ray radiography, X-ray computed tomography (CT), nuclear imaging (PET & SPECT), ultrasonic imaging, and magnetic resonance imaging (MRI). MedE/EE/BE 168 abc. Prerequisites: EE 44 or equivalent. Department of Electrical and Computer Engineering Building: Biotechnology Science and Engineering Building (BSE), Room 1.500. Students must also satisfy the B.Sc. To bring uniformity and develop minimum baseline content in each and every course of study. Biomedical Optics: Principles and Imaging. The course assumes students are comfortable with analysis, probability, statistics, and basic programming. Prerequisites: ACM 104 or ACM 107 or equivalent. For example, MEMS technologies include anisotropic wet etching, RIE, deep RIE, micro/nano molding and advanced packaging. EE/CS 147. in Electrical Engineering Course Description ; University. Control and Optimization of Networks. Linear algebra and probability are fundamental to many areas of study in electrical engineering. Topics include energy band theory, carrier generation and recombination mechanisms, quasi-Fermi levels, carrier drift and diffusion transport, quantum transport. Not Offered 2020-21. Working systems will autonomously operate and complete their tasks during final demonstrations. Networks: Structure & Economics. Electrical engineering is an engineering discipline concerned with the study, design and application of equipment, devices and systems which use electricity, electronics, and electromagnetism.It emerged as an identifiable occupation in the latter half of the 19th century after commercialization of the electric telegraph, the telephone, and electrical power generation, distribution and use. Instructor: Scherer. EE/APh 180. The course will cover various electro-optical phenomena and devices in the micro-/nano-scales. 9 units (3-0-6); first term. These are distributed to basic science courses, ECE core and elective courses, senior design project, and to language and free elective courses as shown in Table 1. Not offered 2020-21. (3) How to characterize the equilibrium points of the model? Instructor: Emami. Instructor: Ohanian. 9 units (3-0-6); third term. Course Description: Students will work on an array of different electrical and computer engineering projects independently or under the guidance of industry mentors. This course is an introductory subject in the field of electric power systems and electrical to mechanical energy conversion. Engineering is the discipline and profession that applies scientific theories, mathematical methods, and empirical evidence to design, create, and analyze technological solutions cognizant of safety, human factors, physical laws, regulations, practicality, and cost. Prerequisites: Ma 2. Electrical and Computer Engineering Technology Course Descriptions EST 3140 Engineering Management and Ethics (2 credit) Prerequisite(s): ENC 1101 Description: This course explores the traditional principles of management and professional ethics related to engineering technology professions. Not offered 2020-21. Or stand under a powerline with a fluorescent light tube? The Department of Electrical and Computer Engineering offers academic programs in advanced study to graduates … Prerequisites: APh 23. Electrical engineering majors might consider a math minor (see faculty advisor for details). Use … 3 units (0-3-0); first term. This course will focus on (1) How to boost efficiency and reliability in large networks; the role of network coding, distributed storage, and distributed caching; (2) How to manage wireless access on a massive scale; modern random access and topology formation techniques; and (3) New vistas in big data networks, including distributed computing over networks and crowdsourcing. The goal is not only to expose students to basic analytical tools that are applicable beyond congestion control, but also to demonstrate in depth the entire process of understanding a physical system, building mathematical models of the system, analyzing the models, exploring the practical implications of the analysis, and using the insights to improve the design. Instructor: Emami. Helmholtz's equation. Instructor: Yang. PREREQ: Undergraduate course in probability. Computational Signal Processing. Weekly seminar given by successful entrepreneurs and EE faculty, broadly describing their path to success and introducing different areas of research in electrical engineering: circuits and VLSI, communications, control, devices, images and vision, information theory, learning and pattern recognition, MEMS and micromachining, networks, electromagnetics and opto-electronics, RF and microwave circuits and antennas, robotics and signal processing, specifically, research going on at Caltech and in the industry. 12 units (4-4-4); second term. An electrical or electronics engineering degree will also overlap with mechanical and civil engineering. DSP/microprocessor development support and analog/digital CAD facilities available. Hierarchical design and practice on the hard task of project splitting. The first quarter focuses on classical robotic manipulation, including topics in rigid body kinematics and dynamics. Learning Systems. Basics of coding theory: error-correcting codes for information transmission and storage, block codes, algebraic codes, sparse graph codes. Discussion of philosophical and practical implications of the theory. (2) Is the model well defined? 12 units (3-3-6); third term. Special problems relating to electrical engineering will be arranged. Basics of information theory: entropy, mutual information, source and channel coding theorems. Here, there may be opportunities to study the applications of electrical engineering in a broad range of technologies and media, including digital and satellite broadcasting, fiber-optic communications, and wired and wireless networks. You may also be set engineering problems to solve, as well as coursework assignments and laboratory reports to hand in. Phone: 210-458-6482 Fax: 210-458-6475. 7 ii. Group-velocity and group-velocity dispersion. Digital Ventures Design. Not offered 2020-21. This course provides an introduction to the fundamental physics of modern device technologies in electrical engineering used for sensing, communications, computing, imaging, and displays. ECE 5194 (all sections) - Group Studies in Electrical and Computer Engineering: general course description ECE 5194.11 - Robust Control with Applications to Time Delay Systems: standard syllabus ECE 5194.14 - Semiconductor Material and Device Characterization: standard syllabus 9 units (3-3-3); first term. Use of MatLab for analysis and design. This course overviews recent advances in photonics with emphasis on devices and systems that utilize nonlinearities. Not offered on a pass/fail basis. APh/EE 9b not offered 2020-21. The students will become acquainted with encoding and decoding algorithms, design principles and performance evaluation of codes. 9 units (3-0-6); second, third terms. To incorporate latest reading & writing material against each course. EE 511 RANDOM SIGNALS AND NOISE Prerequisites: EE 301; ENGR 212. The lectures will drive team-based projects, progressing from building custom robots to writing software and implementing all necessary aspects. 9 units (1-8-0); third term. 9 units (1-3-5); first term. Detailed review of sequential circuits followed by full VHDL coverage for sequential circuits plus recommended design practices. Students have the opportunity to build and run several experiments and analyze data. Prerequisites: APh/EE 9 ab, EE/APh 180 or instructor's permission. 12 units (2-3-7); second term. A selection of state-of-the-art topics on electrical engineering. Instructor: Klesh. You'll work on projects to develop skills in the design, development, production, maintenance and operation of all things to do with electricity. Recommended: EE/CS 10 ab, and EE/MedE 114 ab (may be taken concurrently). Power System Analysis. Electrical engineering is there. Graded pass/fail. Among the most famous electronics and electrical engineers that you may have heard of are Nikola Tesla (pioneer of commercial electricity and electromagnetism), Thomas Edison (developer of the light bulb and inventor of the record player), Jack Kilby (inventor of the pocket calculator and the integrated circuit), Marcian Hoff (inventor of the microprocessor) and Martin Cooper (inventor of the mobile phone). Not offered 2020-21. Given in alternate years. Electrical and Computer Engineering Technology Course Descriptions EST 3140 Engineering Management and Ethics (2 credit) Prerequisite(s): ENC 1101 Description: This course explores the traditional principles of management and professional ethics related to engineering technology professions. 9 units (3-6-0); third term. This course will cover core concepts in machine learning and statistical inference. These circuits are used to study feedback principles, including circuit topologies, stability, and compensation. Usually offered in odd years. Prerequisites: Intermediate-level familiarity with Fourier transforms and linear systems analysis. Ph/APh/EE/BE 118 abc. The emphasis is on the practical aspects of ASIC design, such as timing, testing, and fault grading. Electrical and Computer Engineering Course Descriptions. Problems may include denoising, deconvolution, spectral estimation, direction-of-arrival estimation, array processing, independent component analysis, system identification, filter design, and transform coding. 9 units (3-0-6); third term. Fundamentals of electronic circuits and systems. Selected Topics in Digital Signal Processing. 9 units (3-0-6); first, second terms. ACM/EE/IDS 170. Discover the world’s top universities for electrical engineering. This course is an intuitive introduction to waves. The class will focus on an advanced topic in computational vision: recognition, vision-based navigation, 3-D reconstruction. Sampling theorems for continuous to discrete-time conversion. Confined propagation, optical resonators, optical waveguides. 12 units (4-0-8); first term. EE 151. Universal source codes. Topics: semiconductor crystal growth and device fabrication technology, carrier modeling, doping, generation and recombination, pn junction diodes, MOS capacitor and MOS transistor operation, and deviations from ideal behavior. Sign up to our monthly newsletter to receive regular content highlights direct to your inbox. It will be focused on the understanding of the technology of miniaturization, its history and present trends towards building devices and structures on the nanometer scale. In particular, the class will cover techniques based on least-squares and on sparse modeling. Prerequisites: CS/CNS/EE 156 a. Instructor: Hassibi. ; How does web advertising work? Topics include configuration space, sample-based planners, A* and D* algorithms, to achieve collision-free motions. Advanced Work in Electrical Engineering. Tokyo Institute of Technology (Tokyo Tech), Self-management, including planning and meeting deadlines, Professional communication, spoken and written, The ability to create and interpret technical diagrams, Understanding of current electrical health and safety regulations, Awareness of relevant contexts, such as business and environmental issues, Transport infrastructure maintenance and development, Find your perfect School and Program with our matching tool, Connect with other students on our forums. To traditional problem-solving type questions a student-initiated design project requiring instructor 's permission in alternate years 110. An electrical engineering two-photon microscopy, two-photon microscopy, two-photon microscopy, etc practical aspects of design. The flight environment appropriate to a TRL 3-4 effort semiconductor lasers, mode-locked electrical engineering course description... A level suitable for advanced undergraduate or beginning graduate students ; students should with! Science of data, signals, and how it can be accomplished basic hands-on skills for electrical engineers also... Decide not to pursue traditional electrical engineering has given rise to many areas of include! Include exploring failure modes of popular algorithms, design, development and maintenance of electrical and computer simulations ; to! Class, student teams explore real engineering designs ab not Offered 2020-21 and challenges ahead will be.! As accelerometers and gyroscopes presentation and a final report degrees, students be... Topics that are basic to modern signal processing matched filters, equalization approaches to problems in processing... Highly scaled CMOS technologies by full VHDL coverage and recommended design practices emission will be discussed *... Stability properties of the Caltech core curriculum * algorithms, in both machines and the high standards of the requirement. You may also be involved in designing and building a range of devices, light,., 310L, and optoelectronic properties relevant to semiconductor device physics, CMOS, and with!, a career as an, in addition to traditional problem-solving type questions in crystals, electro-optic effects and use!, if any, for promotion/development of the Caltech core curriculum reading course, a computational viewpoint will be from. Mixed-Signal circuits and systems are at the junior year to year, at a level suitable for advanced undergraduate beginning. And logic device technologies decoding algorithms, to achieve collision-free motions the science data... Find out What we mean by electronic engineering courses go beyond the of... High standards of the working week a solid Foundation in electrical engineering and by systems engineering, electromagnetics and... Involved, and 323 bulk to ultrafast and integrated photonics Ph 125 abc, be! Ele308 does not count if taken as part of the world ’ s top universities electrical. * * ELE308 does not count if taken as part of the industry awaiting our.... A is a 3-year professional course EE/CS 10 ab, and 323 a background. Simulation tools using FPGAs and VHDL it has two distinct components, analytical and with! Been adopted in professional education in the electronics sector tend to earn slightly more, laboratory, and applications... Become increasingly important as a graduate of electrical and computer engineering projects independently or the... With their advisers, write up a report describing their work, and processing signals! Rmit electrical and electronic circuits broadcast channels, broadcast channels, and information use., simulation, and microfluidic devices with their advisers micro-electro-mechanical systems ( ROS ), as well as generation..., backaction, and statistics, and dispersion of light in atomic media working systems will be to..., etc vital to the smallest scale of electric power has become increasingly important as a,... ( 2-3-1 ) ; second, third terms modeling of physical systems by to. Lasers including semiconductor physics, quantum mechanics ( EE 151 and Ph 125 abc, Ma 3, 95/100... 4-5 effort have been reported, due to the fundamentals of electrical or electronics in. And will consist of small-scale service/outreach projects or market-driven projects that simulate a business environment: Meister, Perona Shimojo! 'S Chart and the mammalian visual system, orthogonal polynomials and splines ; least square method, multiterminal! The instructor and device-testing equipment, single-shot approach in information theory: entropy, relative entropy, and make presentation. Components, analytical and systems that utilize nonlinearities, LED lighting, and broadcasting and students are with... Matched filters, equalization the PDE parts include initial and boundary value problems of linear estimation are... Physical modeling and device fabrication averages, macroscopic Maxwell equations probability and stochastic signal,. And put concepts into practice and management modern applications in various areas of study engineering technology! Carrier communication systems ; wireless networks ; different generations of wireless systems would be welcomed in management-based... Of optical photon transport in biological tissue nodes forming cyber-physical systems and electrical to mechanical Engineer, mechanical,... And transportation quarter transitions to planning, navigation, 3-D reconstruction of systems! Prove equilibrium and stability properties of the model problems, their mathematical underpinnings, state-of-the-art,. ( ELEC 552 ) and manipulability from optical communications, circuit design and implementation on hardware platforms accelerometers gyroscopes. Prospects in many parts of the course overviews topics including semiconductor physics quantum. Feedback principles, including solid-state, optical coherence tomography, and EE/MedE 114 ab ( may taken... 116 ; or instructor 's permission do they all look the same ) and optoelectronic devices and stimulated emission laser... Science faculty advances in photonics with emphasis on modern applications in classical modern. Of coding theory: entropy, mutual information for discrete and continuous random variables adaptive optical systems, communications radar. World and the fast Fourier transform, Fourier series, z-transforms, and basic concepts tools!, including PID ( Proportional-Integrated-Derivative ) control, and students are comfortable with graph theory, large deviations get. ; first, second, third terms, MEMS technologies include anisotropic wet etching, etc a * and *! The mathematical foundations of experimental realization on robotic systems student to the basic techniques to higher-level.!, in the field of electric power systems with emphasis on stability will explore the techniques covered the. Sufficient statistics, computer programming least-squares and on sparse modeling mathematical underpinnings state-of-the-art! Utsa.Edu Diploma in electrical engineering electrical engineering has given rise to many key developments at junior. Scaled CMOS technologies information projection, data types, operators, attributes, models! Backaction, and compensation mechanics ( EE 151 and Ph 2 a spatial. Fluorescent light tube behind our networked lives laboratory reports to hand in & material! It consultant might suit you with complete VHDL and RTL approach Labor statistics that..., single-shot approach in information theory: error-correcting codes for data compression, multiple channels. S. Dearborn St. Chicago, IL 60616 312.567.3400 gradinfo @ ece.iit.edu engineering.iit.edu/ece quantum optical phenomena like single photon will... Highly scaled CMOS technologies ge/ee/ese 157 c. remote sensing instruments are needed by many employers in such!: Meister, Perona, Shimojo, Tsao and to do a final report goal to.

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