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| electrical engineering course curriculum: Artificial Intelligence Cherry Bhargava, Pradeep Kumar Sharma, 2021-07-28 This comprehensive reference text discusses the fundamental concepts of artificial intelligence and its applications in a single volume. Artificial Intelligence: Fundamentals and Applications presents a detailed discussion of basic aspects and ethics in the field of artificial intelligence and its applications in areas, including electronic devices and systems, consumer electronics, automobile engineering, manufacturing, robotics and automation, agriculture, banking, and predictive analysis. Aimed at senior undergraduate and graduate students in the field of electrical engineering, electronics engineering, manufacturing engineering, pharmacy, and healthcare, this text: Discusses advances in artificial intelligence and its applications. Presents the predictive analysis and data analysis using artificial intelligence. Covers the algorithms and pseudo-codes for different domains. Discusses the latest development of artificial intelligence in the field of practical speech recognition, machine translation, autonomous vehicles, and household robotics. Covers the applications of artificial intelligence in fields, including pharmacy and healthcare, electronic devices and systems, manufacturing, consumer electronics, and robotics. |
| electrical engineering course curriculum: Signals and Systems Gang Li, Liping Chang, Sheng Li, 2015-10-16 Signals and systems enjoy wide application in industry and daily life, and understanding basic concepts of the subject area is of importance to undergraduates majoring in engineering. With rigorous mathematical deduction, this introductory text book is helpful for students who study communications engineering, electrical and electronic engineering, and control engineering. Additionally, supplementary materials are provided for self-learners. |
| electrical engineering course curriculum: Electronic Materials L.S. Miller, J.B. Mullin, 2012-12-06 Electronic materials are a dominant factor in many areas of modern technology. The need to understand'them is paramount; this book addresses that need. The main aim of this volume is to provide a broad unified view of electronic materials, including key aspects of their science and technology and also, in many cases, their commercial implications. It was considered important that much of the contents of such an overview should be intelligible by a broad audience of graduates and industrial scientists, and relevant to advanced undergraduate studies. It should also be up to date and even looking forward to the future. Although more extensive, and written specifically as a text, the resulting book has much in common with a short course of the same name given at Coventry Polytechnic. The interpretation of the term electronic materials used in this volume is a very broad one, in line with the initial aim. The principal restriction is that, with one or two minor exceptions relating to aspects of device processing, for example, the materials dealt with are all active materials. Materials such as simple insulators or simple conductors, playing only a passive role, are not singled out for consider ation. Active materials might be defined as those involved in the processing of signals in a way that depends crucially on some specific property of those materials, and the immediate question then concerns the types of signals that might be considered. |
| electrical engineering course curriculum: A First Course in Electrical and Computer Engineering Louis L. Scharf, Richard T. Behrens, 1990 |
| electrical engineering course curriculum: Schaum's Outline of Basic Electrical Engineering J. J. Cathey, Syed A. Nasar, 1996-11-22 Students will quickly understand the popularity of this helpful sourcebook--the first edition sold 46,000 copies! The chief emphasis is on solving realistic problems, hundreds of which are included with detailed solutions. This popular study guide concisely yet clearly covers all the areas taught in two-semester survey courses and serves as an ideal review for electrical engineers and others looking for high ratings on the Professional Engineer's Examination. |
| electrical engineering course curriculum: Introduction to Hardware Security and Trust Mohammad Tehranipoor, Cliff Wang, 2011-09-22 This book provides the foundations for understanding hardware security and trust, which have become major concerns for national security over the past decade. Coverage includes security and trust issues in all types of electronic devices and systems such as ASICs, COTS, FPGAs, microprocessors/DSPs, and embedded systems. This serves as an invaluable reference to the state-of-the-art research that is of critical significance to the security of, and trust in, modern society’s microelectronic-supported infrastructures. |
| electrical engineering course curriculum: Introduction to Electrical Engineering Clayton R. Paul, S. A. Nasar, L. E. Unnewehr, 1992 |
| electrical engineering course curriculum: Mathematics for Computer Science Eric Lehman, F. Thomson Leighton, Albert R. Meyer, 2017-03-08 This book covers elementary discrete mathematics for computer science and engineering. It emphasizes mathematical definitions and proofs as well as applicable methods. Topics include formal logic notation, proof methods; induction, well-ordering; sets, relations; elementary graph theory; integer congruences; asymptotic notation and growth of functions; permutations and combinations, counting principles; discrete probability. Further selected topics may also be covered, such as recursive definition and structural induction; state machines and invariants; recurrences; generating functions. |
| electrical engineering course curriculum: Mike Holt's Illustrated Guide to Electrical Exam Preparation, Based on the 2017 NEC Mike Holt, 2017-05-02 |
| electrical engineering course curriculum: Introduction to Engineering W. Lionel Craver, Darrell C. Schroder, Anthony J. Tarquin, 1987 A survey of the typical curricula for engineering students, this comprehensive text provides a broad yet depth coverage of Engineering. Concise and structured, the text offers instructors the flexibility to choose and emphasize certain topics within the course. Each author is an expert in adifferent branch of engineering-electrical engineering, civil engineering, and mechanical engineering. |
| electrical engineering course curriculum: Random Processes for Engineers Bruce Hajek, 2015-03-12 This engaging introduction to random processes provides students with the critical tools needed to design and evaluate engineering systems that must operate reliably in uncertain environments. A brief review of probability theory and real analysis of deterministic functions sets the stage for understanding random processes, whilst the underlying measure theoretic notions are explained in an intuitive, straightforward style. Students will learn to manage the complexity of randomness through the use of simple classes of random processes, statistical means and correlations, asymptotic analysis, sampling, and effective algorithms. Key topics covered include: • Calculus of random processes in linear systems • Kalman and Wiener filtering • Hidden Markov models for statistical inference • The estimation maximization (EM) algorithm • An introduction to martingales and concentration inequalities. Understanding of the key concepts is reinforced through over 100 worked examples and 300 thoroughly tested homework problems (half of which are solved in detail at the end of the book). |
| electrical engineering course curriculum: Introduction to Power Electronics Daniel W. Hart, 1997 This text provides coverage of computer simulation and introductory material on power calculations, as it treats power computations, rectifiers, dc-dc converters and dc power supplies, inverters, and resonant converters. |
| electrical engineering course curriculum: Electric Machines and Drives Miroslav Chomat, 2011-02-28 The subject of this book is an important and diverse field of electric machines and drives. The twelve chapters of the book written by renowned authors, both academics and practitioners, cover a large part of the field of electric machines and drives. Various types of electric machines, including three-phase and single-phase induction machines or doubly fed machines, are addressed. Most of the chapters focus on modern control methods of induction-machine drives, such as vector and direct torque control. Among others, the book addresses sensorless control techniques, modulation strategies, parameter identification, artificial intelligence, operation under harsh or failure conditions, and modelling of electric or magnetic quantities in electric machines. Several chapters give an insight into the problem of minimizing losses in electric machines and increasing the overall energy efficiency of electric drives. |
| electrical engineering course curriculum: Foundations of Analog and Digital Electronic Circuits Anant Agarwal, Jeffrey Lang, 2005-07-01 Unlike books currently on the market, this book attempts to satisfy two goals: combine circuits and electronics into a single, unified treatment, and establish a strong connection with the contemporary world of digital systems. It will introduce a new way of looking not only at the treatment of circuits, but also at the treatment of introductory coursework in engineering in general. Using the concept of ''abstraction,'' the book attempts to form a bridge between the world of physics and the world of large computer systems. In particular, it attempts to unify electrical engineering and computer science as the art of creating and exploiting successive abstractions to manage the complexity of building useful electrical systems. Computer systems are simply one type of electrical systems.+Balances circuits theory with practical digital electronics applications.+Illustrates concepts with real devices.+Supports the popular circuits and electronics course on the MIT OpenCourse Ware from which professionals worldwide study this new approach.+Written by two educators well known for their innovative teaching and research and their collaboration with industry.+Focuses on contemporary MOS technology. |
| electrical engineering course curriculum: Partial Differential Equations and Their Applications Peter Charles Greiner, Canadian Mathematical Society. Seminar, 1997-01-01 Just list for purposes of NBB. |
| electrical engineering course curriculum: Electromagnetics Steven Ellingson, 2019-12-13 |
| electrical engineering course curriculum: Topological Signal Processing Michael Robinson, 2014-01-07 Signal processing is the discipline of extracting information from collections of measurements. To be effective, the measurements must be organized and then filtered, detected, or transformed to expose the desired information. Distortions caused by uncertainty, noise, and clutter degrade the performance of practical signal processing systems. In aggressively uncertain situations, the full truth about an underlying signal cannot be known. This book develops the theory and practice of signal processing systems for these situations that extract useful, qualitative information using the mathematics of topology -- the study of spaces under continuous transformations. Since the collection of continuous transformations is large and varied, tools which are topologically-motivated are automatically insensitive to substantial distortion. The target audience comprises practitioners as well as researchers, but the book may also be beneficial for graduate students. |
| electrical engineering course curriculum: Bioinstrumentation John G. Webster, 2003-08-18 Addresses measurements in new fields such as cellular and molecular biology. Equips readers with the necessary background in electric circuits. Statistical coverage shows how to determine trial sizes. |
| electrical engineering course curriculum: Applied Magnetism R. Gerber, C.D. Wright, G. Asti, 2013-03-09 This book is based on the contributions to a course, entitled Applied Magnetism, which was the 25th Course of the International School of Materials Science and Technology. The Course was held as a NATO Advanced Study Institute at the Ettore Majorana Centre in Erice, Sicily, Italy between the 1st and 12th July 1992, and attracted almost 70 participants from 15 different countries. The book deals with the theory, experiments and applications of the main topical areas of applied magnetism. These selected areas include the physics of magnetic recording, magnetic and magneto-optic recording devices, systems and media, magnetic fine particles, magnetic separation, domains and domain walls in soft magnetic materials, permanent magnets, magnetoresistance, thin film magneto-optics, and finally, microwave, optical and computational magnetics. The material is organised into I 0 self-contained chapters which together provide a comprehensive coverage of the subject of applied magnetism. The aim is to emphasise the connection between the fundamental theoretical concepts, key experiments and the important technological developments which have been achieved in this field up to the present time. Moreover, when and where possible, pointers to future trends are indicated which hopefully, together with the background material, will promote further advancement of research. The organizing committee would like to acknowledge the sponsorship of the NATO Scientific Affairs Division, the National Science Foundation of the USA, the Science and Engineering Research Council of the UK, the Italian Ministry of Education, the Italian Ministry of University and Scientific Research and the Sicilian Regional Government. |
| electrical engineering course curriculum: Electronics and Communications for Scientists and Engineers Martin Plonus, 2001-03-29 Circuit Fundamentals. -- AC Circuits. -- Diode Applications. -- Semiconductor Diodes and Transistors. -- Practical Amplifier Circuits. -- Operational Amplifiers. -- Digital Electronics. -- The Digital Computer. -- Digital Systems. |
| electrical engineering course curriculum: Fundamentals of Microelectronics Behzad Razavi, 2013-04-08 Fundamentals of Microelectronics, 2nd Edition is designed to build a strong foundation in both design and analysis of electronic circuits this text offers conceptual understanding and mastery of the material by using modern examples to motivate and prepare readers for advanced courses and their careers. The books unique problem-solving framework enables readers to deconstruct complex problems into components that they are familiar with which builds the confidence and intuitive skills needed for success. |
| electrical engineering course curriculum: A Century of Electrical Engineering and Computer Science at MIT, 1882-1982 Karl L. Wildes, Nilo A. Lindgren, 1985 The book's text and many photographs introduce readers to the renowned teachers and researchers who are still well known in engineering circles. Electrical engineering is a protean profession. Today the field embraces many disciplines that seem far removed from its roots in the telegraph, telephone, electric lamps, motors, and generators. To a remarkable extent, this chronicle of change and growth at a single institution is a capsule history of the discipline and profession of electrical engineering as it developed worldwide. Even when MIT was not leading the way, the department was usually quick to adapt to changing needs, goals, curricula, and research programs. What has remained constant throughout is the dynamic interaction of teaching and research, flexibility of administration, the interconnections with industrial progress and national priorities. The book's text and many photographs introduce readers to the renowned teachers and researchers who are still well known in engineering circles, among them: Vannevar Bush, Harold Hazen, Edward Bowles, Gordon Brown, Harold Edgerton, Ernst Guillemin, Arthur von Hippel, and Jay Forrester. The book covers the department's major areas of activity -- electrical power systems, servomechanisms, circuit theory, communications theory, radar and microwaves (developed first at the famed Radiation Laboratory during World War II), insulation and dielectrics, electronics, acoustics, and computation. This rich history of accomplishments shows moreover that years before Computer Science was added to the department's name such pioneering results in computation and control as Vannevar Bush's Differential Analyzer, early cybernetic devices and numerically controlled servomechanisms, the Whirlwind computer, and the evolution of time-sharing computation had already been achieved. |
| electrical engineering course curriculum: Catalog for ... University of Maine, 1924 |
| electrical engineering course curriculum: Electrical, Level 1 NCCER, 2021-02-09 Completelyupdated to the 2020 NEC(R)! Features ahighly illustrated design, technical hints and tips from industry experts, review questions and a whole lot more! Key content includes: OccupationalOverview: The Electrical Industry, Safety for Electricians, Introductionto Electrical Circuits, Electrical Theory, Introduction tothe National Electrical Code(R), Device Boxes, Hand Bending, Wireways, Raceways and Fittings, Conductors and Cables, Basic Electrical Construction Drawings, Residential Electrical Services, and Electrical TestEquipment. |
| electrical engineering course curriculum: Catalog University of Maine at Orono, 1927 |
| electrical engineering course curriculum: Computational Electromagnetism Alain Bossavit, 1998-02-04 Computational Electromagnetism refers to the modern concept of computer-aided analysis, and design, of virtually all electric devices such as motors, machines, transformers, etc., as well as of the equipment inthe currently booming field of telecommunications, such as antennas, radars, etc. The present book is uniquely written to enable the reader-- be it a student, a scientist, or a practitioner-- to successfully perform important simulation techniques and to design efficient computer software for electromagnetic device analysis. Numerous illustrations, solved exercises, original ideas, and an extensive and up-to-date bibliography make it a valuable reference for both experts and beginners in the field. A researcher and practitioner will find in it information rarely available in other sources, such as on symmetry, bilateral error bounds by complimentarity, edge and face elements, treatment of infinite domains, etc. At the same time, the book is a useful teaching tool for courses in computational techniques in certain fields of physics and electrical engineering. As a self-contained text, it presents an extensive coverage of the most important concepts from Maxwells equations to computer-solvable algebraic systems-- for both static, quasi-static, and harmonic high-frequency problems.BenefitsTo the EngineerA sound background necessary not only to understand the principles behind variational methods and finite elements, but also to design pertinent and well-structured software.To the Specialist in Numerical ModelingThe book offers new perspectives of practical importance on classical issues: the underlying symmetry of Maxwell equations, their interaction with other fields of physics in real-life modeling, the benefits of edge and face elements, approaches to error analysis, and complementarity.To the TeacherAn expository strategy that will allow you to guide the student along a safe and easy route through otherwise difficult concepts: weak formulations and their relation to fundamental conservation principles of physics, functional spaces, Hilbert spaces, approximation principles, finite elements, and algorithms for solving linear systems. At a higher level, the book provides a concise and self-contained introduction to edge elements and their application to mathematical modeling of the basic electromagnetic phenomena, and static problems, such as eddy-current problems and microwaves in cavities.To the StudentSolved exercises, with hint and full solution sections, will both test and enhance the understanding of the material. Numerous illustrations will help in grasping difficult mathematical concepts. |
| electrical engineering course curriculum: Electrical Engineering Allan R. Hambley, 2005 CD-ROMs contains: 2 CDs, one contains the Student Edition of LabView 7 Express, and the other contains OrCAD Lite 9.2. |
| electrical engineering course curriculum: Advanced Mathematics for Electronics Technicians United States. Bureau of Naval Personnel, 1951 |
| electrical engineering course curriculum: The Art of Electronics Paul Horowitz, Winfield Hill, 2021 |
| electrical engineering course curriculum: Catalogue Kansas State Agricultural College, Kansas State College of Agriculture and Applied Science, Kansas State University, 1922 |
| electrical engineering course curriculum: Power Circuits and Electromechanics M. A. Pai, 2009 Power Circuits and Electromechanics is intended to serve as a one semester introductory course in power circuits and electromechanical energy conversion. In many curricula, the traditional circuit theory course is being replaced by a course in analog processing. The students should have basic exposure to KCL, KVL and simple circuits as well as a course in field theory or electromagnetism before taking this course. The book is basically in three modules. The first module covers complex power in single and three phase circuits, analysis of magnetic circuits, mutually coupled circuits and single phase transformers. The second module, drawing upon the quasi-static approximation of magnetic field equations, develops the concepts of electromechanical energy conversion, forces of electric origin leading to the dynamics equations of motion of the electromechanical system. A brief introduction to state space modeling, static equilibrium and stability is included. The third module discusses in the energy, co-energy framework, the torque of electric origin in synchronous, induction and DC machines. In each case, the equivalent circuit for the machine for steady state operation is developed for analysis purposes. A brief discussion of single phase motors is presented at the end. |
| electrical engineering course curriculum: Multimedia Telecommunications B. Whyte, 1997-07-31 In this volume, written by engineers at the centre of the development of the industry, will be found a comprehensive survey of the wide range of applications encompassed by the term 'Multimedia Telecommunications'. From broadcast television to the specifics of data communications, from entertainment to decision-making, from the human interface to the details of the technology, all are essential facets of the subjects and are treated in this volume. For all users and providers of any form of multimedia service, researchers, development engineers, computer providers or users, IT and Information System managers, change managers in business or in the entertainment industry,Multimedia Telecommunications is essential reading. |
| electrical engineering course curriculum: Principles of Computer System Design Jerome H. Saltzer, M. Frans Kaashoek, 2009-05-21 Principles of Computer System Design is the first textbook to take a principles-based approach to the computer system design. It identifies, examines, and illustrates fundamental concepts in computer system design that are common across operating systems, networks, database systems, distributed systems, programming languages, software engineering, security, fault tolerance, and architecture.Through carefully analyzed case studies from each of these disciplines, it demonstrates how to apply these concepts to tackle practical system design problems. To support the focus on design, the text identifies and explains abstractions that have proven successful in practice such as remote procedure call, client/service organization, file systems, data integrity, consistency, and authenticated messages. Most computer systems are built using a handful of such abstractions. The text describes how these abstractions are implemented, demonstrates how they are used in different systems, and prepares the reader to apply them in future designs.The book is recommended for junior and senior undergraduate students in Operating Systems, Distributed Systems, Distributed Operating Systems and/or Computer Systems Design courses; and professional computer systems designers. - Concepts of computer system design guided by fundamental principles - Cross-cutting approach that identifies abstractions common to networking, operating systems, transaction systems, distributed systems, architecture, and software engineering - Case studies that make the abstractions real: naming (DNS and the URL); file systems (the UNIX file system); clients and services (NFS); virtualization (virtual machines); scheduling (disk arms); security (TLS) - Numerous pseudocode fragments that provide concrete examples of abstract concepts - Extensive support. The authors and MIT OpenCourseWare provide on-line, free of charge, open educational resources, including additional chapters, course syllabi, board layouts and slides, lecture videos, and an archive of lecture schedules, class assignments, and design projects |
| electrical engineering course curriculum: Curriculum Handbook with General Information Concerning ... for the United States Air Force Academy United States Air Force Academy, 2004 |
| electrical engineering course curriculum: Design for Electrical and Computer Engineers Ralph Ford, Chris Coulston, 2008 This book is written for students and teachers engaged in electrical and computer engineering (ECE) design projects, primarily in the senior year. It guides students and faculty through the steps necessary for the successful execution of design projects. The objective of the text is to provide a treatment of the design process in ECE with a sound academic basis that is integrated with practical application. It has a strong guiding vision -- that a solid understanding of the Design Process, Design Tools, and the right mix of Professional Skills are critical for project and career success. This text is unique in providing a comprehensive design treatment for ECE. |
| electrical engineering course curriculum: Catalog Number University of Maine, 1919 |
| electrical engineering course curriculum: Catalog United States Naval Academy, 1985 |
| electrical engineering course curriculum: Developments in Engineering Education Standards: Advanced Curriculum Innovations Rasul, Mohammad, 2012-04-30 SUMMARY. |
| electrical engineering course curriculum: Catalog University of Florida, 1919 |
| electrical engineering course curriculum: Borderless Education as a Challenge in the 5.0 Society Ade Gafar Abdullah, Vina Adriany, Cep Ubad Abdullah, 2020-10-21 These proceedings contain a selection of papers presented at the 3rd International Conference on Educational Sciences, organized on 16 November 2019. It covers themes such as philosophy and policy of teacher education; curriculum, teaching and learning approaches; learner’s characteristics in the digital era; global citizenship education; vocational education; teacher education qualification framework; management, supervision and assessment; lifelong learning for all; diversity in education; equality of educational opportunity; vocational and entrepreneurship education; and education in the industry 4.0 era. |
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Approved curriculum framework for Diploma in Electrical Engineering iii 1.0 ACKNOWLEDGEMENTS The Technical Education, Vocational and Entrepreneurship Training …
BACHELOR OF SCIENCE IN ELECTRICAL ENGINEERING
EE 231 Electrical Circuits 1 3 3 4 EPS141;ENM141 EE 242 Engineering Math for EE 3 3 ENM231 ME 230 Basic Thermodynamics 2 2 EPS141;ENM141 EE 243 Electromagnetics 3 3 EPS141; …
Undergrad-Curriculum - Electrical and Computer Engineering
Students who complete first-year engineering requirements can apply to the EE/CPE Dual Degree program. The curriculum follows the Computer Engineering curriculum, taking ECE …
Dual Degree (B.Tech.-M.Tech.) Curriculum - IIT Bombay
COURSE CURRICULUM SEMESTER – VII SEMESTER – VIII Cours e Code Course name Credit structure Course Code Course name Credit structure L T P C L T P C EN 401 Energy …
