Transmission characteristics, media interfacing, delay, distortion, noise, and error detection and correction techniques. Description: Mathematical descriptions of signals in communication systems. Principles of analog modulation and demodulation. Performance analysis of analog communication systems in the presence of noise. Description: Discrete system analysis using Z-transforms. Analysis and design of digital filters. Discrete Fourier transforms.
Description: Principals of digital transmission of information in the presence of noise. Description: Introduction to the concepts of Information Theory and Redundancy removal. Description: Standard telecommunications protocols, architecture of long distance integrated data networks, local area networks, wide area networks, radio and satellite networks.
Network management, internetworking, system modeling and performance analysis. Description: Engineering application of Maxwell's equations. Fundamental Parameters of Antennas. Radiation, analysis, and synthesis of antenna arrays. Aperture Antennas. Description: Applications of active and passive devices to microwave systems. Includes impedance matching, resonators, and microwave antennas. Description: Analysis and design of analog integrated circuits both bipolar and MOS.
Basic circuit elements such as differential pairs, current sources, active loads, output drivers used in the design of more complex analog integrated circuits. Fabrication technology and device modelling. Design rules for integrated circuit layout.
LSI design options with emphasis on the standard cell approach of digital and analog circuits. Lab experiments, computer simulation and layout exercises. Description: High-speed access control protocols, routing protocols, traffic management, and network topologies. Performance modeling and simulation techniques. Description: Concepts on mobile and personal communications. Modulation techniques for mobile radio, equalization, diversity, channel coding, and speech coding.
Description: Synthesis using state machines; design of digital systems; micro programming in small controller design; hardware description language for design and timing analysis. Description: The fundamental concepts of satellite communications. Orbits, launching satellites, modulation and multiplexing, multiple access, earth stations, coding, interference and special problems in satellite communications.
Description: The fundamental concepts of wireless communications. Basic communications concepts such as multiple access and spectrum. Propagation, radio standards and internet working. Current issues in wireless communications. Description: Hardware development languages, hardware organization and realization, microprogramming, interrupt, intersystem communication, and peripheral interfacing.
Description: Fundamentals of lightwave communication in optical fiber waveguides, physical description of fiber optic systems. Properties of the optical fiber and fiber components. Electro-optic devices: light sources and modulators, detectors and amplifiers; optical transmitter and receiver systems. Fiber optic link design and specification; fiber optic networks.
Description: Physics of electronic transition production stimulated emission of radiation. Threshold conditions for laser oscillation. Types of lasers and their applications in engineering.
Description: Fundamental theory of antennas and radio propagation for wireless communications. Basic antenna characteristics and various antennas and antenna arrays. Basic propagation mechanisms and various channel models, such as Friis free space model, Hata model, lognormal distribution, and multipath model.
Design projects will be assigned as the main part of course. Description: Network security and cryptographic protocols. Classical encryption techniques, block ciphers and stream cyphers, public-key cryptography, authentications digital signatures, key management and distributions, network vulnerabilities, transport-level security, IP security.
Description: Introduction to the use of electromagnetic radiation for performing optical measurements in engineering applications. Basic electromagnetic theory and light interaction with matter are covered with corresponding laboratory experiments conducted. Description: A comprehensive overview on the recent advances in wireless network and system security.
Covers security issues and solutions in emerging wireless access networks and systems as well as multihop wireless networks. The first in a two semester electrical engineering capstone senior design course sequence. Description: A substantial design project that allows application of electrical engineering skills to a multidisciplinary project.
Requires project definition, planning and scheduling, effective written and oral communication of technical ideas, incorporation of realistic constraints and engineering standards, functioning effectively on a multidisciplinary team, and applying new ideas as needed to meet project goals. The first in a two semester computer engineering capstone senior design course sequence. Description: A substantial design project that allows application of computer engineering skills to a multidisciplinary project.
Offered as the need arises for electrical engineering topics for fourth-year and graduate students not covered in other courses. Prerequisites: Senior standing in electrical engineering; admission to the University Honors Program.
Description: Honors thesis research project meeting the requirements of the University Honors Program. Independent research project executed under the guidance of a member of the faculty of the Department of Electrical Engineering which contributes to the advancement of knowledge in the field. Culminates in the presentation of an honors thesis to the department and college. Actual course selection and sequence may vary and should be discussed individually with your college or department academic advisor.
Advisors also can help you plan other experiences to enrich your undergraduate education such as internships, education abroad, undergraduate research, learning communities, and service learning and community-based learning. The following represents a sample of the internships, jobs and graduate school programs that current students and recent graduates have reported.
Toggle menu. Toggle search Search Search. Save Engineering Electrical Engineering. MATH PHYS JGEN COMM ECEN Prerequisites: Open to first year students only or by permission. Introduction to Electrical and Computer Engineering. Requires a ECE departmentally approved proposal. Prerequisites: Freshman standing. Prerequisites: Permission. Prerequisites: Sophomore standing. Lab exercises provide practical experience with design tools and the design process.
Electrical Engineering Internship or Cooperative Education. Prerequisites: Junior standing. Prerequisites: Electrical engineering seniors. ECEN R. Prerequisites: Senior standing in engineering. Prerequisites: Senior or graduate standing. Prerequisites: Senior standing. Prerequisites: By permission. Prerequisites: Prior programming experience. The second in a two semester capstone senior design course sequence. ECEN H. Icon Legend: Critical. Engr Seminar. ENGR 10 becomes critical to your success in the major if not completed by the end of the first term of enrollment.
Elec Engr Core Term 1. ACE 3 Calculus I. MATH becomes critical to your success in the major if not completed by the end of the second term of enrollment. ACE 4 Science Elective. Also select a lab if required by the selected course. ACE 5 Humanities. Complete an ACE 5, 6, 7, 8, or 9 requirement this term. Elec Engr Core Term 2. ECEN becomes critical to your success in the major if not completed by the end of the fourth term of enrollment. MATH is critical to your success in the major if not completed by the end of the third term of enrollment.
ACE 4 General Physics. Computer Programming. CSCE E becomes critical to your success in the major if not completed by the end of the third term of enrollment.
Elec Engr Core Term 3. ECEN becomes critical to your success in the major if not completed by the end of the fourth term. Soph Seminar Term 3. ENGR 20 becomes critical to your success in the major if not completed by the end of the fifth term of enrollment. MATH becomes critical to your success in the major if not completed by the end of the fourth term of enrollment.
ACE 2 Comm Skills. Elec Engr Core Term 4. ECEN becomes critical to your success in the major if not completed by the end of the fifth term of enrollment. Differential Equations. MATH becomes critical to your success in the major if not completed by the end of the fifth term of enrollment. Science Elective. ACE 6 Social Sciences.
Elec Engr Core Term 5. ACE 7 Arts. Universidad Nacional del Sur , University Professor, , Chen, Zhong, Ph. North Carolina State University , M.
National University of Singapore , B. Zhejiang University , Assistant Professor, Dix, Jeffrey, Ph. El-Ghazaly, Samir M. University of Texas at Austin , M. Cairo University , Distinguished Professor, El-Shenawee, Magda O. University of Nebraska-Lincoln , M. Assiut University, Egypt , Professor, , Manasreh, Omar, Ph. University of Arkansas , M.
University of Jordan , Professor, Mantooth, Alan, Ph. Georgia Institute of Technology , M. Martin, Terry W. University of Arkansas , Professor, , McCann, Roy A. University of Dayton , M. University of Illinois , Professor, , Naseem, Hameed A. Virginia Polytechnic State University , M. Panjab University , University Professor, Saunders, Robert F. University of Arkansas , Instructor, Spiesshoefer, Silke, Ph. University of Arkansas , Clinical Assistant Professor, Ware, Morgan, Ph.
North Carolina State University , B. Florida State University , Assistant Professor, Wu, Jingxian, Ph. University of Missouri-Columbia , M.
Tsinghua University , B. Yu, Fisher, Ph. Arizona State University , M. Peking University , Associate Professor, , Zhao, Yue, Ph. University of Nebraska-Lincoln , B. Beijing University , Assistant Professor, ELEG Electric Circuits I.
Introduction to circuit variables, elements, and simple resistive circuits. Analysis techniques applied to resistive circuits. The concept of inductance, capacitance and mutual inductance. Corequisite: Lab component.
Prerequisite: PHYS Typically offered: Fall and Summer. Electric Circuits II. Introduction to complex numbers. Sinusoidal steady-state analysis of electric circuits, active, reactive, apparent and complex power; balanced and unbalanced three-phase circuits; mutual inductance; the use of the Laplace transform for electric circuit analysis and two-port networks. Typically offered: Spring and Summer. ELEG V.
Special Topics in Electrical Engineering. Consideration of current electrical engineering topics not covered in other courses. Typically offered: Irregular May be repeated for up to 4 hours of degree credit. Digital Design. To introduce students to modern logic concepts, problem solving and design principles, and vocabulary and philosophy of the digital world. Prerequisite: Engineering major.
Definition and description of signals and systems; analog, digital, continuous- and discrete-time and frequency analysis of systems, Z- and Fourier Transforms, sampling and signal reconstruction, filter design and engineering applications.
Typically offered: Fall. ELEG H. Review of system analysis, probability, random variables, stochastic processes, auto correlation, power spectral density, systems with random inputs in the time and frequency domain, and applications.
Prerequisite: ELEG Typically offered: Spring. Electronics I. Course has a lab component. Prerequisite: MATH Typically offered: Fall and Spring. Honors Electronics I. Electronics II.
Differential pair amplifier, current mirrors, active loads, multistage amplifiers, amplifier frequency response, bode plots, Millers theorem, short circuit and open circuit time constant methods, feedback amplifiers, and stability of feedback amplifiers. Honors Electronics II. Energy Systems. Steady state analysis of DC machines, transformers, induction machines and synchronous machines. Introduction to speed control of electric machines using power electronics.
Honors Energy Systems. Applied Electromagnetics. Analysis of transmission lines with sinusoidal and transient excitation. Development and use of the Smith Chart and methods of impedance matching. Vector analysis, static form of Maxwell's equations, electrostatics, and magnetostatics. Honors Applied Electromagnetics. Typically offered: Irregular May be repeated for up to 9 hours of degree credit. Electric Circuits and Machines. Basic electrical principles and circuits; Introduction to sinusoidal steady-state analysis of electric circuits, active, reactive, and complex power; balanced three-phase circuits; Steady-state analysis of electric machines and transformers.
Introduction to power electronics for machine speed control and alternative energy sources. For engineering students other than those in electrical engineering. Microprocessor Systems Design. Introduction to 8-bit microprocessors and their application. Microprocessor architecture and assembly language; interface devices; system design using microprocessors.
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