EENG 0192. FRESHMAN ENGR. DESIGN. 1st and 2nd Semesters and Summer. Lect. 0, Lab 3, 3 credits. The engineering process involves several components. The starting point in the process is the identification of the engineering problem. This course introduces ¿Û¿Û´«Ã½ to the engineering process. Focus is however on the engineering design process including conceptualization of an idea, development analysis, and documentation. The student will be introduced to MATLAB, a standard tool for mathematical analysis, PSPICE, a standard tool for electrical engineering analysis, as well as Arduino board interfacing and programming to build simple embedded systems. Prerequisite(s): None
EENG 0210. PYTHON PROGRAMMING. 1st and 2nd semesters. Lect. 3, 3 credits. Foundations of computational thinking using the Python programming language. Topics include basics: variables and expressions; flow control: decision and loop structures, data structures: strings, lists, tuples, dictionaries and sets; functions; input/output and file manipulation; modules and libraries; errors and exception handling; object-oriented concepts; recursion; debugging and testing techniques. Prerequisite: MATH 0207.Â
EENG 0221. LINEAR NETWORK AND CIRCUITS I. 1st and 2nd Semester. Lect. 0, Lab 3, 3 credits. Kirchhoff's Laws, nodal analysis, mesh analysis, superposition, source transformation, RL and RC circuits, time constants, transient analysis, unit step function, combined steady state and transient analysis, analysis of RIC circuits. Introduction to AC Analysis. Prerequisite: MATH 0207. Corequisite: EENG 221L.Â
EENG 221L. CIRCUITS I LAB. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Laboratory experiments to supplement EENG 0221. Corequisite: EENG 0221.Â
EENG 0225 - DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA WITH MATLAB. 1st and 2nd semesters. Lect. 3, 3 credits. Fundamental techniques and tools for physical systems modeling through the study of first-order and second-order ordinary differential equations. Structure of mathematical systems through the study of linear algebra; i.e., linear equations and inverse matrices, vector spaces and subspaces, eigenvalues and eigenvectors, and positive definite matrices. Prerequisite: MATHÂ 0208.Â
EENG 0260. INTRODUCTION TO LOGIC CIRCUITS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. An introduction to the analysis and design of logic circuits. Topic includes: Number systems, Boolean Algebra, Boolean functions, truth tables, Kamaugh maps, Gates, flip-flops, combinational and sequential logic circuits, design methods and verification, and an introduction to CAD tools for logic design. Prerequisite: EENG 0292. Corequisite: EENG 260L.Â
EENG 260L. INTRODUCTION TO LOGIC CIRCUITS LABORATORY. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Laboratory and design experiences to accompany EENG 0260. Corequisite: EENG 0260.Â
EENG 0261.MICROPROCESSOR PROGRAMMING APPLICATTION DEVELOPMENT FOR ENGINEERS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits.Overview of microprocessor machine- level programming design and development using C, assembly-language programming, and hardware interfaces. Introduction to algorithm design, analysis and experimentation with application to engineering problems. Prerequisite(s): EENG 0260.
COEG 0300. DISCRETE MATHEMATICS FOR ENGINEERS. 1st semester. Lect. 3, Lab 0, 3 credits. Foundations of discrete mathematics. Topics include proof techniques and induction, sets, relations, and functions, recursion and recurrence Relations, asymptotics notation, asymptotic equivalence and O-notation, combinatorics, discrete probability, Â algebraic structures, and finite-state machines, graphs, and trees. Prerequisite: Â MATH 0207, EENG 210 and CSCI 229.
COEG 0305. FUNDAMENTALS OF CYBERSECURITY ENGINEERING. 1st and 2nd semesters. Lect. 3, 3 credits. This comprehensive introductory course provides fundamental knowledge in the principles, processes, policies, applications and techniques/tools of cybersecurity engineering. Topics include communication and network security; concepts, principles and tools/techniques for web, operating systems, data databases and cloud computing security; cryptography and privacy; risk analysis and incident response, ethical and legal considerations. Prerequisite:Â EENG 0210 and CSCI 0229.
COEG 0311. DATA STRUCTURES AND ALGORITHMS. 1st and 2nd Semesters. Lect. 3, Lab 0, 3 Credits. This course introduces abstract data structures, analysis and design of complex algorithms. Topics include abstract data types: stacks, queues, lists, trees, hash tables, graphs and their applications. Analysis and design of algorithms including sorting, searching, recursive, and greedy algorithms are also discussed. Asymptotic algorithm analysis is introduced for complex algorithm analysis. Prerequisite:Â CSCI 0229Â
EENG 0315. ELECTROMAGNETIC THEORY & APPLICATION.1st and 2nd Semesters. Lect. 3, Lab 0, 3 credits. Electrostatic and magnetostatic fields; Time varying fields and Maxwell's equations; Electromagnetic wave propagation through free space and dielectric mediums; Wave propagation through transmission lines; Waveguides; Antenna and radiation. Prerequisite: MATH 0307, EENG 0322.
EENG 0322. LINEAR NETWORK AND CIRCUITS II. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Current and voltage relationships for circuits with a.c. excitation sources. Circuit laws and network theorems using frequency domain techniques. Introduction of power systems such as multi-phase networks and transformers. Prerequisites: EENG 0221, EENG 221L.Â
EENG 0322L. LINEAR NETWORKs AND CIRCUITS II LAB. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Construction and analysis of electrical circuits. Use of electronic instruments such as oscilloscope, function generator, power supply, and multimeter to measure quantities related to RLC circuits. Measurement of frequency response and determination of network function of an RLC circuit. Use of PSPICE circuit simulation software to simulate and analyze electrical circuits. Prerequisite(s): MATH 0208, EENG 0221, EENG 0221L.
EENG 0323. SIGNALS AND SYSTEMS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Signal analysis. Time domain analysis of electrical/electronic circuits. Fourier and Laplace Transforms and selected applications in circuit and system theory. Prerequisites: EENG 0322, and MATH 0307.Â
EENG 0324. DIGITAL SIGNAL PROCESSING. 2nd Semester. Lect. 3, Lab 0, 3 credits. Discrete-time signals and systems; Z-Transforms; Discrete Fourier Transforms; Digital Filter Design techniques; Computation of Discrete Fourier Transforms. Prerequisite EENG 0323 or Permission of Instructor.Â
EENG 0325. ELECTRONICS I. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Introduction to basic semiconductor devices, including JFETS, MOSFETS, BIPOLAR transistors. Analysis of basic amplifier and selected switching circuits. Design of microelectronic components and circuits. Corequisites: EENG 0322 and 325L.Â
EENG 325L. ELECTRONICS I LAB. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Experimental study of electronic circuit fundamentals with emphasis on device characteristics, basic amplifiers, and switching applications. Design of electronic circuits. Corequisite: EENG 0325.Â
EENG 0330. ELECTRONICS II. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Design and analysis of electronic circuits and devices. Semiconductor processes, discrete devices and integrated circuits. Equivalent circuits and modeling, Linear and digital integrated circuit applications. Prerequisite: EENG 0325. Corequisite: EENG 330L.Â
EENG 330L ELECTRONICS II LAB. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Conventional and Experimental study of electronic circuit design and analysis. Conventional and unconventional solutions to design and analysis problems. Corequisite: EENG 0330.Â
EENG 0360. MICROPROCESSORS.  Ist and 2nd Semester. Lect. 2, Lab 3, 3 credits. Operation and applications of microprocessors including system level organization, analysis of specific processors and software and hardware interface design. Microprocessor development systems including in-circuit emulation, programming using higher-level languages, and implementation of application algorithms. Laboratory work is required. Prerequisites: EENG 0260, EENG 260L, CSCI 0229.Â
EENG 0380. PRINCIPLES OF ELECTRICAL ENGINEERING. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. (For non EENG majors only). Circuit analysis; network theorems, electronic devices and engineering applications, electromagnetics, digital devices, electromechanical systems, electronic circuits, instruments and instrumentation systems. Prerequisites: PHYS 0311, MATH 0208. Corequisite: EENG 380L.Â
EENG 380L. ELECTRICAL ENGINEERING LABORATORY. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Laboratory experiments to accompany EENG 0380. Corequisite: EENG 0380.Â
EENG 0390. ENGINEERING ETHICS AND SOCIETY. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. This course provides ¿Û¿Û´«Ã½ with an understanding of the nature of engineering ethics in the societal context and discusses contemporary ethical issues in the engineering profession through illustrative case studies. Prerequisites: Advisors approval or junior standing.
EENG 0400. MICROELECTRONICS. 2nd Semester. Lect. 3, Lab 0, 3 credits. Physics of semiconductor devices. Theory of operation of semiconductor devices including semiconductor fundamentals, PN junction diodes, bipolar junction transistors, and field-effect transistors. Monolithic IC technology; semiconductor fabrication processes and applications. Prerequisite or Co-requisite: EENG 0330, EENG 0315
EENG 0401. COMMUNICATION THEORY. 2nd Semester. Lect. 3, Lab 0, 3 credits. This course gives an introduction to basic principles of communication theory with emphasis on analog modulation systems. The topics to be covered are a review of signals and systems, amplitude, phase and frequency modulation, modulated waveform generation and detection techniques, effects of noise in analog communication systems and frequency division multiplexing. Prerequisite(s): EENG 0323.
EENG 0402. FUNDAMENTALS OF ENERGY AND POWER SYSTEMS. 1st and 2nd semesters. Lect. 3, Lab 0, 3 credits. Provide solid knowledge in fundamentals of power systems: generation, distribution and utilization systems. Analysis of three -phase circuits. Magnetic circuit concepts. Analysis of transformers and AC machines. Balanced Power Systems at Steady state conditions. Transmission line calculations. Systems analysis using bus admittance and impedance matrices. Power-flow analysis. Economic dispatch problem. Prerequisite(s): EENG 0225, EENG 0315, EENG 0322.
COEG 0405. INTERNET OF THINGS. 1st and 2nd semesters. Lect. 3, 3 credits. Practical introduction to web technologies and IoT networking fundamentals; overview of hardware platforms for IoT implementations; IoT architectures and applications; Security aspects of IoT; IoT application development protocols and the design of back-end applications; Case studies; hands-on designs and implementations of IoT systems for selected applications. Prerequisite: EENG 0210, CSCI 0229, EENG 0360 and EENG 0425.Â
COEG 0410. COMPUTER HARDWARE DESIGN. 1st and 2nd Semesters. Lect. 3, Lab 0, 3 Credits. The course introduces core concepts of computer hardware design. Design of arithmetic and logic units, control units, Instruction set architectures (CISC and RISC), microprogramming, pipelining, memory systems and hierarchy, and I/O architectures are studied. System on Chip, Network on Chip, hardware programming using Verilog/VHDL is introduced. Modern parallel computer architecture is introduced with examples. Students have semester long individual/group projects on hardware design. Prerequisite: EENG 0360.Â
COEG 0411. HARDWARE SECURITY. 1st and 2nd Semesters. Lect. 3, Lab 0, 3 Credits. The course introduces core concepts of hardware security and its importance in designing secure hardware systems. Topics include digital system design flow and vulnerabilities, modern cryptographic hardware design, crypto processors, trusted platform modules, side-channel attacks, hardware trojan detection and isolation. Prerequisite: COEG 0305, COEG 0410.Â
EENG 0424L. SENIOR ELECTRICAL LAB. 1st and 2nd semesters. Lect. 0, Lab, 1 credit. Laboratory and design experience on two, three and four terminal semiconductor devices, three-phase systems and transformers, power factor correction, power system simulation, frequency modulation, amplitude modulation. Prerequisite: EENG 0400, 0401, EENG 0402.
EENG 0425 COMPUTER NETWORK DESIGN. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Introduces the fundamental concepts and principles of network design and analysis, and introduces computer network architecture using a layered approach. Emphasis on network design and telecommunication traffice engineering, flow and congestion control, switching and routing, techniques for evaluating network performance, quality of service, and application level protocols such as RTP, peer-to-peer networks, and overlay networks. Prerequisite: Basic knowledge about computer networks and probability, or Permission of instructor. Prerequisite: COEG 0305, EENG  0260.
EENG 0427 - Internet Security for Electrical Engineers.1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Provides the foundation for understanding the key issues associated with symmetric and public-key cryptographic algorithms and design principles. It covers important network security tools and applications relating to electronic mail security, Internet protocol security and web security. Examine at system level internet security issues including the threat of and countermeasure for intruders and viruses and the use of firewalls and trusted systems needed to reach and maintain a state of acceptable security in networked systems. Focuses on the concepts and methods associated with planning, designing, implementing, managing and auditing security at all levels and on all system platforms. Prerequisite(s): EENG 0425 and Permission of instructor
EENG 0431. CONTROL SYSTEMS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Fundamental principles of open loop and closed loop automatic control systems. System functions. Analysis of closed loop control systems and their transient and steady state response; stability and design of stabilizing controllers. Bode plots, polar plots, root locus and compensation network methods. State variable analysis. Prerequisite: EENG 0323. Corequisite: EENG 431L.Â
EENG 431L. CONTROL SYSTEMS LABORATORY. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Experimental study of feedback control systems and typical components. Study of open loop and closed loop frequency response. Laboratory studies include use of computer. Corequisite: EENG 0431.Â
EENG 0432. DIGITAL CONTROL. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Introduction to analysis and design of discrete data control systems using frequency domain techniques. Real- time digital filtering techniques; application of digital computers in closed loop feedback systems. Prerequisite(s): EENG 324
EENG 0434. DIGITAL IMAGE PROCESSING. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Principal methods for coding, digitizing, storing, processing, and displaying images. Computational algorithm procedures for image operations which include image enhancement, restoration, coding, and segmentation. Prerequisite(s): EENG 0261; MENG 0237.
COEG 0435. MACHINE LEARNING FOR ENGINEERS. 1st and 2nd Semester. Lect. 2, Lab 0, 3 credit.  Provides a solid foundation in machine learning for engineers, with a focus on supervised learning. Topics include machine Learning categories and applications, linear regression, multi-variable regression, logistic regression, Naïve Bayes classification, K-nearest neighbor (KNN), K-means clustering, notions of bias and variance, decision trees, random forest, gradient boosting trees, ensemble modeling, support vector machine, dimensionality reduction, feature extraction, manifold learning, model evaluation and improvement, artificial neural network, reinforcement learning. Prerequisite: EENG 0210, EENG 0225, MENG 0237.
EENG 0441. E.I.T. REVIEW 1st and 2nd Semester. Lect. 2, Lab 0, 0 credit. Review of the fundamentals of engineering science. Prerequisite: Junior Standing.Â
COEG 0445 ARTIFICIAL INTELLIGENCE FOR ENGINEERS. 1st and 2nd Semester. Lect. 2, Lab 0, 3 credit. Provides a foundation in artificial intelligence. Topics include propositional and first order logic, goal trees and rule-based expert systems, search and probabilistic algorithms, visual object recognition, game theory, machine learning algorithms, natural language processing, model merging and cross-modal coupling. Prerequisite: EENG 0210 and EENG 0225, MENG 0237, and senior or graduate status.
EENG 0451. INSTRUMENTATION. 1st Semester. Lect. 2, Lab 3, 3 credits. Fundamental principles of design of instrumentation to measure and control physical quantities. Electromechanical transducers. Signal analysis, processing and transmission. Display System. Prerequisites: EENG 0323, EENG 0330 and EENG 330L.Â
COEG 0456. CYBER SECURITY ENGINEERING PRACTICE. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits.  Provides a practical understanding of the essential knowledge and skills for cybersecurity professionals with practical hands-on learning units. Topics include Threats, attacks and vulnerabilities, Identity and Access Management, Technologies and Tools, risk management, architecture and design. Cryptography and PKI, Risk Management. Practical hands-on learning units on physical asset protection, localhost security, local network security, internet security, enterprise network security, industrial and medical IT security. Prerequisite: COEG 0305, EENG 0425.
EENG 0460. DIGITAL DESIGN. 1st Semester. Lect. 3, Lab 0, 3 credits. Design of digital logic circuits. Topics include: Logic gates and flip-flop level design using standard integrated circuit chips, programmable logic array design, system level design using a hardware description language (VHDL), computer aided design tools used to create and verify designs, fault diagnosis and testing. Prerequisite: EENG 0260.Â
EENG 0461. EMBEDDED SYSTEM DESIGN. 2nd semester. Lect. 3, Lab 0, 3 credits.Design of embedded systems including basic hardware and software analysis, peripheral interfaces are emphasized. Real-time control of physical systems and real-time data processing systems are analyzed. in-depth analysis of Input/Output (I/O) devices, busses, and processors for embedded systems. Prerequisite(s): EENG 0360, EENG 0260, CSCI 0229
EENG 0470. SENIOR DESIGN I. 1st Semester. Lect. 2, Lab. 0, 2 credits. Student teams develop proposals for a comprehensive analysis of an engineering product or process. Topics include how to apply the steps of the design process in identifying and formulating an engineering problem, development of project tasks timeline, development of specifications, and analysis of various approaches. Additional topics include engineering ethics as related to professionalism, safety, workplace responsibilities and rights, and global issues. Prerequisite: EENG 0315, EENG 0323, EENG 0330, EENG 0360, MENG 0237.
COEGÂ 0470. SENIOR DESIGN I. 1st Semester. Lect. 2, Lab. 0, 2 credits. Student teams develop proposals for a comprehensive analysis of an engineering product or process. Topics include how to apply the steps of the design process in identifying and formulating an engineering problem, development of project tasks timeline, development of specifications, and analysis of various approaches. Additional topics include engineering ethics as related to professionalism, safety, workplace responsibilities and rights, and global issues. Prerequisite: EENG 0323, EENG 0360, COEG 0305, COEG 0311, MENG 0237.
EENG 0471. SENIOR DESIGN II. 1st Semester. Lect. 2, Lab. 0, 2 credits. Student teams develop proposals for a comprehensive analysis of an engineering product or process. Topics include how to apply the steps of the design process in identifying and formulating an engineering problem, development of project tasks timeline, development of specifications, and analysis of various approaches. Additional topics include engineering ethics as related to professionalism, safety, workplace responsibilities and rights, and global issues. Prerequisite: EENG 0470.
COEGÂ 0471. SENIOR DESIGN II. 1st Semester. Lect. 2, Lab. 0, 2 credits. Student teams develop proposals for a comprehensive analysis of an engineering product or process. Topics include how to apply the steps of the design process in identifying and formulating an engineering problem, development of project tasks timeline, development of specifications, and analysis of various approaches. Additional topics include engineering ethics as related to professionalism, safety, workplace responsibilities and rights, and global issues. Prerequisite: COEG 0470.
EENG 0473. RANDOM VARIABLES AND STOCHASTIC PROCESSES. 1st Semester. Lect. 3, Lab 0, 3 credits. Events, probability and random variables; Distribution functions; Density functions; Correlation functions; Spectral density; Linear system analysis; Markov chains; Gaussian and Poisson processes; Stochastic processes; applications. Prerequisite(s): EENG 0323, EENG 0324 senior standing or permission of instructor.
EENG 0474. WIRELESS COMMUNICATIONS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. This course covers fundamental theory and design of high-capacity wireless communication systems. Topics include trunking, propagation, frequency reuse, modulation, coding, and equalization. Emerging cellular and PCS systems are analyzed. Prerequisite(s): EENG 0324, EENG 0473, EENG 479, senior standing or permission of instructor.
EENG 0475. MATHEMATICAL OPTIMIZATION FOR ENGINEERS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Optimization is central to any problem involving decision making, whether in engineering or in economics. Optimization theory and methods deal with selecting the best alternative in the sense of the given objective function. While the mathematics of optimization has been studied for about a century, several related recent developments have stimulated new interest in the field. in this course, the topics of unconstrained optimization, linear programming, quadratic programming and convex optimization including semidefinite programming will be covered. Prerequisite(s): MATH 0307 and EENG 0476
EENG 0476. MATRIX AND LINEAR ALGEBRA. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. As the mathematical discipline for studying vector space and linear transformation, linear algebra forms the basis for much of modern mathematics, theoretical, applied, and computational. Linear algebra plays an important role in electrical engineering. in this course, the topics of matrix algebra, vector spaces, linear transformation, eigenvalues and eigenvectors, and their applications in solving the systems of differential equations will be covered. Prerequisite(s): MATH 0208 and MATH 0307.
EENG 0478. MATHEMATICAL MODELING AND SIMULATION. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. A mathematical model is an abstract model that uses mathematical language to describe the behavior of a system, and mathematical modeling is the link between mathematics and the rest of the world. The methods of mathematical modeling and simulation are used widely in sciences and engineering disciplines. in this course, the topics of dynamic models, probability models, optimization models and the simulation of dynamic models will be covered. Prerequisite(s): MATH 0307 and EENG 0493M
EENG 0479. COMMUNICATION THEORY I. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Signal analysis, Random signals, Matched receivers; Analog communication; AM, FM; Digital communication; Multiplexing; Information theory, and applications. Prerequisite(s): EENG 0323, EENG 0324, senior standing or permission of instructor. Corequisite(s): EENG 0479L
EENG 0479L. COMMUNICATION LAB I. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. This laboratory provides experiments involving communication circuits and systems that are covered in EENG 0479. Corequisite(s): EENG 0479
EENG 0481. POWER SYSTEMS ANALYSIS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Balanced Power Systems at Steady state conditions. Transmission line calculations; Systems analysis using bus admittance and impedance matrices. Power-flow analysis, Economic operation. Prerequisite(s): Graduate Standing
EENG 0482. POWER ELECTRONICS. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Polyphase power rectifiers and inverters. Solid-state drivers for rotating machines. Characteristics of high- power solid-state components. Design of switching power supplies. Prerequisite(s): EENG 0402, EENG 0424L, EENG 0330. EENG 0330L.
EENG 0483. COMMUNICATION THEORY II. 1st and 2nd Semester. Lect. 3, Lab 0, 3 credits.
EENG 0484. COMMUNICATION LAB II. 1st and 2nd Semester. Lect. 0, Lab 3, 1 credit.
EENG 0491. UNDERGRADUATE RESEARCH. 1st and 2nd Semester. 3 credits. Independent research study of a topic of interest in the field of Electrical Engineering. The student is required to report his/her finding in an approved type written technical report. Prerequisite: Senior Standing.Â
EENG 0492. ENGINEERING ANALYSIS AND DESIGN. 1st and 2nd Semester and Summer. 3 credits. Comprehensive analysis and development of an engineering product or process. The student is required to report his/her finding in an approved typewritten technical report.. Prerequisite: Senior Standing.Â
EENG 0493. SPECIAL TOPICS. 1st and 2nd Semester and Summer. 1-4 credits. Topics of special interest to faculty and ¿Û¿Û´«Ã½. Prerequisite: Approval of Instructor and Department Head.
COEG 0493. SPECIAL TOPICS IN COMPUTER ENGINEERING. 1 to 4 Credits. Topics in Computer Engineering are of special interest to faculty and ¿Û¿Û´«Ã½. Prerequisite: Approval of Instructor and Department Head.Â
*Note: The following courses are offered primarily for graduate ¿Û¿Û´«Ã½. Seniors may, however, choose 500 level courses as technical electives.Â
EENG 0522. SYSTEMS ANALYSIS. 2nd Semester. Lect. 3, Lab 0, 3 credits. The linear graph and matrix approach to general linear systems having two-terminal and multiterminal components. State variable formulations. Prerequisite: EENG 0431 or Permission of Instructor.Â
COEG 0535. MACHINE LEARNING FOR ENGINEERS. 1st and 2nd Semesters and Summer. Lect. 3, Lab 0, 3 credits. Provides a solid foundation in machine learning for engineers, with a focus on supervised learning. Topics include machine Learning categories and applications, linear regression, multi-variable regression, logistic regression, Naïve Bayes classification, K-nearest neighbor (KNN), K-means clustering, notions of bias and variance, decision tress, random forest, gradient boosting trees, ensemble modeling, support vector machine, dimensionality reduction, feature extraction, manifold learning, model evaluation and improvement, artificial neural network, reinforcement learning. Pre-requisites: EENG 0210, EENG 0225, MENG 0237.
EENG 0537. RANDOM VARIABLES AND STOCHASTIC PROCESSES. 1st Semester. Lect. 3, 3 credits. Events, probability and random variables; Distribution functions; Density functions; Correlation functions; Spectral density; Linear system analysis; Markov chains; Gaussian and Poisson processes; Stochastic processes; applications. Prerequisite: EENG 0323 or Permission of Instructor.Â
EENG 0538. COMMUNICATION THEORY. 1st Semester. Lect. 3, Lab 0, 3 credits. Signal analysis, Random signals, Matched receivers; Analog communication; AM, FM; Digital communication; Multiplexing; Information theory, applications; Diversity techniques. Prerequisite: EENG 0323 or Permission of Instructor.Â
COEG 0545. ARTIFICIAL INTELLIGENCE FOR ENGINEERS. 1st and 2nd Semesters and Summer. Lect. 3, Lab 0, 3 credits. Provides a foundation in artificial intelligence. Topics include propositional and first order logic, goal trees and rule-based expert systems, search and probabilistic algorithms, visual object recognition, game theory, machine learning algorithms, natural language processing, model merging and cross-modal coupling. Prerequisites: EENG 0210, EENG 0225, MENG 0237 and senior or graduate status.Â
COEG 0556. CYBER SECURITY ENGINEERING PRACTICE. 1st and 2nd Semesters and Summer. Lect. 0, Lab 3, 3 credits. Provides a practical understanding of the essential knowledge and skills for cybersecurity professionals with practical hands-on learning units. Topics include Threats, attacks and vulnerabilities, Identity and Access Management, Technologies and Tools, risk management, architecture and design. Cryptography and PKI, Risk Management. Practical hands-on learning units on physical asset protection, localhost security, local network security, internet security, enterprise network security, industrial and medical IT security. Prerequisites: COEG-0305, EENG-0425.
EENG 5381. COMMUNICATION LAB. 1st Semester. Lect. 3, Lab 0, 3 credits. This laboratory provides experiments involving communication circuits and systems that are covered in EENG 0538 Communication Theory. Corequisite: EENG 0538.Â
EENG 0539. WIRELESS COMMUNICATION. 2nd Semester. Lect. 3, Lab 0, 3 credits. This course covers fundamental; theory and design of high capacity wireless communication systems. Topics include trunking, propagation, frequency reuse, modulation, coding, and equalization. Emerging cellular and PCN systems are analyzed. Prerequisites: EENG 0537, EENG 0538.Â
EENGÂ Â 0540. POWER SYSTEM ANALYSIS. 1st Semester. Lect. 3, Lab 0, 3 credits. Balanced Power Systems at Steady state conditions. Transmission line calculations; Systems analysis using bus admittance and impedance matrices. Power-flow analysis, Economic operation. Prerequisite: EENG 0423 or Permission of Instructor.Â
EENG 0541. POWER SYSTEMS PROTECTION AND STABILITY. 2nd Semester. Lect 3, Lab 0, 3 credits. Unbalanced power systems at steady state conditions. Fault analysis, power transfer and system stability, Insulations. Protective systems; Relay coordination. Prerequisite: EENG 0423 or Permission of InstructorÂ
EENG 0546. POWER SYSTEM PLANNING. 2nd Semester. Lect. 3, Lab 0, 3 credits. Design and layout of generation stations, switch yards and transmission lines. Detailed course description available from depart, mental offices. Prerequisite: Permission of Instructor.Â
EENG 0558. RE TRANSMITTER & RECEIVER DESIGN. 2nd Semester. Lect. 3, Lab 0, 3 credits. RF electronic circuits, analysis and design; Oscillators; Amplifiers; Coupling circuits; Binary systems; Mixers; IF Amplifiers; Demodulators; Microwave Systems, and multiplexing. Prerequisites: EENG 0330 and EENG 0334 or Permission of Instructor.Â
EENG 0560. ELECTRICAL PROPERTIES OF MATERIALS. 1st Semester. Lect. 3, Lab 0, 3 credits. Crystal structure; Bravais lattices, energy bands; Metals, Nonmetals, conduction processes, effective mass, scattering mechanisms, continuity equation and junction theory; Field-material interaction, dielectric losses, magnetic permeability; Energy converting properties of solids. Prerequisites: EENG 0413, PHYS 0402 or Permission of Instructor.Â
EENG 0568. MICROWAVE MEASUREMENTS. 1st Semester. Lect. 3, Lab 0, 3 credits. Prerequisite: EENG 0334 or Permission of Instructor.Â
EENG 0570. ELECTROMAGNETIC THEORY 1st Semester. Lect. 3, Lab 0, 3 credits. Static electric fields, Static magnetic fields, Boundary conditions; Boundary value problems, Laplace equation; Maxwell's equations; Plane waves; wave guides; Cavities; special topics; Cavities, plasmas. Prerequisite: EENG 0334 or Permission of Instructor.Â
EENG 0572. ANTENNAS AND PROPAGATION. 1st Semester. Lect. 3, Lab 0, 3 credits. Introduction; Typical Antenna concepts, gain, directivity, radiation pattern; Wave polarization, Pointing vector; Sources, point source, dipoles, loops, isotropic source and radiated fields; Antenna array, loop and helical antennas; Parabolic reflector antennas. Prerequisite: EENG 0334 or Permission of Instructor.Â
EENG 0574. ADVANCED ELECTRONICS. Summer. Lect. 3, Lab 0, 3 credits. Nonlinear electronic systems, advanced analysis and design techniques, applications, wave shaping; switching comparators, bistable systems; oscillators; modulation processes, Signal processing; noise reduction and communication systems. Prerequisite: EENG 0330 or Permission of Instructor.Â
EENG 0578. ELECTRONIC DEVICE DESIGN AND FABRICATION. Ist Semester. Lect. 3, Lab 0, 3 credits. Monolithic IC technology; Bipolar and MOSFET processes and structures; Layout design, fabrication, applications. prerequisite: EENG 0413 or Permission of Instructor.Â
EENG 0580. ADVANCED CONTROL THEORY. 2nd Semester. Lect. 3, Lab 0, 3 credits. Classical techniques; State variables; Optimization; Deterministic and Stochastic systems; Noise measurement and filtering; Simulation; Introduction to game theory. Prerequisite: EENG 0431 or Permission of instructor.Â
EENG 0584. ADVANCED DIGITAL DESIGN. 2nd Semester. Lect. 3, Lab 0, 3 credits. Advanced design of digital logic circuits. Topics include: gate and flip-flop level design using standard integrated circuit chips, i programmable logic array design, system level design using a hardware description language (VHDL), computer aided design tools used to create and verify designs, fault diagnosis and testing. Prerequisite: EENG 040, or Permission of instructor.Â
EENG 0585. VLSI DESIGN. 1st Semester. 3 credits. Introduction to VLSI layout. The switch and the inverter. Logic design. Stick diagrams. Design-fabrication interface. Delay and power calculations. Memory system. Static RAM, Dynamic RAM, ROMs. Structured design and Test. Prerequisite: EENG 0413.Â
EENG 0586. CMOS INTEGRATED CIRCUITS. 2nd Semester. Lect. 3, Lab 0, 3Â credit. MOS Transistor Models. Feedback and sensitivity in Analog Integrated Circuits. Operational Amplifier Design. Continuous Time and Sampled-Data Active Filters. D/A and A/D converters. Low-power, low-voltage analog integrated circuits. Prerequisites: EENG 0413, EENG 413L or Permission of instructor.Â
EENG 0587. POWER ELECTRONICS. 2nd Semester. Lect. 3, Lab 0, 3 credits. Polyphase power rectifiers and inverters. Solid-state drivers for rotating machines. Characteristics of high-power solid-state components. Design of switching power supplies. Prerequisites: EENG 0423, EENG 0423L, EENG 0330. EENG 0330L.Â
EENG 0590. SPECIAL TOPICS. 1st and 2nd Semester. 1-4 credits. Topics of special interest of the faculty and the ¿Û¿Û´«Ã½. Offered by specific Course Reference Numbers and title. Prerequisite: Permission of Instructor.Â
EENG 590J. ADVANCEDÂ SOLID STATEÂ DEVICES. 1st Semester. Lect. 3, Lab 0, 3 credits. Review of Si and GaAs devices, fabrication processes, analysis of P-n junctions, heterojunctions and metal-semiconductor contacts, bipolar transistors, field effect transistors, power device structures and microwave diodes. Prerequisite: EENG 0413 or Permission of InstructorÂ
EENG 590L. SEMICONDUCTOR MEASUREMENTS. 2nd Semester. Lect. 3, Lab 0, 3 credits. Introduction, chemical, physical characterization techniques; electrical measurement techniques; measurement of resistivity, carrier concentration, lifetimes, junction and contact parameters, MOS characteristics, deep-level states. Prerequisite: EENG 0413 or Permission of Instructor.Â
EENG 590P ADVANCED VLSI DESIGN. 2nd Semester. 3 credits. State of the art of CMOS technology. Arithmetic building blocks including adders, multipliers, and shifters. Designing memory and array structures, logic and system optimization. Timing issues, interconnect, signal integrity, power distribution and consumption. Prerequisite: EENG 0585.Â
EENG 0624. NETWORK SYNTHESIS I. Lect. 3; Lab. 0, 3 credits. Properties of network functions. Physical realizability. Synthesis techniwurd Foster, Cauer, Brune, Darlington, Gullemin and others. Prerequisite: Graduate Standing.Â
EENG 0625. NETWORK SYNTHESIS II. Lect. 3 Lab. 0, 3 credits. A continuation Network Synthesis I Two-port LC network transmission characteristics; filter design techniques based on image parameters; Cauer filters, Butterworth, Chebsyshev and elliptic filters, phase equalizers. Prerequisites: Graduate Standing.Â
EENG 0642. TRANSIENT PHENOMENA IN POWER SYSTEMS. Lect. 3; Lab. 0, 3 credits. Offered on demand. Prerequisite: EENG 540 or equivalent. Study and analysis of transients in power systems caused by various types of faults and switching processes. Prerequisite: Graduate Standing.Â
EENG 0644. DIRECT. ENERGY CONVERSION II. Lect. 3; Lab 0, 3 credits. Offered on demand. Prerequisite: EENG 423 or equivalent. Electrogasdynamic, Magnetohydrodynamic, thermoelectric, thermoelectronic and thermionic converts; furl and solar cells; utilization of solar proton influx, or ground level and terrestrial energies; global power transmission. Prerequisite: Graduate Standing.Â
EENG 0690. PROJECTS. 3 credits. Individual design project of an experimental study under the minimum supervision of the major professor resulting in a formal typewritten report, and presentation. Prerequisite Graduate Standing.Â
EENG 0700. THESIS. Supervised research culmination a written dissertation in conformity with requirements of the GraduateÂ
Handbook. Typically, two or more registrations for three hours each are required. Total of six (6) hours required for credit. EENG 0752. CONTINUOUS REGISTRATION. See Graduate Handbook.Â
EENG 0754. CANDIDATE FOR DEGREE. See Graduate Handbook.Â