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Electrical
Engineering (EE)
Back to Course Sponsorship program EE 499 Special Topics in Electrical Engineering (3-0-3) The contents of this course will be in one of the areas of
interest in electrical engineering. The specific contents of the course will
be given in detail at least one semester in advance of that in which it is
offered. All Electrical
Engineering Courses (Undergraduate
Program ) Electrical Engineering
(EE)
( Graduate
Program ) Course
offering in the Second semester 092 ( February 2010 ) : EE 522
Power System Dynamic Analysis
(3-0-3) Dynamic model of synchronous machines. Excitation
and governor systems. Nonlinear and linear modeling of single machine
infinite bus systems. Stability analysis and control design.
Direct method of stability determination. Multimachine
system modeling. Power system dynamic equivalents. Prerequisite: EE 520 or equivalent Back to Course Sponsorship program EE 530 Radiation and Propagation of
Electromagnetic Waves (3-0-3) Review of Maxwell’s equations and solutions.
Electromagnetic waves in lossy, and anisotropic
media. Waves at plane boundaries. Guided waves. Duality, uniqueness, image
theory, equivalence principle, and reciprocity. Introduction to radiation and
scattering. Problem formulation using Green’s function and integral
equations. Prerequisite: EE 340 or equivalent Back to Course Sponsorship program EE 541 Design of Digital
Systems (3-0-3) Hardware organization of digital systems. Synchronous
sequential machines. Arithmetic and logic units: high speed addition,
multiplication and division algorithms and implementation. Control units:
control, status, timing and clocking schemes and circuits. Digital memories.
System controllers using RAMs, ROM, PAL, and FPLAs. Iterative networks and
modular design procedures. Prerequisite: EE 390 or equivalent Back to Course Sponsorship program EE 545 Advanced Analog Electronics
(3-0-3) Small-signal equivalent circuits and noise models of
active devices. Design and analysis of linear wide-band low-noise feedback
amplifiers. High frequency design using operational amplifiers and
operational transconductance amplifiers.
Application of specialized electronic systems in analog signal processors.
Introduction to emerging technologies and advanced topics from recent
literature. Prerequisite: EE 303 or equivalent Back to Course Sponsorship program EE 550 Linear Control
Systems (3-0-3) State space representation of systems. Theory of
multivariable systems. Jordan canonical forms. Transformation matrices.
Realization theory. Controllability and observability.
Stability. State estimators. Output and state feedback. Compensation.
Decoupling and model matching. Introduction to optimal control. Prerequisite: EE 380 or equivalent (crosslisted with SE 507) Click here to
Download the detailed Syllabus (PDF Format) Back to Course Sponsorship program EE 552 Optimal Control Theory and
Applications (3-0-3) Nonlinear optimal control of continuous-time
systems. Minimum time and constrained input problems. Linear
quadratic regulator. Optimal output-feedback. Optimal state
estimation. Linear quadratic Gaussian design. Case studies. Prerequisite: EE 550 or equivalent (crosslisted with SE 514) Back to Course Sponsorship program EE 556 Intelligent Control (3-0-3) Intelligent control strategies: Expert systems, Fuzzy
logic control, Neural networks. Optimization control techniques: genetic
algorithms, simulated annealing, tabu search.
Hybrid systems. Applications Prerequisite: Consent of the Instructor
(Not to be taken for credit with SE 571) Back to Course Sponsorship program EE 570 Stochastic
Processes (3-0-3) Review of fundamentals of probability, Sequences of
random variables and convergence, Stationarity and ergodicity; second-order
properties and estimation; Gaussian random processes, Poisson and renewal
processes, Markov processes. Queuing Theory. Applications to communications
and signal processing. Back to Course Sponsorship program EE 573 Digital Communications
II (3-0-3) Review of digital transmission over AWGN
channels. Spectral analysis of digital signals. Digital, transmission over
band-Limited channels. Intersymbol Interference.
Signal design for band-Limited channels. Channel equalization. Adaptive
equalizers. Characterization of fading multipath channels. Performance of
digital transmission over fading channels. Diversity techniques. Spread
spectrum. Multi-user communication. Overview of Advanced Communications
Systems (satellite, mobile, optical, ...).. Prerequisite: EE 571 Back to Course Sponsorship program EE 575 Information Theory
(3-0-3) Measures of information, Entropy, Source Coding theory,
Lossless data compression, Huffman Codes, Ziv-Lempel
and Elias Codes, Arithmetic Codes, Run-length Encoding, Sources with memory, Lossy data compression, Rate distortion theory, Mutual
Information, Memoryless channels, Channel capacity,
Channel coding theory, Differential Entropy, Capacity of AWGN channels. Prerequisite: EE 370 or equivalent,
EE 315 or equivalent Back to Course Sponsorship program EE 577 Wireless and Personal
Communications (3-0-3) The Cellular concept, Propagation modeling, Digital
transmission techniques, multiple access techniques, Cellular frequency
planning, Link control, Handoffs, Power control, Traffic capacity, Wireless
networking, Privacy and security of wireless systems, Examples of current
wireless systems standards. Prerequisite: EE 571 Back to Course Sponsorship program EE 599 Seminar (1-0-0)
Graduate students working towards either M.S. In
Electrical engineering, M. S. In Telecommunication Engineering, or Ph.D.
degrees, are required to attend the seminars given by faculty, visiting
scholars, and fellow graduate students. Additionally, each student must
present at least one seminar on a timely research topic. Among other things,
this course is designed to give the student an overview of research in the
department, and a familiarity with the research methodology, journals
and professional societies in his discipline. Graded on a Pass or Fail basis. Back to Course Sponsorship program EE
610 M.S. Thesis (0-0-6)
Back to Course Sponsorship program EE 623 HVDC Transmission System
(3-0-3) Comparison between AC and DC transmission.
Converter circuit configuration. Converter operation and
analysis. Misoperation of converter.
Harmonics and filters. Ground return. Integration of HVDC links
into power systems. AC-DC load flow, short circuit and stability
calculations. Prerequisite: EE 460 or equivalent Back to Course Sponsorship program EE 631 Microwave Measurements (1-6-3) Microwave signal sources. Waveguide
components. Network analyzer measurements. Scattering parameters of
microwave planar transistors. Doppler effect. Time domain reflectometry. Microwave links. Antenna
impedance and pattern measurements. Microstrip
transmission lines. Resonant cavities. Prerequisite: EE 405 or equivalent Back to Course Sponsorship program EE 633 Optical Fiber
Communication (3-0-3) Dielectric slab waveguides. Classification of mode
types. Parabolic two-dimensional media. Circular waveguides. Step-index and
graded-index optical fibers. Effect of loss. Dispersion effects. Fabrication
methods in integrated optics and optical fibers. Light sources. Couplers. Opto-electronic devices. Applications in communication
systems. Prerequisite: EE 420 or equivalent Back to Course Sponsorship program EE 642 Analog VLSI Circuit
Design (3-0-3) MOS and CMOS technology: building blocks, devices,
capacitors and limitations. Operational amplifiers and other analog systems.
Application to filter design and data converters. Layout considerations and
CAD tools. Prerequisite: EE 542 Back to Course Sponsorship program EE 662
Adaptive Filtering and Applications (3-0-3) Introduction to adaptive Signal Processing.
Fundamentals of Adaptive Filter Theory. The LMS Algorithm, LMS-based
Algorithms. Conventional RLS Adaptive Filtering. Adaptive
Lattice-based RLS Algorithms. Fast Algorithms. Implementation
Issues. Adaptive IIR filters. HOS-based adaptive filtering.
Introduction to nonlinear filtering. Applications to Echo cancellation,
equalization, noise canceling and prediction. Prerequisite: EE 570 or equivalent Click here to
Download the detailed Syllabus (PDF Format) Back to Course Sponsorship program EE 669 Special Topics in Signal
Processing (3-0-3) The contents of this course will be in one of the areas
of interest in signal processing.. The specific contents of the special
topics of course will be given in detail at least one semester in advance of
that in which it is offered. It is also subject to the approval by the
Graduate Council. Prerequisite: Consent of the Instructor Back to Course Sponsorship program EE 672 Satellite
Communications (3-0-3) Introduction to satellite communication systems.
Satellite orbits. The satellite channel. Satellite links. Earth stations.
Modulation and multiplexing. Digital modulation. Multiple access and demand
assignment. Satellite cross links. VSAT and mobile satellite systems. Prerequisite: EE 571 EE 710 Ph.D. Dissertation
(0-0-12) All Electrical Engineering
Courses (Graduate Program )
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Course
offering in the Second semester 092 ( February 2010 ) : College of Engineering Sciences (CES): ·
Petroleum Engineering (PETE)
·
Chemical Engineering (CHE)
·
Mechanical Engineering
(ME)
·
Electrical
Engineering (EE)
· Civil Engineering (CE)Back to Course Sponsorship program
College of Computer Sciences &
Engineering (CCSE): ·
Computer
Engineering (COE)
·
Systems
Engineering (SE)
· Information and Computer Science (ICS)Back to Course Sponsorship programCollege of
Industrial Management (CIM)
·
Management Information System ( MIS )
·
Marketing ( MKT )
·
Accounting ( Acct )
·
Finance (FIN)
·
Management ( MGT )
·
Economics ( ECON) Back to Course Sponsorship programCollege of Environmental Design (CED)
·
City & Regional Planning (CRP) ·
Construction Engineering & Management (CEM) ·
Architectural Engineering (ARE) Back to Course Sponsorship program College of
Sciences (CS)
·
Chemistry (CHEM)
·
Earth Sciences (ES)
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