Apr 27, 2024  
2014-2015 Undergraduate and Graduate Academic Catalog 
    
Catalog Navigation
  Catalog Home
  About the University
  Undergraduate & Graduate Degrees
  Colleges & Curriculum Pages
  Course Descriptions
  Undergraduate Studies
  Graduate School
  Policies
  Programs & Services
  My Catalog
HELP
2014-2015 Undergraduate and Graduate Academic Catalog [ARCHIVED CATALOG]

Course Descriptions


To enroll in any 400-level course, students must be admitted to the Upper Division; to enroll in a 400(G)-level course in which there are graduate students, students must have junior or higher standing.

*LCCN indicates Louisiana Common Course Number.
 

Electrical and Computer Engineering
  

  • EECE 101 - Introduction to Electrical Engineering

    1 Credit(s). 0 Hour(s) Lab. 1 Hour(s) Lecture.

    The engineering profession, history and practice of electrical engineering, ethics, guest speakers, oral and written communications.

  

  • EECE 122 - Micro-Robotics

    3 Credit(s). 2 Hour(s) Lab. 2 Hour(s) Lecture.

    Robotics; oriented projects building miniaturized robots.

    Rstr: Permission of instructor required.
  

  • EECE 140 - Computer Engineering

    3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.

    Number systems, Boolean algebra, Karnaugh maps, logic gates, combinational circuit design, adders, multiplexers, flip-flops, counters, shift registers. Laboratory: Experiments with TTL logic gates, flip-flops and counters.

    Prereq: Completion of MATH 105  with a grade of “C” or better.
  

  • EECE 233 - Telecommunications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Structure, historical background and tariffs and regulations. Voice, data and imagery communications.

    Prereq: EECE 140  or permission of instructor.
  

  • EECE 240 - Digital Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Combinational logic design using MSI and LSI IC’s. Sequential circuit analysis and design. Register, counter and memory system analysis and design. Register-Transfer Logic design technique.

    Prereq: EECE 140  with a minimum grade of “C”.
  

  • EECE 260 - Computational Methods in Electrical Engineering

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Mathematical software tools in electrical and computer engineering.

    Prereq: CMPS 150  with a “C” or better.
  

  • EECE 335 - Physical Electronics I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Physical characteristics and processing of electron devices such as diodes, transistors, solar cells, lasers, etc. Development of circuit models from device physics.

    Prereq: PHYS 202  and MATH 350  with a grade of “C” or better.
  

  • EECE 340 - Microprocessors

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Computer architecture, addressing techniques, types of instructions. Comparison of architecture and instruction sets of microprocessors. Modern microprocessor address decoding, machine cycles, interrupts and hand assembly programming.

    Prereq: EECE 240  and CMPS 260 , both with “C” or better.
  

  • EECE 342 - Microprocessor Lab

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Digital Logic design and implementation. Microprocessor hardware analysis, timing, and design. Effects of machine instructions on hardware.

    Prereq: EECE 340 .
  

  • EECE 344 - Engineering Electromagnetics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Applications of vector analysis, fundamental laws of electrostatic fields, electric potential and capacitance, solutions of Laplace’s and Poisson’s equations, steady magnetic fields and forces, time-varying electromagnetic fields and Maxwell’s equations.

    Prereq: PHYS 202  and MATH 350 , both with a minimum grade of “C”, MATH 302 .
  

  • EECE 353 - Electronic Circuits

    4 Credit(s). 3 Hour(s) Lab. 3 Hour(s) Lecture.

    Multistage amplifiers, feedback amplifiers, frequency response, operational amplifiers and applications, power amplifiers, waveshaping and waveform generation, high-frequency amplifiers. Lab includes design experiences in applications.

    Prereq: EECE 335 , EECE 356 , both with a minimum grade of “C”.
  

  • EECE 355 - Circuits and Signals I

    4 Credit(s). 3 Hour(s) Lab. 3 Hour(s) Lecture.

    Analysis of lumped parameter circuits with dependent and independent sources. Network theorems. Sinusoidal steady state solution, including three phase systems. Matrix formulation and computer solution of networks. Laboratory: Basic circuits and measurements.

    Prereq: MATH 301  with a grade of “C” or better.
    Coreq: EECE 357  
  

  • EECE 356 - Circuits and Signals II

    4 Credit(s). 3 Hour(s) Lab. 3 Hour(s) Lecture.

    Time domain analysis of circuits, conventional and transform methods, convolution, state equations. Fourier Series. Lab includes: computer-generated vs. experimental results.

    Prereq: EECE 355  and MATH 350 , both with a minimum grade of “C”.
    Coreq: EECE 358  
  

  • EECE 357 - Circuits-1 Tutorials

    1 Credit(s). 0 Hour(s) Lab. 1 Hour(s) Lecture.

    Coreq: EECE 355  
    Grading Option: CR,NC
  

  • EECE 358 - Circuits-2 Tutorials

    1 Credit(s). 0 Hour(s) Lab. 1 Hour(s) Lecture.

    Coreq: EECE 356  
    Grading Option: CR,NC
  

  • EECE 365 - Internship in Telecommunications I

    3 Hour(s) Lecture.

    Supervised work experience in the area of Telecommunications. Does not apply towards satisfying degree requirements in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 367 - Internship in Electrical Engineering I

    3 Hour(s) Lecture.

    Supervised work experience in the area of electrical engineering. Does not apply towards satisfying degree requirements in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 371 - Special Projects

    1-3 Credit(s).

    Rstr: Permission of instructor required.
  

  • EECE 380 - Random Processes for Electrical Engineering

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Common discrete and continuous random variables in engineering, multiple random variables, random processes, linear systems with random signal inputs, applications in electrical engineering.

    Prereq: MATH 301  with “C” or better.
  

  • EECE 413 - Computer Communications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Overview of common telecommunication and networking techniques using the OSI model with emphasis on the lower layers. LANs are covered in depth.

    Prereq: EECE 240  with a minimum grade of “C”.
    Rstr: Not open for students who have earned credit for EECE 434(G) .
  

  • EECE 423 - Seminar I

    1 Credit(s). 2 Hour(s) Lab. 0 Hour(s) Lecture.

    Visiting lecturers and practice in oral and written communications.

    Prereq: Within last two semesters of curriculum.
  

  • EECE 424 - Seminar II

    1 Credit(s). 2 Hour(s) Lab. 0 Hour(s) Lecture.

    Visiting lecturers and practice in oral and written communications.

    Prereq: Within last two semesters of curriculum.
  

  • EECE 428(G) - Transmission Media

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Study of various transmission media such as fiber optic and coaxial cables, microwaves, satellite links, cellular radio, etc.

    Prereq: EECE 452 
  

  • EECE 430(G) - Digital Signal Processing

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Z-Transform techniques and their real-time implementation, Digital filter design, Discrete Fourier transform techniques and their application.

    Prereq: EECE 260 , EECE 444 .
  

  • EECE 434(G) - Data Communications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Computer communications hardware and software, computer network considerations, switching methods, error analysis and data communication systems testing.

    Prereq: EECE 240  with a grade of “C” or better
    Rstr: Not open to students who have earned credit for EECE 413 .
  

  • EECE 435(G) - Wireless Communications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Introduction to wireless communications; cellular mobile telephony: standards, systems, technologies; wireless data networks; personal communication systems (PCS) principles.

    Prereq: EECE 452 .
  

  • EECE 437 - Power Electronics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Analysis of power electronics devices and systems; AC and DC motor drives; thermal dissipation requirements; harmonics; power controllers; converters, inverters and commutation techniques.

    Prereq: EECE 447 .
  

  • EECE 442 - Computer Control Laboratory

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Programmable Controllers with Ladder Logic and PID algorithms. Human Machine Interface, with control of various electro-mechanical and hydraulic processes.

    Prereq: EECE 461(G) 
  

  • EECE 443 - Design Lab I

    2 Credit(s). 4 Hour(s) Lab. 1 Hour(s) Lecture.

    Design and construction of semester project, preliminary design of year-long project; preparation of formal laboratory reports.

    Prereq: All 300-level EECE, CMPS, MATH and PHYS courses in the curriculum, excluding EECE 344  and MATH 302  with a grade of “C” or better wherever required.
    Rstr: EECE majors only.
  

  • EECE 444 - Circuits and Signals III

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Fourier transforms methods and applications. Discrete system methods. Z transform. Analysis and design of Analog and Digital filters and systems.

    Prereq: EECE 356  with a grade of “C” or better.
  

  • EECE 447 - Electrical Machines and Power

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Introduction to three-phase systems; electrical machines; electrical power transmission and distribution.

    Prereq: EECE 356 .
  

  • EECE 448 - Smart Power Grids

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Modeling an ddesign of smart grid renewable energy systems, communication and control requirements, micro-grid photovoltaic and wind energy systems, load flow analysis and fault studies.

  

  • EECE 450 - Power Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Energy sources; transmission line parameters, modeling, performance and design, transients, insulation and arresters, one line diagram and per unit system; voltage and reactive control, symmetrical components, balanced and unbalanced faults. Introduction to network matrices and load flow.

    Coreq: EECE 447 .
  

  • EECE 451 - Digital Electronics

    3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.

    Analysis and design of digital electronic circuits. Internal details of MOS and Bipolar logic networks. Laboratory: Measurement and characterization of digital logic circuit parameters.

    Prereq: EECE 335  with grade of “C” or better.
  

  • EECE 452 - Communications Engineering I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Study of communications systems. Mathematical analyses of digital and analog modulation techniques.

    Prereq: EECE 356  with a grade of “C” or better.
  

  • EECE 453 - Communications Engineering Laboratory

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Experiments in analog and digital communications.

    Prereq: EECE 452 .
  

  • EECE 458(G) - Communications Engineering II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Effects of random noise on modulation systems, including detailed study of digital communication systems and an introduction to information theory and coding.

    Prereq: EECE 233 - Telecommunications  , EECE 452 ; STAT 425(G)  or EECE 380 
  

  • EECE 459 - Computer Hardware Design

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Design of Processor and Control Logic hardware. Computer hardware design, input/output and memory design.

    Prereq: EECE 340 .
  

  • EECE 460 - Design Lab II

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Continuation of Design Lab I, including completion of year-long design project with formal oral and written presentation and prototype demonstration.

    Prereq: EECE 443 
  

  • EECE 461(G) - Control Systems I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Transfer functions, flow-graphs, state variables for feedback control systems, stability criteria. Digital control system design.

    Prereq: ENGR 218 , EECE 260 
    Coreq: EECE 444 
  

  • EECE 465 - Internship in Telecommunications II

    3 Hour(s) Lecture.

    Supervised work experience in the area of Telecommunications. Does not apply towards satisfying degree requirements in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 466(G) - Communications Networks

    3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.

    Fundamentals of Networks including PCs, LANs, MANs and WANs.

    Prereq: EECE 434(G)  or EECE 413 , and EECE 452 .
  

  • EECE 467 - Internship in Electrical Engineering II

    3 Hour(s) Lecture.

    Supervised work experience in the area of electrical engineering. Does not apply towards satisfying degree requirements in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 468 - Internship in Telecommunications III

    3 Hour(s) Lecture.

    Supervised work experience in the area of telecommunications. Does not apply towards satisfying degree requirements in electrical engineering.

    Rstr: Permission of Instructor required.
  

  • EECE 470 - Physical Electronics II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Physical behavior of semiconductors and electronic properties of devices (diodes, transistors, and charged coupled devices). Application of modern electronic devices (lasers and solar cells).

    Prereq: EECE 335 .
  

  • EECE 472(G) - Special Topics

    1-3 Credit(s).

    Content varies. Alternate subtitles will appear on student’s transcript.

    Rstr: Permission of the instructor required.
  

  • EECE 479 - Computer Control

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Computer control of machines and processes. Microcontroller architecture and capabilities. Discrete controller design, ladder logic, PLCs.

    Prereq: EECE 461(G) .
  

  • EECE 480(G) - Computer Aided Engineering

    3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.

    Introduction to the application of computer graphics to the evaluation of new system designs and simulation of system performance in the computer before the first prototype is built.

    Rstr: Permission of instructor required.
  

  • EECE 481(G) - Robotic Technology

    4 Credit(s). 3 Hour(s) Lab. 3 Hour(s) Lecture.

    Robotics principles; imaging; sensors; actuators; feedback control; mobility, navigation and path planning; labatory projects.

    Rstr: Permission of instructor required.
  

  • EECE 500 - Random Processes

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Discrete and continuous stochastic processes, correlation and power spectrum, filtering and estimation, Markov Processes.
  

  • EECE 501 - Linear Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Representation of signals and systems, frequency-domain transform techniques, time-domain state-space methods.
  

  • EECE 502 - Digital Signal Processing

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Z-transforms, digital filtering; finite and infinite impulse responses, synthesis methods, the discrete Fourier transform.
  

  • EECE 505 - Advanced Control Design in Dynamic Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced control system design and applications. Topics include: stale space design techniques, stability robustness, optimal control design, robust control, and fault tolerant control design.

    Prereq: EECE 461(G)  or MCHE 474(G)  or CHEE 413(G)  or equivalent basic control course.
  

  • EECE 510 - Communication Networks

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Seven-layer OSI model, Data Link Layer and Network Layer protocols, Transport Layer, TCP/IP, higher layers, cross-layer design.
  

  • EECE 511 - Queueing Theory and Applications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Markov Processes, queuing models, applications to communication networks. 
  

  • EECE 520 - Digital Communication Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Digital baseband modulation systems, Matched filtering, Nyquist criterion for ISI, MPSK, MFSK, and MQAM, AWGN error probability, spread spectrum and OFDM.
  

  • EECE 521 - Information Theory

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Source entropy, discrete memoryless sources, mutual information and capacity, coding theorems, applications. 

    Prereq: EECE 500  
  

  • EECE 522 - Error Correcting Codes

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Linear Block codes, BCH and Reed-Solomon codes, convolutional codes, Viterbi decoding, LDPC codes, turbo codes.
  

  • EECE 530 - Optical Networks

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Optical transport technologies, WDM, long-haul networks, metro network, local networks, access networks.
  

  • EECE 531 - Photonic Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Optical fiber technologies, laser sources, fiber amplifiers, photodetectors, wavelength routers, passive components.
  

  • EECE 532 - Fiber Optic Transmission

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Fiber link engineering, losses, dispersion effects, compensation techniques, optical modulation and coding applications.
  

  • EECE 540 - Wireless Communications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Wireless propagation, shadow fading and multipath effects, wide area cellular telephony, wireless LAN, emerging broadband wireless standards.
  

  • EECE 541 - Mobile Wireless Networks

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Mobility effects in wireless propagation, coding, modulation and multiple access.
  

  • EECE 550 - Control Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced control system design applications. State space techniques, stability, robustness, optimal control, robust control, and fault tolerant control. 

    Prereq: EECE 461(G)  or equivalent course.
  

  • EECE 551 - Sensors and Control

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Sensor technologies, incorporation of sensors in control loops, performance analysis, case studies.

    Prereq: EECE 550  
  

  • EECE 552 - Fault Tolerant Control

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Reliability in control systems, fault detection and mitigation, fault-tolerant control systems, applications to flight control. 

    Prereq: EECE 550  
  

  • EECE 560 - Physical Electronics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Physics of solid-state and opto-electronic devices, current technologies and applications. 

    Prereq: EECE 335  or equivalent course.
  

  • EECE 561 - Fundamentals of RF IC Design

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Design of RF integrated circuits, lumped and distributed RLC networks, Smith chart, S-parameters, noise effects. 

    Prereq: EECE 353  or equivalent course.
  

  • EECE 562 - Electronic Devices for Communication Systems I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Physical theory and operation of MOS field-effect transistors and RF performance for wireless and lightwave applications.

    Prereq: EECE 335  or equivalent course.
  

  • EECE 563 - Nanoscale Computational Electronics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Numerical investigation of device phenomena at nanoscale with application to modern devices. 

    Prereq: EECE 335  or equivalent course.
  

  • EECE 564 - RF IC Building Blocks

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Design of RFIC building blocks, for wireless and lightwave applications. 

    Prereq: EECE 561  
  

  • EECE 565 - Low Power Devices and Circuits for Sensory Control Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Transducers and sensor networks for ultra low power control systems.

    Rstr: Permission of instructor required.
  

  • EECE 566 - IC and MEMS Fabrication

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Principles of planar technology; CMOS, Bipolar, BiCOMOS, MEMS, yield and wafer scale integration, Interconnects and multi-chip modular technology. 

    Rstr: Permission of instructor required.
  

  • EECE 567 - Mixed-Signal Circuits and Systems Design

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Building blocks of mixed signal circuits desigh, current mirrors, differential amplifiers, weighted multipliers, operational amplifiers, and digital gates and circuts.

    Prereq: EECE 353  
  

  • EECE 570 - Power Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Energy sources; transmission line parameters, modeling, performance and design, introduction to network matrices and load flow, faults and outages management.
  

  • EECE 571 - Smart Power Grids

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Power grid concepts, microgrids, smart power grids, solar and wind energy, load flow analysis, fault management.
  

  • EECE 572 - Alternative Energy Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Generation, storage, and efficient use of photovoltaic, solar, wind, nuclear, thermoelectric, geothermal, fuel cell, and other sources of energy.
  

  • EECE 581 - Computer Graphics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Image input and output devices, graphics hardware and software, interactive techniques, animation.
  

  • EECE 582 - Image Processing

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    2D digital signal processing, image processing techniques; data compression for image storage and transmission; image reconstruction from noisy projections.

    Prereq: EECE 430(G)  or equivalent
  

  • EECE 583 - Emerging Interactive Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Mobile devices, electronic kiosks, advanced virtual and augmented interfaces. Multidisciplinary design, technical, and human-factors aspects.

    Rstr: Permission of instructor required.
  

  • EECE 584 - Mobile Devices and Applications Design

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Architectures, networks, and displays. Mobile device programming.

    Rstr: Permission of instructor required.
  

  • EECE 585 - Mobile Graphics Programming

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    2D and 3D graphics for movile devices. Standards, performance issues, computational and memory constraints.

    Rstr: Permission of instructor required.
  

  • EECE 590 - Special Topics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    New and emerging topics in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 597 - Directed Individual Study

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Guided individual study and research in selected topics.
  

  • EECE 598 - Directed Individual Study

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Guided individual study and research in selected topics.
  

  • EECE 599 - Thesis Research and Thesis

    1-9 Credit(s).

    Thesis research and thesis.

    Grading Option: Grades: S, U, W
  

  • EECE 600 - Advanced Topics in Random Processes

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected topics in advanced stochastic processes and applications.

    Prereq: EECE 500 
  

  • EECE 601 - Linear Filtering and Estimation

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    State-space models for linear dynamical systems; Kalman filtering; estimation theory and applications in control and communication systems.

    Prereq: EECE 501 
  

  • EECE 610 - Advanced Topics in Communication Networks

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Queuing theoretic modeling and analysis of network performance.

    Prereq: EECE 510 
  

  • EECE 620 - Current Topics in Information and Coding Theory

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected topics from current literature.

    Prereq: EECE 521 
  

  • EECE 630 - Advanced Optical Transmission

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced coding, modulation and multiple access methods for ultra high-speed optical transmission.

    Prereq: EECE 530 
  

  • EECE 631 - Advances in Photonic Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected readings from current literature in photonic communications devices.

    Prereq: EECE 531 
  

  • EECE 640 - Broadband Wireless Communication Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced coding and modulcation systems, space-time coding, MIMO channels, cooperative communications, network coding, emerging standards.

    Prereq: EECE 540 
  

  • EECE 641 - Cognitive Radios

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Cognitive and software radios, architectures and implementations, standards and appications.

    Prereq: EECE 540 
  

  • EECE 642 - MIMO Wireless Channels and Space-Time Coding

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    MIMO channel modeling, capacity analysis, space-time coding, applications.

    Prereq: EECE 540 
  

  • EECE 650 - Advanced Control Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Linear and non-linear dynamical systems, filtering, estimation and prediction, applications.

    Prereq: EECE 550 
  

  • EECE 651 - Advanced Topics in Sensors and Control

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected readings in sensors and controls from current literature.

    Prereq: EECE 551 
  

  • EECE 660 - Solid State Physics for Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Rigorous application of principles of solid-state physics to electronic and photonic devices.

    Prereq: EECE 560 
  

  • EECE 661 - Introduction to Quantum Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Applications of quantum principles to solid-state devices.

    Prereq: EECE 470  or equivalent course.
  

  • EECE 662 - Electronic Devices for Communications II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Physical theory and operation of Bipolor junction transistors and RF performance for wireless lightwave applications.

    Prereq: EECE 560 
 

Page: 1 | 2