May 08, 2024  
University Catalog 2017-2018 
    
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University Catalog 2017-2018 [ARCHIVED CATALOG]

Course Descriptions

Courses are numbered as follows: freshmen, 100-level; sophomores, 200-level; juniors, 300-level; seniors, 400-level; graduate students, 500- & 600-level. Certain 400-level courses may be taken by graduate students for graduate credit; in such cases, graduate students complete additional research assignments to bring the courses up to graduate level rigor. The letter G in parentheses, (G), appears at the end of those 400-level undergraduate course descriptions which are approved for graduate level work. When taught for graduate credit, those courses are taught by Graduate Faculty. Only students admitted to the Graduate School may enroll in 500- & 600-level courses.

No credit is allowed in any curriculum for any course with a catalog number beginning with zero (0) (e.g. ENGL 099 ).

The numerical listing after each course title gives the following information: the first number represents lab hours per week; the second digit represents the number of 75-minute lecture periods per week; the third digit represents the semester credit hours earned for successful completion of the course. A few courses will have a fourth digit in parentheses. This means the course may be repeated for credit and the fourth digit designates the total amount of semester hour credit that may be earned including repetition of the course. Typically, these courses are research-, performance-, or project-oriented and found in the 300-, 400-levels (undergraduate student) or 500-, 600-levels (graduate student).

Some courses require the student to complete a prerequisite course or to secure special permission from faculty prior to enrolling in the course. These prerequisites are listed immediately after the numerical semester credit hour designations. Each student is responsible for complying with prerequisite course work requirements and special instructions.

NOTES:

  1. Courses designated with an asterisk * mean this course will be accepted for General Education Requirement (GER) transfer credit. A course MAY or MAY NOT be accepted as equivalent to or substitute for a course in a specific discipline or major. Please check the Board of Regents web site at www.regents.state.la.us/ and the school you are transferring to for additional information.
  2. Courses with the designation (IER) meet the Board of Regents International Education Requirement.
  3. Students with a Freshman or Sophomore classification are not eligible to register for 400-level (Senior) courses without the written approval of the Academic Dean (or the Dean’s designated representative) of the college responsible for that specific subject and course)
  4. Course offerings for each term are made available prior to Early Registration via the BOSS website (“Available Course Sections”) and in .pdf format on the Registrars website (Quarterly Schedule of Classes-The Racing Form). Quarterly offerings are subject to change to accommodate the needs of students.

Louisiana Common Course Numbering (LCCN).

Louisiana uses a statewide common course numbersing system “…to facilitate program planning and the transfer of students and course credits between and among institutions.” Faculty representatives from all of the public colleges and universities worked to articulate common course content to be covered for each course included on the Board of Regents Master Course Articulation Matrix. Beginning with General Education Requirements (GER), this initiative will continue with an eye toward expansion throughout the entire Matrix.

Each course is identified by a 4-Alpha character “rubric” (i.e. prefix or department abbreviation) and a four-digit number. Each 4-Alpha rubric begins with “C” to signify that it is a state “Common” number, followed by a standard discipline abbreviation so that when they are included in campus catalogs and web sites, its meaning will be clear. For example, “CMAT” is the standardized LCCN abbreviation for Mathematics courses included in the Statewide Course Catalog. Another example would be “CENL” for English courses.

The 4-Alpha character rubric is followed by four digits, each with their own positional meaning. The first digit of the course number denoteds the academic level of the course (1 = freshman/1st year; 2 = sophomore/2nd year). The second and third digits establish course sequencing and/or distinguish the course from others of the same level, credit value, and rubric. The fourth digit denotes the credit value of the course in semester hours. For example, CMAT 1213 College Algebra (Common, Mathematics, Freshman/1st year, articulated standard sequence 21, 3 semester hours, College Algebra); CENL 1013 English Composition I (Common, English, Freshman/1st year, articulated standard sequence 01, 3 semester hours, English Composition I.

All rubric/number course identifiers correspond to course descriptiors listed in the Statewide Course Catalog, published by the Louisiana Board of Regents with direct faculty input.The Statewide Course Catalog will comprise the academic courses for which there is statewide agreement among discipline faculty representatives as to the minimum course content to be covered so that a student completing the course will be ready for the next course for which it is a prerequisite in a sequence or curriculum. Louisiana Tech University courses that are part of the Statewide Common Course Catalog can be readily identified by the [LCCN: AAAA####] at the end of the course description.

The Master Course Articulation Matrix, and the Louisiana Statewide Common Course Catalogue can be found on the Louisiana Board of Regents website (www.regents.doa.louisiana.gov under the Academic Affairs menu option.)
 

Education Leadership
  

  • EDLE 567: Adv Topics in Educational Ldrshp

    3 Semester Credit Hours . (Pass/Fail). This course is designed for prospective or practicing elementary of secondary school administrators and topics vary. May be repeated multiple times for credit.
  

  • EDLE 585: Comprehensive Examination in Educational Leadership

    No credit Semester Credit Hours . Prerequisite Graduate standing required. Required for all graduating graduate students enrolled in the M.Ed.or M.S. programs of study in Educational Leadership. Requires consent of the College of Education Graduate Director. May be repeated once.
  

  • EDLE 593: Leading With Technology for Administrators

    3 Semester Credit Hours . This course is designed to support school administrators in understanding and utilizing technology to impact overall instructional leadership and school improvement.
  

  • EDLE 594: Spec Topics in Educ Leadership

    . Selected topics in an identified area of study in educational leadership in the College of Education. May be repeated for up to 9 hrs credit.
  

  • EDLE 594A: Spec Topics in Educ Leadership

    . Selected topics in an identified area of study in educational leadership in the College of Education. May be repeated for up to 9 hrs credit.
  

  • EDLE 594B: Spec Topics in Educ Leadership

    . Selected topics in an identified area of study in educational leadership in the College of Education. May be repeated for up to 9 hrs credit.
  

  • EDLE 594C: Spec Topics in Educ Leadership

    . Selected topics in an identified area of study in educational leadership in the College of Education. May be repeated for up to 9 hrs credit.
  

  • EDLE 594D: Spec Topics in Educ Leadership

    . Selected topics in an identified area of study in educational leadership in the College of Education. May be repeated for up to 9 hrs credit.
  

  • EDLE 599: E-Portfolio

    . Prerequisite Graduate standing required. Requires consent of College of Education Graduate administrators in theories, principles, and concepts of supervision. Required for all graduating graduate students enrolled in the Master of Education Educational Leadership program who began their program Fall 2008 or later.
  

  • EDLE 700: Introduction to Doctoral Research and Design

    3 Semester Credit Hours . 0-3-3 Knowledge of and expertise in area of research design, statistical analysis, dissertation format, and APA style..

     

  

  • EDLE 701: Applied Statistical Analysis

    3 Semester Credit Hours . 0-3-3 Prerequisite EDLE 700 or LECF 700 Designed to extend the knowledge and skills of doctoral students in the use of statistical analyses and interpretation.

     

     

  

  • EDLE 702: Evaluation Theory and Practice

    3 Semester Credit Hours . 0-3-3 Prerequisite Doctoral student status Quantitative and qualitative research methods and designs, data collection and data analysis, and ethical practices when conducting human subject dissertation research.

     

  

  • EDLE 730: Higher Educ and The Adult Learner

    3 Semester Credit Hours . This course examines research-based theories and practices of teaching, learning, and assessing the adult learner in higher education.
  

  • EDLE 731: Legal and Cultural Aspects of Higher Education

    3 Semester Credit Hours . This course examines legal issues relevant to American colleges and universities and provides participants with fundamental knowledge of higher education law and operating culture.
  

  • EDLE 732: Institutional Effectiveness and Fiscal Management

    3 Semester Credit Hours . This course examines institutional assessment processes and budget and fiscal management including the assessment, development, and strategic planning for institutions of higher education.
  

  • EDLE 733: Higher Educ Governance and Admin

    3 Semester Credit Hours . Prerequisite Admission to Doctor of Education program This course focuses on understanding national and state-level factors influencing higher education governance systems and the administration in higher education.
  

  • EDLE 734: Contemporary Iss in Higher Educ

    3 Semester Credit Hours . An exploration of American Colleges and universities with a focus upon central trends and issues related to academic settings, external forces, and the academic community.
  

  • EDLE 735: Human Resources and Student Services

    3 Semester Credit Hours . An overview of higher education from the perspectives of student identity, student services assessment, and the theoretical foundations of human resource leadership.
  

  • EDLE 736: Organizational Theory and Administration

    3 Semester Credit Hours . Prerequisite Admission to Doctor of Education Program This course immerses students in the literature and research on Organizational Theory as it relates to the nature of higher education institutions as organizations.
  

  • EDLE 778: Advanced Research Design

    3 Semester Credit Hours . 0-3-3 Prerequisite Admission to Candidacy

      Designed to prepare doctoral level students to write dissertation chapters 1, 2, and 3.

     


Educational Computer Technology
  

  • ECT 440: Technology for Teachers I

    3 Semester Credit Hours . This course is designed to introduce teachers to computer applications that support classroom instruction. Classroom management techniques and modeling effective teaching strategies will also be a part of the instructional process. (G)
  

  • ECT 441: Technology for Teachers II

    3 Semester Credit Hours . This course is designed to enhance teachers’ classroom instruction through technology integration. Classroom management techniques and modeling effective teaching strategies will also be a part of the instructional process. (G)
  

  • ECT 442: Curriculum Enhancement Through Technology

    3 Semester Credit Hours . This course is designed to enhance the instructional program within the K-12 classroom. Emphasis will be placed on how technology can be easily integrated into standards-based lessons. (G)
  

  • ECT 445: Introduction To Technology for Teachers

    3 Semester Credit Hours . Prerequisite Upper Division. This course is for preservice and inservice teachers who want to develop proficiency in using technology to support classroom learning. (G)
  

  • ECT 500: Tech Ldrshp:Stds-Based Teaching

    3 Semester Credit Hours . Prerequisite ECT 445  or equivalent. Exploration of ways to use technology to support standards-based teaching and learning in the classroom.
  

  • ECT 501: e-Learning Research

    3 Semester Credit Hours . 0-3-3 An exploration of emerging educational technologies for enriching learning experiences throughout the educational enterprise.

     

  

  • ECT 502: Instructional Media Research & Development

    3 Semester Credit Hours . 0-3-3 Multimedia and hypermedia research, design and development for interactive presentations, Web content, Smart technologies, and the Internet. 
  

  • ECT 510: Technology, Reading & Learning

    3 Semester Credit Hours . 0-3-3 Research-based teaching and learning strategies for integrating hypertext, hypermedia, technology tools, and learning apps into the K-12 curriculum.

     

  

  • ECT 535: Effective Instructional Technology: An Introduction

    3 Semester Credit Hours . Addresses the importance and relevance of the six ISTE-NETS standards to classroom teaching and performance indicators and profiles.

Educational Psychology
  

  • EPSY 480: Intro To Orientation and Mobility

    3 Semester Credit Hours . Provides an examination and application of the fundamental principles and theories of orientation & mobility. Students will progress through a graduated travel curriculum. (G)
  

  • EPSY 502: Appraisal Exceptional Students

    3 Semester Credit Hours . Prerequisite Approval of instructor. Administration and interpretation of specialized individual tests, infant development scales, non-verbal tests for linguistically impaired, verbal tests for sensory handicaps, and accelerated academic assessment.
  

  • EPSY 580: Immersion in Blindness Practicum

    6 Semester Credit Hours . Prerequisite ENROLLMENT BY APPLICATION ONLY Personal experience with blindness; nonvisual techniques, expectations and attitudes at the Louisiana Center for the Blind. (Pass/Fail) (Enrollment by application only)
  

  • EPSY 581: Blindness Rehab Systems and Issues

    3 Semester Credit Hours . Presents an overview of rehabilitation history, concepts, programs and services; professional responsibilities and ethics with field experiences utilizing techniques for working with rehabilitation agencies, school systems, organizations and public or private programs serving blind and Visually impaired individuals.
  

  • EPSY 582: Intro To Orientation and Mobility

    3 Semester Credit Hours . Prerequisite EPSY 580  Provides an examination and application of the fundamental principles and theories of orientation & mobility. Students will progress through a graduated travel curriculum.
  

  • EPSY 583: Adv Orientation and Mobility

    3 Semester Credit Hours . Provides instruction for teaching techniques of independent mobility to individuals who are blind/visually impaired. Curriculum includes strategies and techniques for rural environments, special travel situations, and use of public transportation and applications to daily living vocational environments. Special techniques used by O&M instructors who are blind/visually impaired are emphasized.
  

  • EPSY 584: Intern in Orientation and Mobility

    6 Semester Credit Hours . Prerequisite EPSY 583 , by application only. Intensive experience in teaching Orientation and Mobility skills to Visually impaired students. Field experience at a pre-approved site. (Pass/Fail)
  

  • EPSY 585: Comp Exam in Educational Psyc

    No Credit Semester Credit Hours . Required for all students in educational psychology master’s programs. Usually taken in the last term before graduation, but other arrangements may be made under extenuating circumstances.
  

  • EPSY 587: Advanced Rehabilitation Systems and Issues

    3 Semester Credit Hours . 0-3-3 Advanced Rehabilitation Systems and Issues delves into the Psychosocial, organizational, systemic and consumer-driven perspectives surrounding rehabilitation for individuals who are blind. 
  

  • EPSY 588: Internship in Rehab Teaching

    3 Semester Credit Hours . Demonstration of student competencies in providing mobility, communications, and other daily living activities instruction to adults who are blind or Visually impaired. (Pass/Fail)
  

  • EPSY 599: Master’S Thesis

    3 Semester Credit Hours . (6 hours minimum) Original research conducted under the supervision of a departmental faculty member in the student’s program area. Student must be enrolled whenever university facilities or faculty are used. (Pass/Fail)

Electrical Engineering
  

  • ELEN 223: Electrical Circuits II

    3 Semester Credit Hours . 0-3-3 Prerequisite ENGR 221 . Steady-state and transient analysis of RL, RC and RLC circuits.  Design problems using circuit analysis programs.  Analysis of ideal and non-ideal operational amplifiers.

     

     

  

  • ELEN 224: Electrical Circuits III

    3 Semester Credit Hours . 0-3-3 Prerequisite ELEN 223  and credit or registration in MATH 245   Magnetically coupled circuits.  Complex frequency.  Two-port networks.  Laplace transforms.  Frequency response.

     

  

  • ELEN 229: Electrical Circuits Laboratory

    1 Semester Credit Hours . 3-0-1 Prerequisite Credit or registration in ELEN 224   Computer methods, instruments, devices, and design for measurements in electrical networks.
  

  • ELEN 242: Introduction To Microprocessors

    3 Semester Credit Hours . 3-2-3 Prerequisite Credit or registration in MATH 242   Introduction to microprocessor organization and operation, data manipulation, assembly and/or embedded-C language programming, serial communication, analog-to-digital conversion, timers, interrupts, DC motor control.

     

  

  • ELEN 313: Introduction to Electric & Magnetic Fields

    3 Semester Credit Hours . 0-3-3 Prerequisite PHYS 202 , ENGR 221 , cumulative GPA of at least 2.0 for MATH 241  through MATH 244   Vector analysis, Coulomb’s and Gauss’ Law.  Electric field streamlines.  Energy and potential.  Conductors, dielectrics, capacitance.  Maxwell’s, Poisson’s and Laplace’s equations.  Steady magnetic fields.  Joule’s Law.

     

  

  • ELEN 321: Linear Systems

    3 Semester Credit Hours . Prerequisite ELEN 224 , MATH 245 . Fourier Series, Fourier Transform, LaPlace Transform. Convolution and the system function. Filters. State variable representation and solution.
  

  • ELEN 322: Digital Signal Processing

    3 Semester Credit Hours . Prerequisite ELEN 321  Discrete signals, LTI systems, discrete Fourier analysis, discrete filters, sampling, Z-transforms.
  

  • ELEN 333: Introduction to Digital Design

    3 Semester Credit Hours . 3-2-3 Prerequisite ELEN 242   Digital design tecniques, Boolean algebra, combinational logic, minimization techniques, simple arithmetic circuits, programmable logic, sequential circuit design, registers and counters, state machines, Verilog and VHDL.

     

  

  • ELEN 334: Solid State Electronics

    3 Semester Credit Hours . Prerequisite MATH 244 , PHYS 202 , and ENGR 221  Fundamentals of solid state electronic materials and devices, emphasizig semiconductors and principles of operation of ULSI devices.
  

  • ELEN 335: Electronic Circuits I

    3 Semester Credit Hours . Prerequisite ELEN 224  and ELEN 334   Circuit-level behavior of diodes, bipolar transistors, field-effect transistors, and operational amplifiers. Analysis and design of linear amplifiers. Frequency domain characterization of transistor circuits.
  

  • ELEN 336: Electronic Circuits II

    3 Semester Credit Hours . Prerequisite ELEN 335  Advanced transistor amplifier analysis and design. Design of op-amps, active filters, oscillators, A/D and D/A converters, and power converters. Transistor level design of CMOS circuits.
  

  • ELEN 339: Electronic Circuits Laboratory

    1 Semester Credit Hours . Prerequisite Credit or Registration in ELEN 336  Corequisite Electrical Engineering 331 Laboratory design, simulation, and testing of electronic circuits using diodes, transistors, integrated circuits, and passive components.
  

  • ELEN 405: Electrical Engineering Design I

    2 Semester Credit Hours . 3-1-2 Prerequisite ELEN 321 , ELEN 322 , ELEN 336 , ELEN 339 , ELEN 411 , ENGR 220 , ENGR 221 , and ENGR 222  

      Design problems requiring the integration of circuits, electronics, field theory, controls, power systems, and economics.  Professional and ethical responsibility.  Problem solving techniques and case studies.

     

  

  • ELEN 407: Electrical Engineering Design II

    1 Semester Credit Hours . 3-0-1 Prerequisite ELEN 405   A laboratory for the continuing development of the senior design project started in ELEN 405

    .

  

  • ELEN 408: Elec Engineering Design III

    1 Semester Credit Hours . Prerequisite ELEN 407 . A laboratory for the continuing development and implementation of the senior design project started in ELEN 406 and continued in ELEN 407 .
  

  • ELEN 411: Electric and Magnetic Fields

    3 Semester Credit Hours . 0-3-3 Prerequisite ELEN 313   Ampere’s Circuit Law, magnetic flux and potential, magnetic forces, materials and inductance, time-varying electromagnetic fields, Maxwell’s equations, plane waves, transmission lines, impedance-matching devices.

     

  

  • ELEN 423: Embedded Systems

    3 Semester Credit Hours . Prerequisite ELEN 242  Assembly and C programming on a customizable microprocessor implemented on an FPGA board. Verilog components, RTOS, debugging techniques, state machines, software revision control, DSP programming.
  

  • ELEN 424: Instrumentation and Measurement

    3 Semester Credit Hours . 0-3-3 Prerequisite ELEN 336   Transducers, including 4-20 mA loops.  Signal Conditioning.  Industrial Control Electronics, including Programmable Logic Controllers (PLCs).  Statistical analysis on experimental data.

     

  

  • ELEN 425: Electrical Mach

    .
  

  • ELEN 433: Optoelectronics

    3 Semester Credit Hours . 0-3-3 Prerequisite ELEN 313  OR ELEN 334   Light polarization, absorption, dispersion, emission, reflection and refraction. Gaussian beam. Lasers, light emitting diodes, photodetectors, solar cells, optical waveguides and fibers. Surface plasmons.
  

  • ELEN 437: Fund of Microfabrication Process

    3 Semester Credit Hours . Prerequisite MATH 245  and PHYS 202 . Study of microfabrication processes including patterning, additive, and etching processes used for the realization of microelectronic ultra large scale integration (ULSI) and microelectromechanical systems (MEMS) technologies.
  

  • ELEN 438: Microelectronic Appl and Dev Fab

    3 Semester Credit Hours . Prerequisite ELEN 437 . Microfabrication process integration and applications to the realization of ULSI and other technologies.
  

  • ELEN 439: Microfabrication Laboratory

    1 Semester Credit Hours . Corequisite ELEN 437  Laboratory experience in the fabrication of a microelectronic or microelectromechanical device using a variety of microfabrication processes.
  

  • ELEN 440: Digital Computers

    .
  

  • ELEN 450: Selected Topics

    2 Semester Credit Hours . Prerequisite Permission of instructor. Work in an area of recent progress in electrical engineering of immediate interest or need. Topic selected will vary from term to term.
  

  • ELEN 451: Special Topics

    3 Semester Credit Hours . Prerequisite Consent of instructor. Study in an area of recent progress in electrical engineering of immediate interest or need. Topic selected will vary from term to term.
  

  • ELEN 461: Communication Systems

    3 Semester Credit Hours . Prerequisite ELEN 322  Analog and digital communication systems. Random signals, noise and filtering. Phsical constraints. Multiplexing. Properties of AM, FM, PSK, and QAM systems. (G)
  

  • ELEN 462: Digital Communication Systems

    3 Semester Credit Hours . Prerequisite ELEN 461 . Analysis and design of digital communication systems. Signals and spectra, digital baseband and carrier systems, digital networks, introduction to emerging technologies.
  

  • ELEN 463: Optical Communication Systems

    3 Semester Credit Hours . Prerequisite ELEN 411 . Optical waveguides, mode theory and ray optics. Transmission losses and signal distortion. Optical sources, detectors and transmission link analysis. (G)
  

  • ELEN 469: Communications Laboratory

    1 Semester Credit Hours . Prerequisite Credit or registration in ELEN 461 . Communications laboratory to accompany ELEN 461 . Fourier Spectrum, AM systems, FM systems, and Time Division Multiplex.
  

  • ELEN 471: Automatic Control Systems

    3 Semester Credit Hours . Prerequisite ELEN 321 , MATH 244 . Analysis and design of linear feedback systems. Mathematical modeling. Transfer functions and signal-flow graphs. State variable analysis. Time domain analysis and design of linear control systems. Frequency domain analysis and design of linear control systems.
  

  • ELEN 472: Introduction To Digital Control

    3 Semester Credit Hours . Prerequisite ELEN 471 . An introduction to the theory of linear control systems. Time-domain analysis of discrete systems. Z-transform. Sampling. Discrete-time signal analysis. Sampled data control systems.
  

  • ELEN 474: UAV Control

    3 Semester Credit Hours . 0-3-3 Prerequisite ELEN 321  and Permission of Instructor Introduction to Unmanned Aerial Vehicles (UAVs), models and control methods; state-space models, LQR controls, pole placement, and robust control; stability; data links; path planning.

     

  

  • ELEN 479: Automatic Control Systems Lab

    1 Semester Credit Hours . Prerequisite Credit or registration in ELEN 471 . Laboratory design, simulation and testing of automatic control systems.
  

  • ELEN 481: Power Systems

    3 Semester Credit Hours . Prerequisite ELEN 411 . Pre-unit notion. The design and analysis of balanced power systems including load flow, economic dispatch, short circuit and over current device coordination and control of watts and vars. (G)
  

  • ELEN 482: Power Systems Design and Analysis

    3 Semester Credit Hours . Prerequisite ELEN 481 . Review of three-phase short circuits. Symmetrical components. Analysis of power systems in the transient state. Control of frequency and power flow in interconnected systems. (G)
  

  • ELEN 483: Motor Control

    3 Semester Credit Hours . Prerequisite ELEN 481 . Speed control. Reduced voltage starting techniques. Classical relay ladder logic. Modern programmable logic control device applications. Power electronic applications.
  

  • ELEN 489: Power Systems Laboratory

    1 Semester Credit Hours . Prerequisite Credit or registration in ELEN 481 . Laboratory design, simulation, and testing of electric power devices, machines, and systems.
  

  • ELEN 505: Solid State Effect

    .
  

  • ELEN 512: Electromagnetic Waves.

    3 Semester Credit Hours . Prerequisite ELEN 411 . Propagation, reflection and refraction of electromagnetic waves. Guided waves and power flow. Boundry-value problems.
  

  • ELEN 524: Instrumentation and Measurement

    3 Semester Credit Hours . 0-3-3 Prerequisite Graduate Standing and Permission of instructor

      Transducers, including 4-20 mA loops.  Signal Conditioning.  Industrial Control Electronics, including Programmable Logic Controllers (PLCs).  Statistical analysis of experimental data.

     

  

  • ELEN 525: Telecommunication Theory and Appl

    3 Semester Credit Hours . Emphasis on the physical and data link layers of the OSI model. Topics include modulation, utilization, multiplexing, impairments, and protocols on LANs, MANs and WANs.
  

  • ELEN 526: Modern Wireless and Optical Netwrk

    3 Semester Credit Hours . Overview of wireless and optical networking (at all layers of the OSI model). Topics include: 4G, FTTx, OFDMA, software-defined-radio, ROADM, optical packet and burst switching.
  

  • ELEN 527: Optical Communication Systems

    3 Semester Credit Hours . Optical telecommunication system performance issues and enabling technologies. Shot noise mitigation, dispersion compensation, reduction and exploitation of nonlinearities. Next generation optical networks, sources and detectors.
  

  • ELEN 531: Antennas and Radiation

    .
  

  • ELEN 533: Optoelectronics.

    3 Semester Credit Hours . Prerequisite Permission of instructor. Modulation of light, display devices, lasers, photodectors, optical transistors, logic gates, Waveguides, transmitter and receiver design.
  

  • ELEN 535: Advanced Topics in Microelectronics

    3 Semester Credit Hours . Prerequisite Consent of instructor. Selected topics of current research interest in the field of microelectronics.
  

  • ELEN 537: Advanced Microfabrication With Computer-Aided Design

    3 Semester Credit Hours . Prerequisite ELEN 438 . Advanced microfabrication process development and integration with the aid of computer process modeling and simulation.
  

  • ELEN 538: Advanced Microelectronic Devices With Computer-Aided Design

    3 Semester Credit Hours . Prerequisite ELEN 537 . Principles of operation and analysis of advanced microelectronic devices with the aid of computer device modeling and simulation.
  

  • ELEN 550: Special Problems

    1-4 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice.
  

  • ELEN 550A: Special Problems

    1 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice.
  

  • ELEN 550B: Special Problems

    2 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice.
  

  • ELEN 550C: Special Problems

    3 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice.
  

  • ELEN 550D: Special Problems

    4 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice.
  

  • ELEN 551: Research and Thesis in Electrical Engineering

    . Prerequisite 12 semester hours of graduate work. Registration in any quarter is for 3 semester hours credit or multiples thereof. Maximum credit applicable towards the degree is 6 semester hours.
  

  • ELEN 551C: Res and Thesis in Electrical Engr

    . Prerequisite 12 semester hours of graduate work. Registration in any quarter is for 3 semester hours credit or multiples thereof. Maximum credit applicable towards the degree is 6 semester hours.
  

  • ELEN 551F: Res and Thesis in Electrical Engr

    . Prerequisite 12 semester hours of graduate work. Registration in any quarter is for 3 semester hours credit or multiples thereof. Maximum credit applicable towards the degree is 6 semester hours.
  

  • ELEN 555: Practicum

    3 (6) Semester Credit Hours . Prerequisite 12 semester hours of graduate work. Analytical and/or experimental solution of an engineering problem; technical literature survey required, development of engineering research techniques. (Pass/Fail)
  

  • ELEN 557: Special Topics: Electrical Engineering

    3 (9) Semester Credit Hours . The topic or topics will be selected by the instructor from the various sub-areas of electrical engineering. May be repeated as topics change.
  

  • ELEN 561: Random Signals and Systems

    3 Semester Credit Hours . Prerequisite ELEN 461 , ELEN 471 . Random signal analysis. Correlation and power spectrum analysis. Stochastic communication and control systems.
 

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