¨EE 475 Advanced Communication Systems¨  

SPRING  2002

ª COURSE WEB PAGE:

http://koala.ece.stevens-tech.edu/~utureli/EE475/home.html for further information.

 


HW 1 and sol: Problems in Haykin pdf



  • HW 2 and sol: Problems 4.1, 4.3, 4.6 and 4.11 in Haykiny pdf



  • HW 3: Problems 4.39 in Haykin



  • HW 4: Problem 4.38 Haykin



  • HW 5 and sol: Problems 4.34, 4.35, 4.36 and 4.37 in Haykin pdf


  • SCHEDULE: Tuesdays and Thursdays   09:30 AM-10:45 AM       Burchard Bldg     430

     

    COORDINATOR: Dr. Uf Tureli, utureli@stevens-tech.edu

    PHONE: 201-216 5603

    OFFICE HOURS: Wednesdays 3-4pm, Thursdays 5-6pm at  Burchard 202 other times by appointment. Please contact me at least 2 days in advance for appointments outside of office hours. You may use e-mail to request appointments.

    TEXT:  S. Haykin, Communication Systems, 4 th Edition, John Wiley & Sons, 2000.

    REFERENCES: 

    1. R. E. Ziemer and W. H. Tranter, Principles of Communications: Systems, Modulation, and Noise, 5 th Edition, John Wiley & Sons, 2002.

     

    2. J. G. Proakis and M. Salehi, Contemporary Communications Systems using MATLAB, 5 th Edition, Brooks/Cole, 2000.

    PREREQUISITES:  EE 465, Introduction to Communication Systems.

    COURSE DESCRIPTION:  This course will be an introduction to   theory and methods used in the analysis and design of digital communication systems. 

    Topics include Baseband and Passband Transmission modulation schemes, synchronization and demodulation; Spread spectrum communication systems; Mobile communications: digital cellular communication systems and PCS; Introduction to information theory and Error control techniques.

    Assignments and projects:  Hands on learning with computer based learning approaches will include simulation in MATLAB or instructor provided Systemview Elanix high level software  packages  to design and implement  modulation, filtering, synchronization and demodulation.

    ASSESSMENT / GRADING:

     

    Project

    		 
    (computer programming, brief in-class presentation and formal report)

    20%

     

    Homework

    		 
    (analytical problems 30 % and computer programming 10% )

    40%

     

    Exams

    Midterm 

    20%

     

     

    Final 

    20%

     

    OTHER COURSE INFORMATION:  You are responsible for all material covered in class, in assigned readings, and on homework assignments. You are expected to attend class. I encourage you to come to my office hours whenever you have any questions concerning the course. I enjoy working with students, and am happy to meet with you

     If you are going to miss an exam, you must make prior arrangements with me in order to take the exam before the scheduled date. Homework will be assigned and graded. You are encouraged to form groups to work together on homework to solidify your knowledge of the material.