• Fiber Broadband Communications Network
    • School of Electronic, Information and Electrical Engineering
    • Credit. 3
    • IE317
    • Enroll
    • WILL BEGIN
    • Fall , 2015
    • 2852
    • Course Description:
    • ( Exchange Programme )
    • This course focuses on key optical components, optical transmission systems, optical networks, and application of fiber communication technologies, train the students to understand the basic principles and research methods of optical fiber communications. At the same time, train students’ abilities on fast learning, oral presentation and experiment skills.
      This course introduces the basic principles and technologies on optical fiber communications, including characteristics of fiber optics, semiconductor light sources, photo-detectors, optical amplifiers and other kinds of optical components. This course further discusses issues on the analog and digital transmission system designs and the current mainstream of optical networking technologies. Besides, this course will talk about the evolution of the next-generation optical fiber communications technologies and the research topics of interest, such that students can understand and master both the advanced techniques of modern optical fiber communications technologies and the fundamental principles behind.
    • Course Syllabus:
    • After completing the course, students should:
      1.Develop a comprehensive understanding on optical fiber communications;
      2.Master fundamental principles and methods;
      3.Understand key components, devices, and system designs;
      4.Familiar with state-of-the-art technologies on optical fiber communications.
    • Schedule:
    • 1. INTRODUCTION: Historical Perspective, Basic Concepts, Applications of Fiber Optics 3 Credit hours
      2. OPTICAL FIBER: Geometrical-Optics Description, Wave Propagation, Dispersion, Fiber Losses, Nonlinear Optical Effects, Fiber Design and Fabrication 8 Credit hours
      3. OPTICAL TRANSMITTERS: Basic Concepts, Semiconductor Laser, Light-Emitting Diodes,Transmitter Design 2 Credit hours
      4. OPTICAL RECEIVERS: Basic Concepts, Photodetectors, Receiver Design, Receiver Performance 2 Credit hours
      5. OPTICAL FIBER TRANSMISSION SYSTEMS: System Architectures, Design Guidelines, Long-Haul Systems, Power Penalty 4 Credit hours
      6. MULTICHANNEL SYSTEMS: Basic Concepts, Wavelength-Division Multiplexing, Time-Division Multiplexing, Orthogonal Frequency-Division Multiplexing 4 Credit hours
      7. LOSS MANAGEMENT: Basic Concepts, Erbium-Doped Fiber Amplifiers, Raman Amplifiers, Periodically Amplified Lightwave Systems 4 Credit hours
      8. DISPERSION MANAGEMENT: Basic Concepts, Dispersion-Compensating Fibers, Fiber Bragg Gratings, Dispersion-Equalizing Filters 4 Credit hours
      9. CONTROL OF NONLINEAR EFFECTS: Basic Concepts, Solitons in Optical Fibers, Four-Wave Mixing 4 Credit hours
      10. Optical Communication Networks 2 Credit hours
      11. APPLICATIONS OF FIBER OPTICS: Fiber optics for Sensing, Medical, Industrial Applications 2 Credit hours
      12. EXPERIMENTS: Characteristics of Optical Fibers, Optical Fiber Transmission Experiments 4 Credit hours
      13. RECENT ADVANCES IN FIBER OPTICAL COMMUNICATIONS 2 Credit hours
      14. COURSE PRESENTATION (in English) 3 Credit hours
  • Reading list
  • Other Materials
  • Discussion
  • Homework download/submit
    • Ma Dianguang
    • Associate Professor
    • Read more
    • Male
    • E-mail:
    • dgma@sjtu.edu.cn
    • Profile
    • The teacher received his BS, MS, and PhD degrees from Shanghai Jiao Tong University in 1985, 1991, and 1994, respectively. He teaches EE310 Computer Communications and Networks, EE317 Digital Signal Processing (B), EI205 Digital Electronics, EI210 Signals and Systems (B), EI232 Circuits and Electronics, EI302 Communication Principles (B), and VE451 Digital Signal Processing and Analysis. He also has the experience of teaching EI207 Analog Electronics, VE215 Introduction to Electric Circuits, VE216 Introduction to Signals and Systems, VE270 Introduction to Logic Design, and VE311 Electronic Circuits. He received the Schneider Excellent Teacher Award, Teaching Achievement Award for Communication Principles Course Construction, Philips Excellence in Teaching Award, SJTU Excellent Teacher Award, and KoGuan Top Ten Teachers Award in 2001, 2004, 2007, 2009, and 2013, respectively, all from SJTU.
    • Ma Lin
    • Associate Professor
    • Read more
    • Male
    • E-mail:
    • ma.lin@sjtu.edu.cn
    • Profile
    • Lin Ma received the B.S. degree from Wuhan University of Technology, China, in 2003, and the M.S. and the Ph.D. degree in electrical communication engineering from Tohoku University, Japan, in 2006 and 2009, respectively. He served as a research scientist in NTT Laboratories, Japan, from 2010 to 2014. He is currently an associate professor with the Department of Electronic Engineering, Shanghai Jiao Tong University.

      His research interests include specialty optical fibers, optical communication and optical fiber sensing technologies. He has published over 40 journal and conference papers on these topics. Dr. Ma is the recipient of NTT Special Award in 2014 for establishment of advanced technologies on novel optical fibers. Moreover, he had a 1-year experience as an undergraduate international exchange student and he would much likely understood and respect your opinion.
  • Prerequisite Course:

    Communication Theory

  • Textbooks:

    Fiber-Optic Communication System, Fourth Edition, G.P.Agrawal
  • Grading:

    Attendance 20%, Homework 20%, Experiment 20%,Presentation 20%, Course Report 20%.
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