《Fiber Communication System and Network 》Course Syllabus
1. Course Number: 3112100230
2. Course Name:
Fiber communication system and network (36 hours)
3.Prerequisite(s):
Advanced Mathematics, College Physics, Communication Principles, Electromagnetic Field
Theory Fundamentals
4. Applicable Major
Electric and Communication Engineering
5. Curriculum Objective
This course is aprofessional course aimed to communication engineering. After learning this subject, students can grasp the basic concept, theories and key technologies of optical communication and understand the system structure and network, the device principle, design method and performance analysis of optical communication system and network. It aims to train the students to apply principle of optical communication system and network to analyze and solve the practical problems in the optical communication field.
6. Course Contentand Schedules
0) |
Introduction |
1 Hour |
1) |
Principle of Optical Fiber and Cable |
5 Hours |
The structure, classification and manufacture of optical fiber, the structure of the fiber cable, analysis of optical fiber rays and wave optics theory, fiber loss, dispersion and nonlinear effects. |
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2) |
Laser and Optical Transmitter, Optical Detector and Optical Receiver |
4 Hours |
The working principle and characteristics of semiconductor lasers and diodes, the structure and typical classification of the semiconductor lasers and diodes. The working principle and features of the photoelectric detector, composition of optical receiver, performance evaluation of optical receiver. |
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3) |
Optical Passive Component |
2 Hours |
Fiber and waveguide based passive optical component Wavelength division multiplexing and de-multiplexing Parameters of passive optical component |
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4) |
Optical Fiber Communication System |
6 Hours |
Classification of optical fiber communication systems, design and performance of optical fiber communication system, optical amplifier and its application. |
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5) |
SDH |
3 Hours |
The SDH frame structure and the overhead, mapping and multiplexing in SDH, the main equipment in SDH and SDH networking technology. |
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6) |
Optical networking |
4 Hours |
DWDM system, OTN frame structure, ASON, PTN and SDN |
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7) |
Passive optical network |
3 Hours |
Key technologies of passive optical network, GPON, EPON |
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8) |
Experiments |
8 Hours |
Optical fiber communication system Visible light communication system Matlab based simulation platform of optical fiber communication system NS-3 based simulation platform of SDN |
7. Course Form
Lectures inclass and practice in Lab.
8. Key pointsand Difficulties in the Course
Key points: basic theory analysis of optic fiber; basic working principle and characteristicsof semiconductor photoelectric devices, the overall design and budget of the optical fiber communication system; the frame structure and protection of optical network, and new technology of optical communication system and network.
Difficulties: waveoptics theory of optic fiber; the foundation of semiconductor photoelectricdevices; program of SDN.
9、Curriculum Resource
1. Fiber-Optic Communications Systems, Fourth Edition. Govind P. Agawal, JohnWiley&Sons,Inc;
2. Optical Fiber Communications: Principles and Practice, Senior John, Prentice Hall; 2008;
3. Advanced Optical Communication Systems and Networks, Milorad C. and Ivan B. D.,
Artech House Applied Photonics
Some reference materials from ITU-T like Optical Transport Network (OTN) Tutorial,for SDN part, Software Defined Networking with OpenFlow.
10.Examination Form
Open-book examination; Curriculum evaluation of total performance: normal and final according to the proportion of 50:50; adopting hundred-marking system.