About This Course

optical communication system uses a transmitter, which encodes a message into an optical signal, a channel, which carries the signal to its destination, and a receiver, which reproduces the message from the received optical signal. When electronic equipment is not employed the 'receiver' is a person visually observing and interpreting a sig...

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Course Curriculum

1 Sections | 41 Lecture | 36h 07min total length

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Module1

| 36h 07min total length

L1-Introduction
52m
L2-Basics of Light
51m
L3-Ray Model -I
49m
L4-Ray Model -II
49m
L5-Wave Model-I
53m
L6-Wave Model-II
54m
L7-Wave Model-III
53m
L8-Signal Distortion - I
53m
L9-Signal Distortion - II
54m
L10-Signal Distortion - III
53m
L11-Practical issues in Implementation of Fiber link
53m
L12-Optical Sources
53m
L13-Light Emitting Diodes -I
52m
L14-Light Emitting Diodes -II
51m
L15-Laser - I
52m
L16-Laser - II
52m
L17-Laser - III
52m
L18-Laser - IV
52m
L19-Laser - V Photon Detector
52m
L20-Photo Diodes and Detector Noise
54m
L21-Photo Detector
50m
L22-Optical Receivers - I
52m
L23-Optical Receivers - II
51m
L24-Receiver Sensitivity Degradation
53m
L25-Fiber Optic Link Design
54m
L26-Wavelength Division Multiplexed Systems
52m
L27-EDFA
52m
L28-Integrated Optics - I
53m
L29-Integrated Optics - II
53m
L30-Tutorials -I
1h 60 min
L31-Tutorials -II
56m
L32-Introduction to Non-Linear Fiber Optics
53m
L33-Non-linear Schrodinger Equation
53m
L34-Group Velocity Dispersion (GVD)
51m
L35-Self Phase Modulation (SPM)
53m
L36-Solitonic Communication
48m
L37-Raman Amplifier
48m
L38-Cross Phase Modulation and four wave mixing
51m
L39-Laboratory Experiments -I
51m
L40-Laboratory Experiments -II
1h 60 min
L41-Laboratory Experiments -III
50m

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