Advanced Optical Communications: High-Order Modulation, Constellation Design, and Digital Signal Processing
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Curriculum
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Learning Objectives
- Understand the basic principles of optical fiber communication systems
- Analyze the fundamental limitations in optical transmission
- Explain the role of digital signal processing in modern optical systems
- Identify key performance metrics and system parameters
- Evaluate the impact of fiber nonlinearity on transmission performance
Curriculum
- 6 Sections
- 53 Lessons
- 10 Weeks
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- Chapter 1 Fundamentals of Optical Fiber Communication8
- Chapter 2 Fiber Nonlinearity and Impairment Analysis8
- Chapter 3 Digital Signal Processing for Nonlinearity Compensation9
- 3.13.1 Principles of Digital Backpropagation
- 3.23.2 Split-Step Fourier Method
- 3.33.3 Performance Gains Analysis
- 3.43.4 Multi-Channel Digital Backpropagation
- 3.53.5 Advanced Compensation Techniques
- 3.63.6 Practical Design Considerations
- 3.7Chapter Summary
- 3.8Knowledge Check Questions
- 3.9References and Further Reading
- Chapter 4 Advanced Modulation Formats and Constellation Design9
- Chapter 5 Coded Modulation and Information Theory9
- Chapter 6 System Optimization and Future Directions10
- 6.16.1 Machine Learning in Optical Communications
- 6.26.2 Space-Division Multiplexing
- 6.36.3 Quantum Communication Technologies
- 6.46.4 Advanced System Optimization
- 6.56.5 Future Technology Roadmap
- 6.66.6 Sustainability and Green Photonics
- 6.76.7 Industry and Standardization
- 6.8Course Summary
- 6.9Final Assessment Questions
- 6.10References and Further Reading
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