Curriculum
8 Sections
56 Lessons
10 Weeks
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Chapter 1: Fundamentals of Line Coding and Digital Modulation
6
1.1
1.1 Introduction to Line Coding
1.2
1.2 Digital Modulation Fundamentals
1.3
1.3 Shannon’s Theorem and Theoretical Limits
1.4
1.4 Optical Channel Characteristics
1.5
Assessment
1.6
Summary
Chapter 2: NRZ vs RZ Format Trade-offs
8
2.1
2.1 Non-Return-to-Zero (NRZ) Format
2.2
2.2 Return-to-Zero (RZ) Format
2.3
2.3 Comprehensive Comparison: NRZ vs RZ
2.4
2.4 Advanced RZ Variants
2.5
2.5 System Design Considerations
2.6
2.6 Application-Specific Considerations
2.7
Assessment
2.8
Summary
Chapter 3: Advanced Modulation Techniques
6
3.1
3.1 Differential Phase Shift Keying (DPSK)
3.2
3.2 Differential Quadrature Phase Shift Keying (DQPSK)
3.3
3.3 Quadrature Amplitude Modulation (QAM)
3.4
3.4 Advanced QAM Variants and Optimization
3.5
Assessment
3.6
Summary
Chapter 4:Advanced Line Coding Techniques
7
4.1
4.1 Multilevel Line Coding
4.2
4.2 Differential Encoding
4.3
4.3 Advanced Scrambling Techniques
4.4
4.4 Optical Line Coding
4.5
4.5 Error Performance Analysis
4.6
4.6 Practical Implementation Considerations
4.7
Assessment
Chapter 5: Digital Modulation Fundamentals
8
5.1
5.1 Signal Space and Constellation Diagrams
5.2
5.2 Amplitude Shift Keying (ASK)
5.3
5.3 Frequency Shift Keying (FSK)
5.4
5.4 Phase Shift Keying (PSK)
5.5
5.5 Quadrature Amplitude Modulation (QAM)
5.6
5.6 Performance Analysis and Comparison
5.7
5.7 Advanced Modulation Techniques
5.8
Assessment
Chapter 6: Advanced Modulation Schemes
7
6.1
6.1 Orthogonal Frequency Division Multiplexing (OFDM)
6.2
6.2 Multiple-Input Multiple-Output (MIMO) Systems
6.3
6.3 Advanced Coding and Modulation
6.4
6.4 AI-Enhanced Modulation
6.5
6.5 Millimeter Wave and Terahertz Modulation
6.6
6.6 Optical Advanced Modulation
6.7
Assessment
Chapter 7: Performance Analysis and Optimization
7
7.1
7.1 Bit Error Rate Analysis
7.2
7.2 Channel Capacity and Spectral Efficiency
7.3
7.3 Power and Bandwidth Efficiency Trade-offs
7.4
7.4 System Optimization Techniques
7.5
7.5 Practical Implementation Considerations
7.6
7.6 Performance Measurement and Testing
7.7
Assessment
Chapter 8: Future Trends and Emerging Technologies
7
8.1
8.1 6G Wireless Technologies
8.2
8.2 Quantum Communications
8.3
8.3 AI-Native Communication Systems
8.4
8.4 Sustainable and Green Communications
8.5
8.5 Technology Roadmap and Timeline
8.6
8.6 Emerging Application Domains
8.7
Assessment
Line Coding and Modulation Formats :Comprehensive Course on Digital Communication Systems
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