optimising full-duplex led-to-led communication system for power efficiency

1. Introduction 1.1 Background and Motivation 1.2 Research Objectives 1.3 Scope of the Study 1.4 Methodology Overview 2. Fundamentals of LED Communication 2.1 Basics of LED Technology 2.2 Principles of Full-Duplex Communication 2.3 Importance of Power Efficiency 3. Literature Review 3.1 Recent Advances in LED Communication 3.2 Full-Duplex Systems in Current Research 3.3 Power Efficiency in Communication Systems 4. System Architecture 4.1 Design of the LED System 4.2 Transmitter and Receiver Integration 4.3 Signal Processing Techniques 5. Power Efficiency Optimization 5.1 Identifying Energy Drains 5.2 Strategies for Energy Reduction 5.3 Algorithm Development for Efficiency 6. Experimental Setup and Methodology 6.1 Lab Equipment and Tools 6.2 Data Collection Procedures 6.3 Variables and Control Measures 7. Results and Discussion 7.1 Analysis of Experimental Data 7.2 Comparison with Existing Systems 7.3 Implications for Power Efficiency 8. Conclusion and Future Work 8.1 Summary of Findings 8.2 Contributions to the Field 8.3 Recommendations for Further Research

1. How can algorithmic strategies be developed to enhance power efficiency in full-duplex LED-to-LED communication systems without compromising communication quality? 2. What are the most significant energy drains in current full-duplex LED-to-LED communication systems, and what targeted strategies can be employed to minimize these drains while maintaining system performance?