Distributed Power Control Method for D2D Communication with Energy Efficiency Optimization

This invention relates to the field of D2D communication, particularly focusing on a distributed power control method for D2D communication systems. The technical solution adopted to address the technical problem is: an energy-efficiency-optimized distributed power control method for D2D communication, where the control method includes the following implementation steps. The algorithm typically employs iterative optimization techniques that can be implemented using mathematical programming approaches in software frameworks. The beneficial effects of this invention are mainly demonstrated in: improving the energy efficiency of D2D communication, reducing energy consumption, and optimizing communication quality and network capacity. This method provides high-quality communication while simultaneously reducing power consumption and extending device battery life. The implementation involves distributed control mechanisms that utilize local information exchange between D2D pairs, making it suitable for large-scale D2D communication scenarios. This approach enhances system stability and reliability through autonomous power adjustment algorithms that adapt to changing network conditions. Therefore, this invention has broad application prospects and economic benefits in the D2D communication field, with potential implementations using optimization libraries and distributed computing frameworks for real-time power management.