Game Theory / Computational Complexity / Resource Allocation / Wireless networks / Energy efficiency / Wireless Network / Power Control / Resource Management / Nash Equilibrium / Energy Use / Interference / Energy efficient / Energy Efficiency / Signal to Noise Ratio / Electrical And Electronic Engineering / SINR / Transmit Power Control / Wireless Network / Power Control / Resource Management / Nash Equilibrium / Energy Use / Interference / Energy efficient / Energy Efficiency / Signal to Noise Ratio / Electrical And Electronic Engineering / SINR / Transmit Power Control
Game Theory / Computational Complexity / Resource Allocation / Wireless networks / Energy efficiency / Wireless Network / Power Control / Resource Management / Nash Equilibrium / Energy Use / Interference / Energy efficient / Energy Efficiency / Signal to Noise Ratio / Electrical And Electronic Engineering / SINR / Transmit Power Control / Wireless Network / Power Control / Resource Management / Nash Equilibrium / Energy Use / Interference / Energy efficient / Energy Efficiency / Signal to Noise Ratio / Electrical And Electronic Engineering / SINR / Transmit Power Control