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A low-complexity distributed power allocation algorithm is proposed to reduce the interference and improve the transmitting rate of edge users.Different scenarios are considered and user experience of indoor communication is promoted.The simulation results prove the effectiveness of our algorithm.The proposed power control scheme ensures that more users can achieve their required rate and the fairness of different users is improved.Besides,more than 50% energy can be saved without loss in outage ability,and energy efficiency is also promoted.In addition,the proposed algorithm can be extended to scenarios that the required rates of pico stations can be changed periodically.
A low-complexity distributed power allocation algorithm is proposed to reduce the interference and improve the transmitting rate of edge users. Different arrangements are considered and user experience of indoor communication is promoted. The simulation results prove the effectiveness of our algorithm.The proposed power control scheme ensures that more users can achieve their required rate and the fairness of different users is improved .esides, more than 50% energy can be saved without loss in out ability, and energy efficiency is also promoted.In addition, the proposed algorithm can be extended to scenarios that the required rates of pico stations can be changed periodically.