如何根据无线环境的变化实时选择一个可靠的发送速率,进而保证数据传输的可靠性是无线通信研究的热点。针对传统累积和平均法(Cumulative Sum Average,CUSUMA)由于计算机存储数据位数的有限性可能导致的数据值超过计算机最大数据类型表...如何根据无线环境的变化实时选择一个可靠的发送速率,进而保证数据传输的可靠性是无线通信研究的热点。针对传统累积和平均法(Cumulative Sum Average,CUSUMA)由于计算机存储数据位数的有限性可能导致的数据值超过计算机最大数据类型表示范围,进而造成统计数据丢失的问题,提出基于指数加权移动平均(Exponentially Weighted Moving Average,EWMA)算法,计算对应速率下的数据发送成功率,并根据计算出的成功率实现动态速率选择。该算法可用于解决通用平均值算法导致的因数据过大造成的统计数据丢失问题。展开更多
Cognitive radio and cooperative communication can greatly improve the spectrum efficiency in wireless communications.We study a cognitive radio network where two secondary source terminals exchange their information w...Cognitive radio and cooperative communication can greatly improve the spectrum efficiency in wireless communications.We study a cognitive radio network where two secondary source terminals exchange their information with the assistance of a relay node under interference power constraints.In order to enhance the transmit rate and maintain fairness between two source terminals,a practical 2-phase analog network coding protocol is adopted and its optimal power allocation algorithm is proposed.Numerical results verify the superiority of the proposed algorithm over the conventional direct transmission protocol and 4-phase amplify-and-forward relay protocol.展开更多
基金Acknowledgements The work was supported by National Natural Science Foundation of China (Grant No.60972008). The corresponding author is Jiang Wei.
文摘Cognitive radio and cooperative communication can greatly improve the spectrum efficiency in wireless communications.We study a cognitive radio network where two secondary source terminals exchange their information with the assistance of a relay node under interference power constraints.In order to enhance the transmit rate and maintain fairness between two source terminals,a practical 2-phase analog network coding protocol is adopted and its optimal power allocation algorithm is proposed.Numerical results verify the superiority of the proposed algorithm over the conventional direct transmission protocol and 4-phase amplify-and-forward relay protocol.