D2D辅助的窄带物联网中能耗和传输成功率的最优折中

The Optimal Tradeoff between Energy Consumption and Transmission Success Probability in D2D Assisted Narrow Band-Internet of Things

在设备到设备(D2D)通信辅助的窄带物联网(NB-IoT)中,为了尽可能提高传输成功率,D2D接收端需要预留较多的通信时隙(可以允许多次重传)。然而,这显著地增加了用户设备(UE)的能耗,特别是在信道条件较差或者相邻D2D链路干扰较严重的情况下。该文基于中继和能耗模型构造了一个传输成功率和能耗折中的优化问题,进而提出一个基于二分法的通信时隙最优配置算法。数值结果表明较多的预留时隙数量极大地增加了UE的能耗,但是不会显著提高传输成功率,与多中继传输、随机中继传输和100%成功传输等其他算法相比,该文提出的预留时隙最优配置算法获得了最小的能耗和几乎最大的传输成功率(只比100%成功传输方案低)。

In the Device-to-Device(D2D)communication assisted Narrow Band Internet of Things(NB-IoT),in order to maximize the transmission success probability,the D2D relay device needs to reserve more communication time slots(multiple retransmissions can be allowed to increase the transmission success probability).However,this increases significantly the power consumption of the User Equipment(UE),especially in the case of poor channel conditions or severe interference.An optimization problem based on the relay and energy consumption models is constructed to seek a compromise between transmission success probability and energy consumption,and a communication slot optimal configuration algorithm based on dichotomy is proposed in this paper.The numerical results show that the larger number of reserved time slots can lead to an excessive increase in energy consumption without significantly increasing the transmission success probability.Compared with other algorithms such as multi-relay transmission,random relay transmission and 100%successful transmission,the proposed reserved time slot optimal configuration algorithm can obtain the least energy consumption and almost the highest transmission success probability(it is only lower than that under 100%successful transmission scheme).