The optimal backoff window size and contention window size are given, and the transmission efficiency is calculated by analyzing the collision probability of contention request.
通过对竞争请求的冲突概率进行分析,推出了回退窗口和竞争窗口的最佳分配尺寸,并计算了不同业务流数量下系统可达到的最大传输效率。
According to the concrete conditions of the collision node, it carries on rational adjustment to the size of contention window.
根据发生冲突节点的具体情况,对竞争窗口大小进行合理的调整。
The dependencies of all suggested measures for charge fluctuation on the size of rapidity window are compared by using the hadronic and nuclear collision models—PYTHIA and RQMD.
利用强子-强子碰撞的模型PYTHIA以及核-核碰撞的模型RQMD比较了各种电荷起伏测量量的快度依赖性,结果发现,这些测量量对快度的依赖性依赖于模型。
The simulation results indicate that it can effectively reduce the collision probability and improve the transmission efficiency and bandwidth utility efficiency to use these window sizes.
计算机仿真表明以此尺寸进行分配,可有效减小请求冲突,提高系统的传输效率和带宽使用效率。
The simulation results indicate that it can effectively reduce the collision probability and improve the transmission efficiency and bandwidth utility efficiency to use these window sizes.
计算机仿真表明以此尺寸进行分配,可有效减小请求冲突,提高系统的传输效率和带宽使用效率。
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