The classic use case for queuing is to buffer messages when they are produced faster than they are consumed.
当生成消息的速度大于使用消息的速度时,队列技术的经典用例是缓存消息。
This character results in increase of packet lost rate and queuing delay of buffer system.
这种特性会导致分组丢失率增大和缓存系统排队延时的增加。
To determine the thresholds of the occupied buffer level, two queuing models with different arrivals are established.
通过分析两种到达情况的排队模型,给出了缓冲区门限的选取原则。
In several buffer allocation schemes, the analysis of self-similarity on performance of queuing systems provides evidence for the dynamic buffer allocation.
在几种缓冲区分配方案中,分析自相似程度对排队系统性能的影响,为进行缓冲区的动态分配提供依据。
The queuing characteristics of the MIMO-AMC systems under the conditions of unsaturated traffic and finite-length buffer are investigated.
分析在业务随机到达以及链路层缓冲区长度有限的条件下,MIMO-AMC系统的分组排队特性。
The queuing characteristics of the MIMO-AMC systems under the conditions of unsaturated traffic and finite-length buffer are investigated.
分析在业务随机到达以及链路层缓冲区长度有限的条件下,MIMO-AMC系统的分组排队特性。
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