Jiajia Liu, Hiroki Nishiyama, N. Kato, T. Kumagai, A. Takahara
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引用次数: 0
摘要
在过去的十年中,移动设备的数量和消费者对移动数据通信的需求都有了巨大的增长。自组织移动网络作为一种通用的网络架构,有望在许多有前景的应用场景中卸载大量的移动流量。然而,如何在交付性能(如交付延迟和交付概率)和网络资源消耗(如电力能量和缓冲区存储)之间取得良好的平衡仍然是一个极具挑战性的问题。在本文中,我们专注于一般k-hop中继路由,涵盖了很多受欢迎的路由方案作为特殊情况,如直接传输(k = 1),两跳中继算法(k = 2),和流行路由(k = n - 1)。我们第一次开发吸收连续时间马尔可夫链模型来描述下的复杂的消息传递过程一般k-hop中继路由,然后进行马尔可夫链的分析得出上述所有重要的性能指标。最后,给出了广泛的数值结果,以说明在一般k-hop中继下可实现的传输性能以及可能的性能权衡。
Modeling ad hoc mobile networks: The general k-hop relay routing
In the last decade, there has been a tremendous increase in both the number of mobile devices and the consumer demand for mobile data communication. As a general network architecture, ad hoc mobile networks are expected to offload a large amount of mobile traffic in lots of promising application scenarios. However, how to achieve a good balance between delivery performances (like delivery delay and delivery probability) and network resource consumptions (like power energy and buffer storage) remains an extremely challenging problem. In this paper, we focus on the general k-hop relay routing, which covers a lot of popular routing schemes as special cases, such as the direct transmission (k = 1), the two-hop relay algorithm (k = 2), and the epidemic routing (k = n - 1). We first develop absorbing continuous-time Markov chain models to characterize the complicated message delivery process under the general k-hop relay routing, and then conduct Markovian analysis to derive all the above important performance metrics. Finally, extensive numerical results are presented to illustrate the achievable delivery performances under the general k-hop relay and the possible performance trade-offs there.
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