Backlog-based random access in wireless networks: Fluid limits and instability issues

Javad Ghaderiy, Sem Borstz, Phil Whitingz
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引用次数: 9

Abstract

Backlog-based wireless access schemes are simple and inherently distributed, yet provide a striking capability to match the optimal throughput performance of centralized scheduling mechanisms in a wide range of scenarios. Unfortunately, the type of activation rules for which throughput optimality has been established, may result in excessive backlogs and delays. The use of more aggressive/persistent access schemes than these can improve the delay performance, but does not offer any universal maximum-stability guarantees. Motivated by the above issues, we use fluid limits to explore the (in)stability properties of backlog-based random-access algorithms. Such fluid limits have varying qualitative properties, dependent on the specific scenario, ranging from ones with smooth deterministic features, to others which exhibit random oscillatory characteristics. It turns out that more aggressive access schemes continue to provide maximum stability in some networks, e.g. complete interference graphs. As we show however, in other topologies such schemes can drive the system into inefficient states and thus cause instability. Simulation experiments are conducted to illustrate and validate the analytical results.
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无线网络中基于积压的随机访问:流体限制和不稳定性问题
基于积压的无线访问方案简单且本质上是分布式的,但在广泛的场景中提供了与集中式调度机制的最佳吞吐量性能相匹配的惊人能力。不幸的是,已为其建立吞吐量最优性的激活规则类型可能会导致过多的积压和延迟。使用比这些更积极/持久的访问方案可以提高延迟性能,但不能提供任何通用的最大稳定性保证。受上述问题的启发,我们使用流体限制来探索基于积压的随机访问算法的稳定性。根据具体情况,这些流体极限具有不同的定性性质,从具有光滑确定性特征的极限到具有随机振荡特征的极限。事实证明,在某些网络中,更激进的接入方案继续提供最大的稳定性,例如完全干扰图。然而,正如我们所展示的,在其他拓扑中,这样的方案可能会使系统进入低效状态,从而导致不稳定。仿真实验对分析结果进行了说明和验证。
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Keynote speaker Keynote speaker Ad-Hoc, Mobile, and Wireless Networks: 19th International Conference on Ad-Hoc Networks and Wireless, ADHOC-NOW 2020, Bari, Italy, October 19–21, 2020, Proceedings Retraction Note to: Mobility Aided Context-Aware Forwarding Approach for Destination-Less OppNets Ad-Hoc, Mobile, and Wireless Networks: 18th International Conference on Ad-Hoc Networks and Wireless, ADHOC-NOW 2019, Luxembourg, Luxembourg, October 1–3, 2019, Proceedings
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