Copa-D: Delay Consistent Copa for Dynamic Cellular Networks

公共管理高层论坛 Pub Date : 2023-06-06 DOI:10.1109/EuCNC/6GSummit58263.2023.10188233

H. Haile, Karl-Johan Grinnemo, Simone Ferlin Oliveira, Per Hurtig, A. Brunström

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Abstract

The lack of consideration for application delay requirements in standard loss-based congestion control algorithms (CCAs) has motivated the proposal of several alternative CCAs. Among these new CCAs, Copa is one of the promising few CCAs that have attracted attention from both academia and industry. The delay performance of Copa is governed by a mostly static latency-throughput tradeoff parameter, $\delta$. However, a static $\delta$ parameter makes it difficult for Copa to achieve consistent delay and throughput over a range of bottleneck bandwidths. In particular, the coexistence of 4G and 5G networks and the wide range of bandwidths experienced in NG-RANs can result in inconsistent CCA performance. To this end, we propose Copa-D, a modification to Copa that dynamically tunes $\delta$ to achieve a consistent delay performance. We evaluate the modification over fixed, 4G, and 5G emulated bottlenecks. Our results show that Copa-D achieves consistent delay with minimal impact on throughput in fixed capacity bottlenecks. Copa-D also allows a more intuitive way of specifying the latency-throughput tradeoff and achieves more accurate and predictable delay in variable cellular bottlenecks.

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Copa- d:动态蜂窝网络的延迟一致Copa

标准的基于丢失的拥塞控制算法(CCAs)缺乏对应用延迟需求的考虑，这促使了几种备选CCAs的提出。在这些新的共同承诺协议中，Copa是少数几个受到学术界和工业界关注的有前途的共同承诺协议之一。Copa的延迟性能主要由静态延迟-吞吐量权衡参数$\delta$控制。然而，静态的$\delta$参数使得Copa很难在一定的瓶颈带宽范围内实现一致的延迟和吞吐量。特别是，4G和5G网络共存以及ng - ran中的宽带宽范围可能导致CCA性能不一致。为此，我们提出Copa- d，它是Copa的一种修改，可以动态调整$\delta$以实现一致的延迟性能。我们对固定、4G和5G模拟瓶颈进行了评估。我们的结果表明，Copa-D在固定容量瓶颈中实现了一致的延迟，对吞吐量的影响最小。Copa-D还允许以更直观的方式指定延迟-吞吐量权衡，并在可变蜂窝瓶颈中实现更准确和可预测的延迟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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公共管理高层论坛

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