Evaluating predictors of congestion collapse in communication networks

NOMS 2018 - 2018 IEEE/IFIP Network Operations and Management Symposium Pub Date : 2018-04-23 DOI:10.1109/NOMS.2018.8406225

Christopher E. Dabrowski, K. Mills

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Abstract

Congestion in communication networks can be modeled as a percolation process, where congestion spreads minimally before a critical load and expands rapidly afterwards. Some studies identify predict onset of rapidly expanding congestion in time to alert network managers to take mitigating actions to avoid congestion collapse. The paper specifies five predictors: autocorrelation, variance, threshold, growth persistence, and growth rate. Predictor performance is measured for three simulated network models, under two traffic scenarios: increasing and steady load. Predictors are compared on implementation cost, accuracy, warning time, and persistence. The rates and types of prediction errors are also characterized. Results showed that: (1) predictor performance is influenced by network-model realism; (2) the autocorrelation and variance predictors performed poorly in some situations; (3) the threshold predictor yielded best overall accuracy, with mean warning time exceeding seven minutes for the most realistic network model. The paper also suggests a necessary condition to control false positives.

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评估通信网络中拥塞崩溃的预测因子

通信网络中的拥塞可以建模为一个渗透过程，其中拥塞在临界负载之前传播最小，然后迅速扩展。一些研究及时确定了预测迅速扩大的拥塞的开始，以提醒网络管理人员采取缓解措施以避免拥塞崩溃。本文指定了五个预测指标:自相关、方差、阈值、增长持续性和增长率。在负载增长和稳定两种情况下，对三种模拟网络模型的预测器性能进行了测试。在实现成本、准确性、警告时间和持久性方面对预测器进行比较。预测误差的比率和类型也被描述。结果表明:(1)网络模型真实性对预测器的性能有显著影响;(2)自相关和方差预测因子在某些情况下表现较差;(3)阈值预测器的总体准确率最好，对于最现实的网络模型，平均预警时间超过7分钟。文中还提出了控制误报的必要条件。

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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NOMS 2018 - 2018 IEEE/IFIP Network Operations and Management Symposium

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