On Machine Learning Based Video QoE Estimation Across Different Networks

2021 16th International Conference on Telecommunications (ConTEL) Pub Date : 2021-06-30 DOI:10.23919/ConTEL52528.2021.9495971

Irena Orsolic, Michael Seufert

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引用次数: 5

Abstract

With Over-The-Top traffic being extensively encrypted end-to-end, network operators typically lack insight into the performance of these services, as perceived by the end users. Yet, such an insight is essential for employing QoE-aware network management and potential alleviation of problems that may originate in the network. There is a clear interest from network operators to find ways to estimate service performance in terms of Key Performance Indicators (KPIs) and Quality of Experience (QoE). Over the last years, machine-learning–based (ML) models have proven to be capable of inferring QoE/KPIs from patterns in encrypted network traffic. The particular focus has mostly been on adaptive video streaming services, considering their share of the global network traffic. Those ML–based models have typically been trained and tested on a single dataset collected under specific conditions only. Going beyond related work on the topic of QoE/KPI estimation, we collected two large datasets related to YouTube streaming using the same setup at two different locations in Europe and analyzed the extent to which the differences in network characteristics and location specifics influence the performance of such models. This is of interest, as applicability of the models across diverse networks would significantly reduce the needed extensiveness of data collection typically required for ML–based approaches. In this paper, we compare models trained and tested on a single dataset/location (network-specific), models trained on the merged dataset (general), and models trained on one dataset and tested on the other dataset (cross-tested). The results show that the performance of general models is comparable to that of network-specific models, but cross-tests exhibit a considerable reduction in performance. With the aim to understand and improve cross-network applicability of the models in the future, the paper also provides an investigation of underlying reasons for the performance degradation.

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基于机器学习的不同网络视频QoE估计

由于over - top流量被广泛地端到端加密，网络运营商通常缺乏对这些服务性能的洞察力，正如最终用户所感知的那样。然而，这种洞察力对于采用qos感知网络管理和潜在的缓解可能源于网络的问题是必不可少的。网络运营商显然有兴趣找到根据关键绩效指标(kpi)和体验质量(QoE)来评估服务绩效的方法。在过去几年中，基于机器学习(ML)的模型已被证明能够从加密网络流量中的模式推断QoE/ kpi。考虑到视频流服务在全球网络流量中所占的份额，特别关注的焦点主要集中在自适应视频流服务上。这些基于ml的模型通常只在特定条件下收集的单个数据集上进行训练和测试。除了QoE/KPI估计主题的相关工作之外，我们在欧洲的两个不同地点使用相同的设置收集了两个与YouTube流媒体相关的大型数据集，并分析了网络特征和位置细节的差异对此类模型性能的影响程度。这很有趣，因为模型跨不同网络的适用性将显著减少基于ml的方法通常所需的数据收集的广泛性。在本文中，我们比较了在单个数据集/位置(特定于网络)上训练和测试的模型，在合并数据集上训练的模型(一般)，以及在一个数据集上训练并在另一个数据集上测试的模型(交叉测试)。结果表明，一般模型的性能与特定网络模型的性能相当，但交叉测试显示性能有相当大的降低。为了理解和提高模型在未来的跨网络适用性，本文还对性能下降的潜在原因进行了调查。

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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2021 16th International Conference on Telecommunications (ConTEL)

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