Perceived Performance of Top Retail Webpages In the Wild

Comput. Commun. Rev. Pub Date : 2017-10-25 DOI:10.1145/3155055.3155062

Qingzhu Gao, Prasenjit Dey, P. Ahammad

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引用次数: 10

Abstract

Clearly, no one likes webpages with poor quality of experience (QoE). Being perceived as slow or fast is a key element in the overall perceived QoE of web applications. While extensive effort has been put into optimizing web applications (both in industry and academia), not a lot of work exists in characterizing what aspects of webpage loading process truly influence human end-user's perception of the \emph{Speed} of a page. In this paper we present \emph{SpeedPerception}, a large-scale web performance crowdsourcing framework focused on understanding the perceived loading performance of above-the-fold (ATF) webpage content. Our end goal is to create free open-source benchmarking datasets to advance the systematic analysis of how humans perceive webpage loading process. In Phase-1 of our \emph{SpeedPerception} study using Internet Retailer Top 500 (IR 500) websites, we found that commonly used navigation metrics such as \emph{onLoad} and \emph{Time To First Byte (TTFB)} fail (less than 60\% match) to represent majority human perception when comparing the speed of two webpages. We present a simple 3-variable-based machine learning model that explains the majority end-user choices better (with $87 \pm 2\%$ accuracy). In addition, our results suggest that the time needed by end-users to evaluate relative perceived speed of webpage is far less than the time of its \emph{visualComplete} event.

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在野外顶级零售网页的感知性能

显然，没有人喜欢低质量体验(QoE)的网页。被感知为慢或快是web应用程序整体感知QoE的关键因素。虽然在优化web应用程序方面已经投入了大量的努力(无论是在工业界还是学术界)，但在描述网页加载过程的哪些方面真正影响人类最终用户对页面\emph{速度}的感知方面并没有很多工作。在本文中，我们提出了\emph{SpeedPerception}，这是一个大规模的web性能众包框架，专注于理解折叠上(ATF)网页内容的感知加载性能。我们的最终目标是创建免费的开源基准数据集，以推进人类如何感知网页加载过程的系统分析。在我们使用互联网零售商500强(IR 500)网站进行的\emph{速度感知}研究的第一阶段，我们发现，在比较两个网页的速度时，常用的导航指标，如\emph{onLoad}和\emph{Time To First Byte (TTFB)}无法代表大多数人的感知(匹配率低于60％)。我们提出了一个简单的基于3变量的机器学习模型，可以更好地解释大多数最终用户的选择(准确度为$87 \pm 2\%$)。此外，我们的结果表明，最终用户评估网页的相对感知速度所需的时间远远少于其\emph{visualComplete}事件的时间。

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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Comput. Commun. Rev.

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