Understanding the object retrieval dependence of Web page access

Proceedings. 10th IEEE International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunications Systems Pub Date : 2002-10-11 DOI:10.1109/MASCOT.2002.1167102

Chi-Hung Chi, Xiang Li, Kwok-Yan Lam

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引用次数: 5

Abstract

We propose a chunk-level client's latency dependence model (C-LDM) to describe the effect of network protocol, streaming data transfer mechanism, and Web page structure on the latency perceived by a Web client. Object retrieval latency is made up of four components: (i) definition - finding the definition of embedded objects in a page; (ii) queuing - waiting for object request dissemination into the network once its existence is defined; (iii) connection - setting up a network connection for data transfer; (iv) chunk transfer - transferring actual data from server to client once the connection is setup. We show that for typical network connectivity, a user's perceived page latency is mainly due to the definition and queuing of embedded object requests inside a Web page, which are related to the content structure of a Web page and the parallelism width of the browser for object fetching. Such understanding is important because it opens opportunities to improve the retrieval speed of Web surfing through the minimization of data chunk dependence.

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理解Web页面访问的对象检索依赖关系

我们提出了一个块级客户端的延迟依赖模型(C-LDM)来描述网络协议、流数据传输机制和网页结构对Web客户端感知到的延迟的影响。对象检索延迟由四个部分组成:(i)定义-查找页面中嵌入对象的定义;(ii)排队——一旦对象的存在被定义，等待对象请求传播到网络中;(iii)连接-建立网络连接以传送数据;(iv)块传输-一旦连接建立，将实际数据从服务器传输到客户端。我们表明，对于典型的网络连接，用户感知到的页面延迟主要是由于Web页面内嵌入对象请求的定义和排队，这与Web页面的内容结构和浏览器用于对象获取的并行度宽度有关。这种理解很重要，因为它为通过最小化数据块依赖性来提高Web冲浪的检索速度提供了机会。

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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Proceedings. 10th IEEE International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunications Systems

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