Software as a Service allows end users to use complex soft- ware directly from their browsers, transferring heavy computation to servers in the cloud. One use of this paradigm is word processing, former a classic use cases of Thin-Client computing. Similar to Thin-Client systems, the network parameters are an important influence factor for the cloud application performance.
In this paper, we study Google Docs as an example for online word processing tools. We consider a traditional single user scenario as well as a collaborative scenario with two users working on one document simultaneously. We identify multiple relevant sub-processes per scenario as performance metrics and use a testbed to automatically evaluate the performance of Google Docs under varying network parameters. The main contributions of the paper are (1) the quantification of the impact of network parameters such as delay and packet loss on application performance metrics for both scenarios and (2) linear regression models to derive the application performance for giving network parameters.
%0 Conference Paper
%1 info3-inproceedings-2015-522
%A Dinh-Xuan, Lam
%A Schwartz, Christian
%A Hirth, Matthias
%A Wamser, Florian
%A Truong Thu, Huong
%B 7th International Conference on Mobile Networks and Management
%C Santander, Spain
%D 2015
%K myown qoedz can
%T Analyzing the Impact of Delay and Packet Loss on Google Docs
%X Software as a Service allows end users to use complex soft- ware directly from their browsers, transferring heavy computation to servers in the cloud. One use of this paradigm is word processing, former a classic use cases of Thin-Client computing. Similar to Thin-Client systems, the network parameters are an important influence factor for the cloud application performance.
In this paper, we study Google Docs as an example for online word processing tools. We consider a traditional single user scenario as well as a collaborative scenario with two users working on one document simultaneously. We identify multiple relevant sub-processes per scenario as performance metrics and use a testbed to automatically evaluate the performance of Google Docs under varying network parameters. The main contributions of the paper are (1) the quantification of the impact of network parameters such as delay and packet loss on application performance metrics for both scenarios and (2) linear regression models to derive the application performance for giving network parameters.
@inproceedings{info3-inproceedings-2015-522,
abstract = {Software as a Service allows end users to use complex soft- ware directly from their browsers, transferring heavy computation to servers in the cloud. One use of this paradigm is word processing, former a classic use cases of Thin-Client computing. Similar to Thin-Client systems, the network parameters are an important influence factor for the cloud application performance.
In this paper, we study Google Docs as an example for online word processing tools. We consider a traditional single user scenario as well as a collaborative scenario with two users working on one document simultaneously. We identify multiple relevant sub-processes per scenario as performance metrics and use a testbed to automatically evaluate the performance of Google Docs under varying network parameters. The main contributions of the paper are (1) the quantification of the impact of network parameters such as delay and packet loss on application performance metrics for both scenarios and (2) linear regression models to derive the application performance for giving network parameters.},
added-at = {2016-03-10T17:38:35.000+0100},
address = {Santander, Spain},
author = {Dinh-Xuan, Lam and Schwartz, Christian and Hirth, Matthias and Wamser, Florian and Truong Thu, Huong},
biburl = {https://www.bibsonomy.org/bibtex/21d9b68d08fdcd8d36c3c835817cb428d/uniwue_info3},
booktitle = {7th International Conference on Mobile Networks and Management},
interhash = {c0540315949f06db384f2582c7eedab4},
intrahash = {1d9b68d08fdcd8d36c3c835817cb428d},
keywords = {myown qoedz can},
month = {9},
timestamp = {2022-03-14T00:11:10.000+0100},
title = {Analyzing the Impact of Delay and Packet Loss on Google Docs},
year = 2015
}