Title :
Choosing an Accurate Network Model using Domain Analysis
Author :
Konrad, Almudena ; Zhao, Ben Y. ; Joseph, Anthony D.
Abstract :
Network link simulation is perhaps the most common method for evaluating application and network protocol designs. In modeling realistic networks, researchers face measurements whose characteristics experience non-stationarity (time variability) and complex patterns due to a number of factors, including both internal network elements and external events. In this paper we introduce a methodology we call domain analysis to quantify the accuracy of different models, and show how to use it to choose the best model for a given set of network characteristics. Our work seeks to aid network and application protocol developers in developing and choosing appropriate models for network simulation. We introduce our data preconditioning methodology for modelling non-stationary datasets, and present the new multiple states MTA model (MMTA). We show that it is better in capturing error burst statistics than classical models and more consistently accurate across different networks that our previous MTA model
Keywords :
error statistics; telecommunication links; telecommunication network planning; transport protocols; application protocol developers; data preconditioning method; domain analysis; multiple states MTA model; network link simulation; network protocol designs; network protocol developers; nonstationary dataset modelling; Automatic repeat request; Data mining; Data visualization; Digital audio players; Educational institutions; Error correction; Hidden Markov models; Milling machines; Protocols; Time measurement;
Conference_Titel :
Parallel and Distributed Systems, 2005. Proceedings. 11th International Conference on
Conference_Location :
Fukuoka
Print_ISBN :
0-7695-2281-5
DOI :
10.1109/ICPADS.2005.301
