Paper Info
Title
A contribution to modeling sensor communication networks by using finite-source queueing systems
Abstract
In this paper we introduce a finite source retrial queueing model to investigate the performance characteristics of the wireless transmission problem in sensor networks. We divide the sensors into two classes. The first one is the “Emergency” class, which performs the notification of special emergency situations (eg. fire alarms). The second one is the “Normal” class, which measures and transmits environmental data (eg. temperature). For the performance evaluation of the wireless transmission we study and compare two cases: In the first model the RF transmission possibility will be available randomly for the sensor nodes (Non Controlled case) and in the second model the RF transmission requests coming from the emergency class, will access the wireless channel immediately (Controlled case). Our main interest is to give the main steady-state performance measures of the system computed by the help of the MOSEL tool.
Year
DOI
Venue
2013
10.1109/SACI.2013.6608944
Applied Computational Intelligence and Informatics
Keywords
Field
DocType
performance evaluation,queueing theory,radio transmitters,radiotelemetry,wireless channels,wireless sensor networks,MOSEL tool,RF transmission,emergency class situation,environmental data transmission,finite source retrial queueing model,fire alarm,steady-state performance evaluation,wireless channel,wireless sensor network,wireless transmission problem
Radio resource management,Key distribution in wireless sensor networks,Wireless network,Computer science,Computer network,Stochastic geometry models of wireless networks,Mobile wireless sensor network,Wi-Fi array,Wireless sensor network,Cognitive radio
Conference
ISBN
Citations 
PageRank 
978-1-4673-6397-6
1
0.43
References 
Authors
3
4
Name
Order
Citations
PageRank
Tamás Bérczes142.58
B. Almási221.80
J. Sztrik3167.18
Attila Kuki411.11