Publication detail

Performance Analysis of IMS Network: The Analytical Solution of Signalling over IMS Core Elements.

NAGY, Ľ. URAMOVÁ, J.

Original Title

Performance Analysis of IMS Network: The Analytical Solution of Signalling over IMS Core Elements.

English Title

Performance Analysis of IMS Network: The Analytical Solution of Signalling over IMS Core Elements.

Type

conference paper

Language

en

Original Abstract

The IP Multimedia Subsystem (IMS), sometimes called as IP Multimedia Core Network Subsystem, is consid-ered a solution to convergence of mobile and fixed technolo-gies. This Next Generation Network (NGN) architecture is also a part of Evolved Packet Core (EPC) standards. The primary goals of this article are a design of an analytical model for signalling over IMS network and investigate the relationships between main performance parameters and behaviour of IMS core network elements. There are the various modelling techniques of mathematical description of whole network or network elements. In the case of this paper, the queueing theory is used to describe and represent whole IMS core architecture included CSCFs (two P-CSCFs, S-CSCF, I-CSCF) and HSS nodes. The paper briefly presents the IMS network, a designed mathematical model of queueing network and then the graphical results of mathematical network model, mainly the performance parameters such as a utilization etc. Finally, the most important results are evaluated at the end of this article.

English abstract

The IP Multimedia Subsystem (IMS), sometimes called as IP Multimedia Core Network Subsystem, is consid-ered a solution to convergence of mobile and fixed technolo-gies. This Next Generation Network (NGN) architecture is also a part of Evolved Packet Core (EPC) standards. The primary goals of this article are a design of an analytical model for signalling over IMS network and investigate the relationships between main performance parameters and behaviour of IMS core network elements. There are the various modelling techniques of mathematical description of whole network or network elements. In the case of this paper, the queueing theory is used to describe and represent whole IMS core architecture included CSCFs (two P-CSCFs, S-CSCF, I-CSCF) and HSS nodes. The paper briefly presents the IMS network, a designed mathematical model of queueing network and then the graphical results of mathematical network model, mainly the performance parameters such as a utilization etc. Finally, the most important results are evaluated at the end of this article.

Keywords

IP Multimedia Subsystem, Queueing networks, Video on Demand, Voice over IP, File transfer, Presence services.

RIV year

2012

Released

20.11.2012

Publisher

Lviv Polytechnic National University

Location

Lviv, Ukraine.

ISBN

978-617-607-352-9

Book

Proceedings of the VIIth International Scientific and Technical Conference - CSIT 2012.

Pages from

113

Pages to

116

Pages count

4

Documents

BibTex


@inproceedings{BUT96604,
  author="Ľuboš {Nagy} and Jana {Uramová}",
  title="Performance Analysis of IMS Network: The Analytical Solution of Signalling over IMS Core Elements.",
  annote="The IP Multimedia Subsystem (IMS), sometimes called as IP Multimedia Core Network Subsystem, is consid-ered a solution to convergence of mobile and fixed technolo-gies. This Next Generation Network (NGN) architecture is also a part of Evolved Packet Core (EPC) standards. The primary goals of this article are a design of an analytical model for signalling over IMS network and investigate the relationships between main performance parameters and behaviour of IMS core network elements. There are the various modelling techniques of mathematical description of whole network or network elements. In the case of this paper, the queueing theory is used to describe and represent whole IMS core architecture included CSCFs (two P-CSCFs, S-CSCF, I-CSCF) and HSS nodes. The paper briefly presents the IMS network, a designed mathematical model of queueing network and then the graphical results of mathematical network model, mainly the performance parameters such as a utilization etc. Finally, the most important results are evaluated at the end of this article.",
  address="Lviv Polytechnic National University",
  booktitle="Proceedings of the VIIth International Scientific and Technical Conference - CSIT 2012.",
  chapter="96604",
  howpublished="print",
  institution="Lviv Polytechnic National University",
  year="2012",
  month="november",
  pages="113--116",
  publisher="Lviv Polytechnic National University",
  type="conference paper"
}