Publication detail

Data-Rate and Queuing Method Optimization for Internetworking Medical Applications

HOŠEK, J. MOLNÁR, K. DOLEŽEL, R. DOSTÁL, O. RŮČKA, L.

Original Title

Data-Rate and Queuing Method Optimization for Internetworking Medical Applications

English Title

Data-Rate and Queuing Method Optimization for Internetworking Medical Applications

Type

book chapter

Language

en

Original Abstract

The aim of our work, presented in this article, was to find an optimal solution to transfer large volumes of image date over low-capacity links with regarding to minimum response-times. First we statistically described the traffic generated by the corresponding medical equipment and then evaluated the behaviour of these mathematical models in the OPNET Modeler discrete event simulation environment. The simulation results and their interpretation represent the main contribution of the following text.

English abstract

The aim of our work, presented in this article, was to find an optimal solution to transfer large volumes of image date over low-capacity links with regarding to minimum response-times. First we statistically described the traffic generated by the corresponding medical equipment and then evaluated the behaviour of these mathematical models in the OPNET Modeler discrete event simulation environment. The simulation results and their interpretation represent the main contribution of the following text.

Keywords

Computer Rentgen, Computer Tomograph, medical image processing, OPNET Modeler, transmission capacity, WFQ

RIV year

2011

Released

07.06.2011

Publisher

Springer

ISBN

978-3-642-20930-7

Book

Access Networks

Edition

1

Edition number

1

Pages from

153

Pages to

166

Pages count

14

Documents

BibTex


@inbook{BUT55937,
  author="Jiří {Hošek} and Karol {Molnár} and Radek {Doležel} and Otto {Dostál} and Lukáš {Růčka}",
  title="Data-Rate and Queuing Method Optimization for Internetworking Medical Applications",
  annote="The aim of our work, presented in this article, was to find an optimal solution to transfer large volumes of image date over low-capacity links with regarding to minimum response-times. First we statistically described the traffic generated by the corresponding medical equipment and then evaluated the behaviour of these mathematical models in the OPNET Modeler discrete event simulation environment. The simulation results and their interpretation represent the main contribution of the following text.",
  address="Springer",
  booktitle="Access Networks",
  chapter="55937",
  edition="1",
  howpublished="electronic, physical medium",
  institution="Springer",
  year="2011",
  month="june",
  pages="153--166",
  publisher="Springer",
  type="book chapter"
}