IEICE TRANSACTIONS on Communications
Numerical Analysis of the Dwell Time Distribution in Mobile Cellular Communication Systems
Summary :
In this paper, we propose a simple and accurate method to derive the dwell time distribution of a mobile in a cell by a numerical integration approach. In practical applications, only a few traffic models have a known closed-form solution, most of the models can not be solved in closed form. Therefore a simulation or approximating method has to be used to solve the problems. To validate the accuracy of the proposed method, we apply it to a typical hard handoff traffic model with known closed-form solution and the goodness-of-fit is measured. We also apply this method to a soft handoff traffic model, which does not have a closed-form solution. Computer simulations show promising results based on the non-closed-form application.
- Publication
- IEICE TRANSACTIONS on Communications Vol.E81-B No.4 pp.715-721
- Publication Date
- 1998/04/25
- Publicized
- Online ISSN
- DOI
- Type of Manuscript
- Category
- Communication Theory
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Mooho CHO, Kwangsik KIM, Ferenc SZIDAROVSZKY, Younggap YOU, Kyoungrok CHO, "Numerical Analysis of the Dwell Time Distribution in Mobile Cellular Communication Systems" in IEICE TRANSACTIONS on Communications,
vol. E81-B, no. 4, pp. 715-721, April 1998, doi: .
Abstract: In this paper, we propose a simple and accurate method to derive the dwell time distribution of a mobile in a cell by a numerical integration approach. In practical applications, only a few traffic models have a known closed-form solution, most of the models can not be solved in closed form. Therefore a simulation or approximating method has to be used to solve the problems. To validate the accuracy of the proposed method, we apply it to a typical hard handoff traffic model with known closed-form solution and the goodness-of-fit is measured. We also apply this method to a soft handoff traffic model, which does not have a closed-form solution. Computer simulations show promising results based on the non-closed-form application.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e81-b_4_715/_p
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@ARTICLE{e81-b_4_715,
author={Mooho CHO, Kwangsik KIM, Ferenc SZIDAROVSZKY, Younggap YOU, Kyoungrok CHO, },
journal={IEICE TRANSACTIONS on Communications},
title={Numerical Analysis of the Dwell Time Distribution in Mobile Cellular Communication Systems},
year={1998},
volume={E81-B},
number={4},
pages={715-721},
abstract={In this paper, we propose a simple and accurate method to derive the dwell time distribution of a mobile in a cell by a numerical integration approach. In practical applications, only a few traffic models have a known closed-form solution, most of the models can not be solved in closed form. Therefore a simulation or approximating method has to be used to solve the problems. To validate the accuracy of the proposed method, we apply it to a typical hard handoff traffic model with known closed-form solution and the goodness-of-fit is measured. We also apply this method to a soft handoff traffic model, which does not have a closed-form solution. Computer simulations show promising results based on the non-closed-form application.},
keywords={},
doi={},
ISSN={},
month={April},}
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TY - JOUR
TI - Numerical Analysis of the Dwell Time Distribution in Mobile Cellular Communication Systems
T2 - IEICE TRANSACTIONS on Communications
SP - 715
EP - 721
AU - Mooho CHO
AU - Kwangsik KIM
AU - Ferenc SZIDAROVSZKY
AU - Younggap YOU
AU - Kyoungrok CHO
PY - 1998
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E81-B
IS - 4
JA - IEICE TRANSACTIONS on Communications
Y1 - April 1998
AB - In this paper, we propose a simple and accurate method to derive the dwell time distribution of a mobile in a cell by a numerical integration approach. In practical applications, only a few traffic models have a known closed-form solution, most of the models can not be solved in closed form. Therefore a simulation or approximating method has to be used to solve the problems. To validate the accuracy of the proposed method, we apply it to a typical hard handoff traffic model with known closed-form solution and the goodness-of-fit is measured. We also apply this method to a soft handoff traffic model, which does not have a closed-form solution. Computer simulations show promising results based on the non-closed-form application.
ER -
English
