The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
La part de marché actuelle du service de réseau intelligent (RI) augmente rapidement dans les réseaux sans fil en raison des progrès rapides des télécommunications sans fil et de la technologie IN. Pour garantir des services RI indépendants du réseau, la mobilité des abonnés au service RI doit être prise en compte. Cet article propose de nouvelles conceptions de logique de service globale pour l'amélioration du service RI, qui augmentent les taux d'achèvement des appels dans les réseaux intelligents filaires et sans fil. Afin d'appliquer cette logique aux abonnés aux services sans fil ainsi qu'aux abonnés aux services filaires, nous implémentons un gestionnaire de files d'attente appliqué à la fonctionnalité de service de mise en file d'attente des appels dans le point de contrôle de service (SCP). Dans le cas des abonnés au service sans fil, le registre de localisation domestique (HLR) gère les indicateurs d'enregistrement du service pour informer le gestionnaire de files d'attente de la mobilité des abonnés au service correspondant. De plus, nous présentons un mécanisme de gestion de file d'attente dynamique, qui gère dynamiquement la taille de la file d'attente sur la base du modèle de file d'attente du serveur parallèle lorsque les abonnés sans fil parcourent les groupes de services en raison de leurs caractéristiques de mobilité. Afin de déterminer la taille de file d'attente allouée par le gestionnaire de files d'attente dynamique, nous simulons la relation entre le nombre de terminaux de l'abonné et le taux d'abandon en considérant le taux d'incrément de service. De plus, le temps d'attente approprié dans la file d'attente, selon les besoins, est simulé selon la relation ci-dessus. Nous évaluons les taux d'achèvement des appels du mécanisme proposé dans l'article en les comparant à ceux du mécanisme existant.
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Han-Ok CHOI, Yeon-Joong KIM, Dongjin HAN, Sunshin AN, "Dynamic Queue Management Mechanism for Enhancing Call Completion Rate in Wired/Wireless Intelligent Networks" in IEICE TRANSACTIONS on Communications,
vol. E83-B, no. 6, pp. 1342-1354, June 2000, doi: .
Abstract: Today's market share of Intelligent Network (IN) service is growing rapidly in wireless networks due to the rapid advances in wireless telecommunication and IN technology. To guarantee network independent IN services, mobility of IN service subscribers has to be taken into account. This paper proposes new designs of Global Service Logic for the IN service enhancement, which increase call completion rates in wired and wireless intelligent networks. In order to apply this logic to wireless service subscribers as well as wired service subscribers, we implement a Queue Manager applied to the call queuing service feature in the Service Control Point (SCP). In the case of wireless service subscribers, the Home Location Register (HLR) handles the service registration flags to notify the Queue Manager of the corresponding service subscribers' mobility. In addition, we present a dynamic queue management mechanism, which dynamically manages the queue size based on the parallel server queuing model as the wireless subscribers roam the service groups due to their mobility characteristics. In order to determine the queue size allocated by the dynamic queue manager, we simulate the relationship between the number of the subscriber's terminals and the drop rate by considering the service increment rate. Moreover, the appropriate waiting time in the queue as required is simulated according to the above relationship. We evaluate call completion rates of the proposed mechanism in the paper by comparing to that of the existing mechanism.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e83-b_6_1342/_p
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@ARTICLE{e83-b_6_1342,
author={Han-Ok CHOI, Yeon-Joong KIM, Dongjin HAN, Sunshin AN, },
journal={IEICE TRANSACTIONS on Communications},
title={Dynamic Queue Management Mechanism for Enhancing Call Completion Rate in Wired/Wireless Intelligent Networks},
year={2000},
volume={E83-B},
number={6},
pages={1342-1354},
abstract={Today's market share of Intelligent Network (IN) service is growing rapidly in wireless networks due to the rapid advances in wireless telecommunication and IN technology. To guarantee network independent IN services, mobility of IN service subscribers has to be taken into account. This paper proposes new designs of Global Service Logic for the IN service enhancement, which increase call completion rates in wired and wireless intelligent networks. In order to apply this logic to wireless service subscribers as well as wired service subscribers, we implement a Queue Manager applied to the call queuing service feature in the Service Control Point (SCP). In the case of wireless service subscribers, the Home Location Register (HLR) handles the service registration flags to notify the Queue Manager of the corresponding service subscribers' mobility. In addition, we present a dynamic queue management mechanism, which dynamically manages the queue size based on the parallel server queuing model as the wireless subscribers roam the service groups due to their mobility characteristics. In order to determine the queue size allocated by the dynamic queue manager, we simulate the relationship between the number of the subscriber's terminals and the drop rate by considering the service increment rate. Moreover, the appropriate waiting time in the queue as required is simulated according to the above relationship. We evaluate call completion rates of the proposed mechanism in the paper by comparing to that of the existing mechanism.},
keywords={},
doi={},
ISSN={},
month={June},}
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TY - JOUR
TI - Dynamic Queue Management Mechanism for Enhancing Call Completion Rate in Wired/Wireless Intelligent Networks
T2 - IEICE TRANSACTIONS on Communications
SP - 1342
EP - 1354
AU - Han-Ok CHOI
AU - Yeon-Joong KIM
AU - Dongjin HAN
AU - Sunshin AN
PY - 2000
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E83-B
IS - 6
JA - IEICE TRANSACTIONS on Communications
Y1 - June 2000
AB - Today's market share of Intelligent Network (IN) service is growing rapidly in wireless networks due to the rapid advances in wireless telecommunication and IN technology. To guarantee network independent IN services, mobility of IN service subscribers has to be taken into account. This paper proposes new designs of Global Service Logic for the IN service enhancement, which increase call completion rates in wired and wireless intelligent networks. In order to apply this logic to wireless service subscribers as well as wired service subscribers, we implement a Queue Manager applied to the call queuing service feature in the Service Control Point (SCP). In the case of wireless service subscribers, the Home Location Register (HLR) handles the service registration flags to notify the Queue Manager of the corresponding service subscribers' mobility. In addition, we present a dynamic queue management mechanism, which dynamically manages the queue size based on the parallel server queuing model as the wireless subscribers roam the service groups due to their mobility characteristics. In order to determine the queue size allocated by the dynamic queue manager, we simulate the relationship between the number of the subscriber's terminals and the drop rate by considering the service increment rate. Moreover, the appropriate waiting time in the queue as required is simulated according to the above relationship. We evaluate call completion rates of the proposed mechanism in the paper by comparing to that of the existing mechanism.
ER -