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@ARTICLE{e74-b_11_3672,
author={Toshihiko KATO, Masahiko FUJINAGA, Sadao OBANA, Kenji SUZUKI, },
journal={IEICE TRANSACTIONS on Communications},
title={Applying Distributed Processing Technologies to Intelligent Network},
year={1991},
volume={E74-B},
number={11},
pages={3672-3682},
abstract={The Intelligent Network (IN) provides advanced telecommunication services by use of network components distributed over the telecommunication networks. Therefore, the distributed processing technologies are the key to IN and the distribution transparencies which are the purpose of the distributed processing technologies are useful to reduce the difficulties of the IN development. This paper proposes two approaches to apply distributed processing technologies to IN considering on which plane to use the distribution transparencies in the IN conceptual model. The first approach applies distributed processing technologies to the implementation of the functional entities defined in the IN distributed functional plane. The second approach uses distributed processing technologies as the service independent building blocks defined in the IN global functional plane: This paper also presents the results of some typical case studies of the proposed two approaches, the implementation of the functional entities using the remote procedure call and the use of the global naming service as the number translation service independent building block, which show that the distributed processing technologies are highly applicable to IN.},
keywords={},
doi={},
ISSN={},
month={November},}

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TY - JOUR
TI - Applying Distributed Processing Technologies to Intelligent Network
T2 - IEICE TRANSACTIONS on Communications
SP - 3672
EP - 3682
AU - Toshihiko KATO
AU - Masahiko FUJINAGA
AU - Sadao OBANA
AU - Kenji SUZUKI
PY - 1991
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E74-B
IS - 11
JA - IEICE TRANSACTIONS on Communications
Y1 - November 1991
AB - The Intelligent Network (IN) provides advanced telecommunication services by use of network components distributed over the telecommunication networks. Therefore, the distributed processing technologies are the key to IN and the distribution transparencies which are the purpose of the distributed processing technologies are useful to reduce the difficulties of the IN development. This paper proposes two approaches to apply distributed processing technologies to IN considering on which plane to use the distribution transparencies in the IN conceptual model. The first approach applies distributed processing technologies to the implementation of the functional entities defined in the IN distributed functional plane. The second approach uses distributed processing technologies as the service independent building blocks defined in the IN global functional plane: This paper also presents the results of some typical case studies of the proposed two approaches, the implementation of the functional entities using the remote procedure call and the use of the global naming service as the number translation service independent building block, which show that the distributed processing technologies are highly applicable to IN.
ER -