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As IoT services become more popular, mobile networks will have to accommodate a wide variety of devices that have different requirements such as different bandwidth limitations and latencies. This paper describes edge distributed mobile network architectures for the IoT era based on dedicated network technology and multi-access edge computing technology, which have been discussed in 3GPP and ETSI. Furthermore, it describes two context-aware control methods that will make mobile networks on the network architecture more efficient, reliable, and real-time: autonomous and distributed mobility management and bandwidth-guaranteed transmission rate control in a networked control system.
Takanori IWAI
NEC Corporation,Keio University
Daichi KOMINAMI
Osaka University
Masayuki MURATA
Osaka University
Ryogo KUBO
Keio University
Kozo SATODA
NEC Corporation
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Takanori IWAI, Daichi KOMINAMI, Masayuki MURATA, Ryogo KUBO, Kozo SATODA, "Mobile Network Architectures and Context-Aware Network Control Technology in the IoT Era" in IEICE TRANSACTIONS on Communications,
vol. E101-B, no. 10, pp. 2083-2093, October 2018, doi: 10.1587/transcom.2017NEI0001.
Abstract: As IoT services become more popular, mobile networks will have to accommodate a wide variety of devices that have different requirements such as different bandwidth limitations and latencies. This paper describes edge distributed mobile network architectures for the IoT era based on dedicated network technology and multi-access edge computing technology, which have been discussed in 3GPP and ETSI. Furthermore, it describes two context-aware control methods that will make mobile networks on the network architecture more efficient, reliable, and real-time: autonomous and distributed mobility management and bandwidth-guaranteed transmission rate control in a networked control system.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.2017NEI0001/_p
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@ARTICLE{e101-b_10_2083,
author={Takanori IWAI, Daichi KOMINAMI, Masayuki MURATA, Ryogo KUBO, Kozo SATODA, },
journal={IEICE TRANSACTIONS on Communications},
title={Mobile Network Architectures and Context-Aware Network Control Technology in the IoT Era},
year={2018},
volume={E101-B},
number={10},
pages={2083-2093},
abstract={As IoT services become more popular, mobile networks will have to accommodate a wide variety of devices that have different requirements such as different bandwidth limitations and latencies. This paper describes edge distributed mobile network architectures for the IoT era based on dedicated network technology and multi-access edge computing technology, which have been discussed in 3GPP and ETSI. Furthermore, it describes two context-aware control methods that will make mobile networks on the network architecture more efficient, reliable, and real-time: autonomous and distributed mobility management and bandwidth-guaranteed transmission rate control in a networked control system.},
keywords={},
doi={10.1587/transcom.2017NEI0001},
ISSN={1745-1345},
month={October},}
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TY - JOUR
TI - Mobile Network Architectures and Context-Aware Network Control Technology in the IoT Era
T2 - IEICE TRANSACTIONS on Communications
SP - 2083
EP - 2093
AU - Takanori IWAI
AU - Daichi KOMINAMI
AU - Masayuki MURATA
AU - Ryogo KUBO
AU - Kozo SATODA
PY - 2018
DO - 10.1587/transcom.2017NEI0001
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E101-B
IS - 10
JA - IEICE TRANSACTIONS on Communications
Y1 - October 2018
AB - As IoT services become more popular, mobile networks will have to accommodate a wide variety of devices that have different requirements such as different bandwidth limitations and latencies. This paper describes edge distributed mobile network architectures for the IoT era based on dedicated network technology and multi-access edge computing technology, which have been discussed in 3GPP and ETSI. Furthermore, it describes two context-aware control methods that will make mobile networks on the network architecture more efficient, reliable, and real-time: autonomous and distributed mobility management and bandwidth-guaranteed transmission rate control in a networked control system.
ER -