Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing

Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing

In this paper, we propose a new mobility management network, i-FP, to be used in the smart factory that continues to develop in the Fourth Industrial Revolution. i-FP was created to solve the current local mobility management problem of legacy frameworks. MN (mobile node) refers to a mobile device i...

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Main Authors: Donghyun Kim, ByungJun Park, Junhyung Moon, Jaeen Lee, Jongpil Jeong
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Wireless Communications and Mobile Computing
Online Access:http://dx.doi.org/10.1155/2021/9970942
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spelling doaj-2c7f31f56df7461686b9bd9cbc34c43c2021-07-05T00:02:46ZengHindawi-WileyWireless Communications and Mobile Computing1530-86772021-01-01202110.1155/2021/9970942Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart ManufacturingDonghyun Kim0ByungJun Park1Junhyung Moon2Jaeen Lee3Jongpil Jeong4Department of Smart Factory Convergence and Physical Science Research InstituteDepartment of Smart Factory Convergence and Physical Science Research InstituteDepartment of Smart Factory Convergence and Physical Science Research InstituteDepartment of Smart Factory Convergence and Physical Science Research InstituteDepartment of Smart Factory Convergence and Physical Science Research InstituteIn this paper, we propose a new mobility management network, i-FP, to be used in the smart factory that continues to develop in the Fourth Industrial Revolution. i-FP was created to solve the current local mobility management problem of legacy frameworks. MN (mobile node) refers to a mobile device in a manufacturing environment that includes workers, production facilities, and AGV. To allow mobile nodes (MNs) to move from one domain to another, i-FP uses three network entities: LFA (Local Factory Anchor), FAG (Factory Access Gateway), and MN, as an extended concept of PMIPv6. Among the three network entities in i-FP, LFA and FAG can act as edge intelligence devices to reduce the handover latency of the MNs. i-FP also uses IP header-swapping mechanisms to prevent traffic overhead and enhance network throughput. We evaluate new framework i-FP, PMIPv6, and HMIPv6, which are legacy protocols of local mobility management, in various ways and evaluate three schemes. We confirm that i-FP works better than do the other network methods used in the smart factory.http://dx.doi.org/10.1155/2021/9970942
collection DOAJ
language English
format Article
sources DOAJ
author Donghyun Kim
ByungJun Park
Junhyung Moon
Jaeen Lee
Jongpil Jeong
spellingShingle Donghyun Kim
ByungJun Park
Junhyung Moon
Jaeen Lee
Jongpil Jeong
Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing
Wireless Communications and Mobile Computing
author_facet Donghyun Kim
ByungJun Park
Junhyung Moon
Jaeen Lee
Jongpil Jeong
author_sort Donghyun Kim
title Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing
title_short Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing
title_full Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing
title_fullStr Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing
title_full_unstemmed Design and Performance Analysis for Edge Intelligence-Based F-PMIPv6 Mobility Support for Smart Manufacturing
title_sort design and performance analysis for edge intelligence-based f-pmipv6 mobility support for smart manufacturing
publisher Hindawi-Wiley
series Wireless Communications and Mobile Computing
issn 1530-8677
publishDate 2021-01-01
description In this paper, we propose a new mobility management network, i-FP, to be used in the smart factory that continues to develop in the Fourth Industrial Revolution. i-FP was created to solve the current local mobility management problem of legacy frameworks. MN (mobile node) refers to a mobile device in a manufacturing environment that includes workers, production facilities, and AGV. To allow mobile nodes (MNs) to move from one domain to another, i-FP uses three network entities: LFA (Local Factory Anchor), FAG (Factory Access Gateway), and MN, as an extended concept of PMIPv6. Among the three network entities in i-FP, LFA and FAG can act as edge intelligence devices to reduce the handover latency of the MNs. i-FP also uses IP header-swapping mechanisms to prevent traffic overhead and enhance network throughput. We evaluate new framework i-FP, PMIPv6, and HMIPv6, which are legacy protocols of local mobility management, in various ways and evaluate three schemes. We confirm that i-FP works better than do the other network methods used in the smart factory.
url http://dx.doi.org/10.1155/2021/9970942
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