Hierarchical multi-hop handoff architecture for wireless network mobility

Yunkuk Kim; Sangwook Kang; Donghyun Chae; Sunshin An

doi:10.1007/978-3-540-31957-3_58

Hierarchical multi-hop handoff architecture for wireless network mobility

Yunkuk Kim, Sangwook Kang, Donghyun Chae, Sunshin An

Honorary professors

Research output: Contribution to journal › Conference article › peer-review

Abstract

Under the wireless mobile network environments, if a Mobile Router (MR) which has a wireless transceiver is more than one hop away from the Access Router (AR) connected to the internet, it cannot access directly to the AR and should use its neighbor MRs to access the Internet. Furthermore, a MR can receive the Router Advertisements (RAs) of all MRs in its coverage. In this case a MR cannot distinguish which Router is the upstream Router that destined to the internet. In these situations, it is necessary to support the network mobility by some mechanism. This paper propose a hierarchical multi-hop handoff architecture to provide internet connectivity and, in the same time, a route optimization scheme that can be applied to avoid the multi-angular routing in wireless mobile network (WNEMO) environments.

Original language	English
Pages (from-to)	488-495
Number of pages	8
Journal	Lecture Notes in Computer Science
Volume	3421
Issue number	II
DOIs	https://doi.org/10.1007/978-3-540-31957-3_58
Publication status	Published - 2005
Event	Networking - ICN 2005 - Reunion Island, France Duration: 2005 Apr 17 → 2005 Apr 21

ASJC Scopus subject areas

Theoretical Computer Science
Computer Science(all)

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title = "Hierarchical multi-hop handoff architecture for wireless network mobility",

abstract = "Under the wireless mobile network environments, if a Mobile Router (MR) which has a wireless transceiver is more than one hop away from the Access Router (AR) connected to the internet, it cannot access directly to the AR and should use its neighbor MRs to access the Internet. Furthermore, a MR can receive the Router Advertisements (RAs) of all MRs in its coverage. In this case a MR cannot distinguish which Router is the upstream Router that destined to the internet. In these situations, it is necessary to support the network mobility by some mechanism. This paper propose a hierarchical multi-hop handoff architecture to provide internet connectivity and, in the same time, a route optimization scheme that can be applied to avoid the multi-angular routing in wireless mobile network (WNEMO) environments.",

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AU - Kim, Yunkuk

AU - Kang, Sangwook

AU - Chae, Donghyun

AU - An, Sunshin

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N2 - Under the wireless mobile network environments, if a Mobile Router (MR) which has a wireless transceiver is more than one hop away from the Access Router (AR) connected to the internet, it cannot access directly to the AR and should use its neighbor MRs to access the Internet. Furthermore, a MR can receive the Router Advertisements (RAs) of all MRs in its coverage. In this case a MR cannot distinguish which Router is the upstream Router that destined to the internet. In these situations, it is necessary to support the network mobility by some mechanism. This paper propose a hierarchical multi-hop handoff architecture to provide internet connectivity and, in the same time, a route optimization scheme that can be applied to avoid the multi-angular routing in wireless mobile network (WNEMO) environments.

AB - Under the wireless mobile network environments, if a Mobile Router (MR) which has a wireless transceiver is more than one hop away from the Access Router (AR) connected to the internet, it cannot access directly to the AR and should use its neighbor MRs to access the Internet. Furthermore, a MR can receive the Router Advertisements (RAs) of all MRs in its coverage. In this case a MR cannot distinguish which Router is the upstream Router that destined to the internet. In these situations, it is necessary to support the network mobility by some mechanism. This paper propose a hierarchical multi-hop handoff architecture to provide internet connectivity and, in the same time, a route optimization scheme that can be applied to avoid the multi-angular routing in wireless mobile network (WNEMO) environments.

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