Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed
Traditionally IP mobility support mechanisms, Mobile IPv4 or Mobile IPv6 are based on the host-based solution to keep on going sessions despite the movement. The current trend is towards networks-based solutions where mobility support is based on network operation. Proxy Mobile IPv6 (PMIPv6) has bee...
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2014
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| Online Access: | http://eprints.utm.my/id/eprint/62512/ https://www.researchgate.net/profile/Liza_A_Latiff/publication/305922850_Route_Optimization_via_RSSI_APPs_in_Indoor_Proxy_Mobile_IPv6_Test-bed/links/57a876f008aed76703f5f84f/Route-Optimization-via-RSSI-APPs-in-Indoor-Proxy-Mobile-IPv6-Test-bed.pdf |
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my.utm.625122017-06-18T00:08:06Z http://eprints.utm.my/id/eprint/62512/ Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed Abdul Wahab, Nur Haliza A. Latiff, Liza Syed Ariffin, Sharifah Hafizah N. Effiyana, Ghazali QA76 Computer software Traditionally IP mobility support mechanisms, Mobile IPv4 or Mobile IPv6 are based on the host-based solution to keep on going sessions despite the movement. The current trend is towards networks-based solutions where mobility support is based on network operation. Proxy Mobile IPv6 (PMIPv6) has been developed by the Internet Engineering Task Force (IETF) as a network-based mobility management protocol. The development is aimed to guarantee and support mobility for IP devices or called as Mobile Node (MN) without the MN involving in any IP layer mobility related to signaling as stated in RFC5213. PMIPv6 in RFC5213 address the needed to enable Localized Routing (LR) but it not specify a complete procedure to establish Route Optimization (RO). Data packets belong to MN need to travel to Local Mobility Anchor (LMA) via bidirectional tunnel between Mobile Access Gateway (MAG) and LMA. This result to long end to end delay. This un-optimized route result in increasing signaling data delay, huge handover latency, large transport cost and many more. Therefore, it important to optimized the data path so that the data destined to MN will be traverse using the shorter path or directly change traffic tunnel between MAG. As for this, the aims of this study are to reduce the handover latency and optimized data route by the illustration of development the PMIPv6 test-bed with implementation of RO via RSSI APPs. Several experiment will be discuss to see the performance of RO algorithm via RSSI APPs with non-optimized RO. Maxwell Science Publications 2014 Article PeerReviewed Abdul Wahab, Nur Haliza and A. Latiff, Liza and Syed Ariffin, Sharifah Hafizah and N. Effiyana, Ghazali (2014) Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed. Research Journal of Applied Sciences, Engineering and Technology, 8 (8). pp. 942-951. ISSN 2040-7459 https://www.researchgate.net/profile/Liza_A_Latiff/publication/305922850_Route_Optimization_via_RSSI_APPs_in_Indoor_Proxy_Mobile_IPv6_Test-bed/links/57a876f008aed76703f5f84f/Route-Optimization-via-RSSI-APPs-in-Indoor-Proxy-Mobile-IPv6-Test-bed.pdf |
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QA76 Computer software Abdul Wahab, Nur Haliza A. Latiff, Liza Syed Ariffin, Sharifah Hafizah N. Effiyana, Ghazali Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed |
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Traditionally IP mobility support mechanisms, Mobile IPv4 or Mobile IPv6 are based on the host-based solution to keep on going sessions despite the movement. The current trend is towards networks-based solutions where mobility support is based on network operation. Proxy Mobile IPv6 (PMIPv6) has been developed by the Internet Engineering Task Force (IETF) as a network-based mobility management protocol. The development is aimed to guarantee and support mobility for IP devices or called as Mobile Node (MN) without the MN involving in any IP layer mobility related to signaling as stated in RFC5213. PMIPv6 in RFC5213 address the needed to enable Localized Routing (LR) but it not specify a complete procedure to establish Route Optimization (RO). Data packets belong to MN need to travel to Local Mobility Anchor (LMA) via bidirectional tunnel between Mobile Access Gateway (MAG) and LMA. This result to long end to end delay. This un-optimized route result in increasing signaling data delay, huge handover latency, large transport cost and many more. Therefore, it important to optimized the data path so that the data destined to MN will be traverse using the shorter path or directly change traffic tunnel between MAG. As for this, the aims of this study are to reduce the handover latency and optimized data route by the illustration of development the PMIPv6 test-bed with implementation of RO via RSSI APPs. Several experiment will be discuss to see the performance of RO algorithm via RSSI APPs with non-optimized RO. |
| format |
Article |
| author |
Abdul Wahab, Nur Haliza A. Latiff, Liza Syed Ariffin, Sharifah Hafizah N. Effiyana, Ghazali |
| author_facet |
Abdul Wahab, Nur Haliza A. Latiff, Liza Syed Ariffin, Sharifah Hafizah N. Effiyana, Ghazali |
| author_sort |
Abdul Wahab, Nur Haliza |
| title |
Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed |
| title_short |
Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed |
| title_full |
Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed |
| title_fullStr |
Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed |
| title_full_unstemmed |
Route optimization via RSSI APPs in indoor proxy mobile IPv6 test-bed |
| title_sort |
route optimization via rssi apps in indoor proxy mobile ipv6 test-bed |
| publisher |
Maxwell Science Publications |
| publishDate |
2014 |
| url |
http://eprints.utm.my/id/eprint/62512/ https://www.researchgate.net/profile/Liza_A_Latiff/publication/305922850_Route_Optimization_via_RSSI_APPs_in_Indoor_Proxy_Mobile_IPv6_Test-bed/links/57a876f008aed76703f5f84f/Route-Optimization-via-RSSI-APPs-in-Indoor-Proxy-Mobile-IPv6-Test-bed.pdf |
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1643655441415143424 |
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13.15806 |