Abstract
To alleviate the problem of sub-optimal routing and multiple encapsulations in nested mobile network, a hierarchical based route optimization scheme (HBRO) is proposed. Root mobile router (MR) works as mobility anchor point (MAP) and transmits packets for the mobile network nodes (MNNs). Following advantages can be achieved with this scheme: 1) correspondent node (CN) transmits packet directly to MAP, bypassing all of the home agents (HA) of MRs; 2) tunnel exists only inside the mobile network. We build an analysis model for for performance evaluation, and the analysis results indicate that packet delivery overhead decreases significantly, and the delivery efficiency is beyond 80 percent when packet size is larger than 200 bytes and network resources are utilized to a great extent.
This research is supported by the National Science Foundation of China (No. 60573001, 60674008) and the China Next Generation Internet Project [2006-2075].
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References
Devarapalli, V., Wakikawa, R., Petrescu, A., Thubert, P.: Network Mobility (NEMO) Basic Support Protocol, RFC 3963 (2005)
Johnson, D., Perkins, C., Arkko, J.: Mobility Support in IPv6, RFC 3775 (2004)
Soliman, H., Flarion, C., Castelluccia, K., et al.: Hierarchical Mobile IPv6 Mobility Management (HMIPv6), RFC4140 (2005)
Perera, E., Sivaraman, V., Seneviratne, A.: Survey on Network Mobility Support. Mobile Computing and Communications Review 8(2) (2005)
Ernst, T.: Mobile Networks Support in Mobile IPv6 (Prefix Scope Binding Updates), Draft-ernst-mobileipv6-network-04 (2002)
Kniveton: Mobile Network Prefix Delegation, draft-ietf-nemo-prefix-delegation-02, work in progress (2007)
Thubert, P., Molteni, M.: IPv6 reverse routing header and its application to mobile networks, draft-thubert-nemo-reverse-routing-header-07 (2007)
Ohnishi, H., Sakitani, K., Takagi, Y.: HMIP based route optimization method in a mobile network, draft-ohnishi-nemo-ro-hmip-04 (2003)
Cho, H., Paik, E.K., Choi, Y.: RBU: Recursive Binding Update for Route Optimization in Nested Mobile Networks IEEE VTC (2003)
Kafle, V.P., Kamioka, E., Yamada, S.: MoRaRo: mobile router-assisted route optimization for network mobility (NEMO) support. IEICE Transaction on Information and Systems E89-D(1), 158–170 (2006)
Cho, H., Kwon, T., Choi, Y.: Route Optimization Using Tree Information Option for Nested Mobile Networks. IEEE Journal on Selected Areas in Communications 24(9) (2006)
Calderon, M., Carlos, J., Bernardos, Bagnulo, M., et al.: Design and Experimental Evaluation of a Route Optimization Solution for NEMO. IEEE Journal on Selected Areas in Communications 24(9) (2006)
Arkko, J.: Issue List for NEMO Multihoming Problem Statement, draft-ietf-nemo-multihoming-issues-07 (2007)
Lo, S.-C., Lee, G., Chen, W.-T., Liu, J.-C: Architecture for mobility and QoS support in all-IP wireless networks. IEEE Journal on Selected Areas in Communications 22(4), 691–705 (2004)
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Chen, X., Qin, Y., Dong, P., Yan, Z. (2007). Novel Hierarchical Based Route Optimization Scheme for Nested Mobile Network: Design and Performance Evaluation. In: Zhang, H., Olariu, S., Cao, J., Johnson, D.B. (eds) Mobile Ad-Hoc and Sensor Networks. MSN 2007. Lecture Notes in Computer Science, vol 4864. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-77024-4_10
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DOI: https://doi.org/10.1007/978-3-540-77024-4_10
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