Intelligent Middle-Ware Architecture for Mobile Networks

Recent advances in electronic and automotive industries as well as in wireless telecommunication technologies have drawn a new picture where each vehicle became “fully networked”. Multiple stake-holders (network operators, drivers, car manufacturers, service providers, etc.) will participate in this emerging market, which could grow following various models. To free the market from technical constraints, it is important to return to the basics of the Internet, i.e., providing embarked devices with a fully operational Internet connectivity (IPv6).

[1]  Vincent W. S. Wong,et al.  Comparison between Vertical Handoff Decision Algorithms for Heterogeneous Wireless Networks , 2006, 2006 IEEE 63rd Vehicular Technology Conference.

[2]  Charles E. Perkins,et al.  Route Optimization for Mobile IP , 1998, Cluster Computing.

[3]  Jean-Marie Bonnin,et al.  Automatic Multi-Interface Management Through Profile Handling , 2009, Mob. Networks Appl..

[4]  Jean-Marie Bonnin,et al.  Achieving "Always Best Connected" Through Extensive Profile Management , 2004, PWC.

[5]  J.-M. Bonnin,et al.  Mobility aware application manager for mobile networks , 2008, 2008 8th International Conference on ITS Telecommunications.

[6]  Jean-Marie Bonnin,et al.  Traffic flow control on multi-tunneled mobile router , 2006 .

[7]  Jen-Yi Pan,et al.  Multiple Care-of Addresses Registration and Capacity-Aware Preference on Multi-Rate Wireless Links , 2008, 22nd International Conference on Advanced Information Networking and Applications - Workshops (aina workshops 2008).

[8]  E. Gustafsson,et al.  Always best connected , 2003, IEEE Wirel. Commun..

[9]  Michael Eriksson,et al.  Flow Distribution Rule Language for Multi-Access Nodes , 2009 .

[10]  Unrecognized A Policy Data Set for Flow Distribution , 2007 .

[11]  Nalini Venkatasubramanian,et al.  Multi-constraint dynamic access selection in always best connected networks , 2005, The Second Annual International Conference on Mobile and Ubiquitous Systems: Networking and Services.

[12]  Mortaza S. Bargh,et al.  A context management framework for supporting context-aware distributed applications , 2006, IEEE Communications Magazine.

[13]  Michael G. Williams Directions in Media Independent Handover , 2005, IEICE Trans. Fundam. Electron. Commun. Comput. Sci..

[14]  Jean-Marie Bonnin,et al.  Towards highly adaptable user-centric terminal architecture , 2004 .

[15]  Jun Murai,et al.  The In-vehicle Router System to Support Network Mobility , 2003, ICOIN.

[16]  Pablo Rodriguez,et al.  MAR: a commuter router infrastructure for the mobile Internet , 2004, MobiSys '04.

[17]  J. Jaehnert,et al.  Design and evaluation of a handover decision strategy for 4th generation mobile networks , 2003, The 57th IEEE Semiannual Vehicular Technology Conference, 2003. VTC 2003-Spring..

[18]  Sherali Zeadally,et al.  Mobility management across hybrid wireless networks: Trends and challenges , 2006, Comput. Commun..

[19]  Ryuji Wakikawa,et al.  Network Mobility (NEMO) Basic Support Protocol , 2005, RFC.