Actas de congresos
User-centric Mobility Management Architecture For Vehicular Networks
Registro en:
9783642379345
Lecture Notes Of The Institute For Computer Sciences, Social-informatics And Telecommunications Engineering, Lnicst. , v. 58, n. , p. 42 - 56, 2013.
18678211
10.1007/978-3-642-37935-2_4
2-s2.0-84883130904
Autor
Meneguette R.I.
Bittencourt L.F.
Madeira E.R.M.
Institución
Resumen
Vehicular Ad Hoc Network (VANET) is a subclass of Mobile Ad Hoc Networks that provides wireless communication among vehicles as well as between vehicles and roadside devices. Providing safety and user comfort for drivers and passengers is a promising goal of these networks. Some user applications need a connection to internet through gateways which are in the road side. This connection could generate an overhead of control messages and also the handover time among gateways can affect the performance of these applications. This paper proposes an architecture for intra- and inter-system management for virtual environments in vehicular networks, supporting user-driven applications. More specifically, we consider applications that depend on virtual environments which must be constantly updated, such as online gaming. To efficiently support these applications, the proposed architecture includes an extension of the 802.21 protocol to cope with the virtual environment updates. NS3 simulations were performed to evaluate the proposal over the proxy MIPv6 considering VANET and LTE networks as base stations. We observed that the proposed mechanism that extends the 802.21 protocol had a shorter handover time and lower packet loss when acting with the presented architecture. 58
42 56 Technische Universitat Hamburg-Harburg,IEEE Communications Society Germany Chapter Karagiannis, G., Altintas, O., Ekici, E., Heijenk, G., Jarupan, B., Lin, K., Weil, T., Vehicular networking: A survey and tutorial on requirements, architectures, challenges, standards and solutions (2011) IEEE Communications Surveys Tutorials, 13 (4), pp. 584-616 Asgari, M., Jumari, K., Ismail, M., (2011) Analysis of Routing Protocols In Vehicular Ad Hoc Network Applications, 181, pp. 384-397. , In: Zain, J.M., Wan Mohd, W.M.B., El-Qawasmeh, E. (eds.) ICSECS 2011, Part III. CCIS, Springer, Heidelberg Gerla, M., Maggiorini, D., Palazzi, C., Bujari, A., (2012) A Survey On Interactive Games Over Mobile Networks, , Wireless Communications and Mobile Computing Zhou, S., Cai, W., Lee, B.S., Turner, S.J., Time-space consistency in large-scale distributed virtual environments (2004) ACM Trans. Model. Comput. Simul, 14, pp. 31-47 Faezipour, M., Nourani, M., Saeed, A., Addepalli, S., Progress and challenges in intelligent vehicle area networks (2012) Communications of the ACM, 55 (2), pp. 90-100 Lee, U., Gerla, M., A survey of urban vehicular sensing platforms (2010) Computer Networks, 54 (4), pp. 527-544 Kakarla, J., Sathya, S.S., Article: A survey and qualitative analysis of multi-channel mac protocols for vanet (2012) International Journal of Computer Applications, 38 (6), pp. 38-42 Feng, W.C., Chang, F., Feng, W.C., Walpole, J., A traffic characterization of popular on-line games (2005) IEEE/ACM Trans. Netw, 13 (3), pp. 488-500 Tonguz, O.K., Boban, M., Multiplayer games over vehicular ad hoc networks: A new application (2010) Ad Hoc Netw, 8 (5), pp. 531-543 Gupta, P., Kumar, P., The capacity of wireless networks (2000) IEEE Transactions On Information Theory, 46 (2), pp. 388-404 Tayal, S., Tripathy, M., Vanet-challenges in selection of vehicular mobility model (2012) 2012 Second International Conference On Advanced Computing Communication Technologies (ACCT), pp. 231-235. , January Prakash, A., Tripathi, S., Verma, R., Tyagi, N., Tripathi, R., Naik, K., (2010) A Cross Layer Seamless Handover Scheme In Ieee 802.11p Based Vehicular Networks, 95, pp. 84-95. , In: Ranka, S., Banerjee, A., Biswas, K.K., Dua, S., Mishra, P., Moona, R., Poon, S.-H., Wang, C.-L. (eds.) IC3 2010. CCIS, Springer, Heidelberg Akyildiz, L., McNair, J., Ho, J., Uzunalioglu, H., Wang, W., Mobility management in current and future communications networks (1998) IEEE Network, 12 (4), pp. 39-49 Chen, Y.C., Hsia, J.H., Liao, Y.J., Advanced seamless vertical handoff architecture for wimax and wifi heterogeneous networks with qos guarantees (2009) Computer Communications, 32 (2), pp. 281-293 Yusof, A., Ismail, M., Misran, N., Handoff architecture in next-generation wireless systems (2007) Asia-Pacific Conference On Applied Electromagnetics, APACE 2007, pp. 1-5. , December Dutta, A., Das, S., Famolari, D., Ohba, Y., Taniuchi, K., Fajardo, V., Lopez, R.M., Schulzrinne, H., Seamless proactive handover across heterogeneous access networks (2007) Wirel. Pers. Commun, 43, pp. 837-855 Taniuchi, K., Ohba, Y., Fajardo, V., Das, S., Tauil, M., Cheng, Y.H., Dutta, A., Famolari, D., Ieee 802.21: Media independent handover: Features, applicability, and realization (2009) IEEE Communications Magazine, 47 (1), pp. 112-120 Yang, K., Ou, S., Chen, H.H., He, J., A multihop peer-communication protocol with fairness guarantee for ieee 802.16-based vehicular networks (2007) IEEE Transactions On Vehicular Technology, 56 (6), pp. 3358-3370 Mussabbir, Q., Yao, W., Niu, Z., Fu, X., Optimized fmipv6 using ieee 802.21 mih services in vehicular networks (2007) IEEE Transactions On Vehicular Technology, 56 (6), pp. 3397-3407 Chiu, K.L., Hwang, R.H., Chen, Y.S., (2009) Cross-layer Design Vehicle-aided Handover Scheme In VANETs, , Wireless Communications and Mobile Computing Lee, J.H., Ernst, T., Deng, D.J., Chao, H.C., Improved pmipv6 handover procedure for consumer multicast traffic (2011) IET Communications, 5 (15), pp. 2149-2156 Kim, J., Morioka, Y., Hagiwara, J., An optimized seamless ip flow mobility management architecture for traffic offloading (2012) 2012 IEEE Network Operations and Management Symposium (NOMS), pp. 229-236. , April