Browse > Article
http://dx.doi.org/10.4218/etrij.13.1812.0064

Mobile Oriented Future Internet (MOFI): Architectural Design and Implementations  

Kim, Ji-In (School of Computer Science and Engineering, Kyungpook National University)
Jung, Heeyoung (Communications & Internet Research Laboratory, ETRI)
Koh, Seok-Joo (School of Computer Science and Engineering, Kyungpook National University)
Publication Information
ETRI Journal / v.35, no.4, 2013 , pp. 666-676 More about this Journal
Abstract
With the recent growth in smartphone services, the "mobile" environment has become a key factor to consider in the design of the future Internet. In this paper, we propose Mobile-Oriented Future Internet (MOFI), which is a new architecture for the future Internet for mobile-oriented environments. The MOFI architecture is designed with three functional features: global identifier and local locator in the identifier-locator separation, query-first data delivery for route optimization, and distributed control of identifier-locator mapping. The proposed architecture and functional operations are implemented and tested using the Linux platform. From the experiment results, we see that the MOFI architecture performs better than the existing identifier-locator separation schemes, such as Proxy Mobile IP and Host Identity Protocol, in terms of data throughout, mapping control overhead, and handover delay.
Keywords
Future Internet; architecture; local locator; query-first data delivery; distributed mapping control; implementation;
Citations & Related Records
연도 인용수 순위
  • Reference
1 D. Farinacci et al., "Locator/ID Separation Protocol," IETF Internet Draft, draft-ietf-lisp-23, May 2012.
2 A. Ford et al., "Architectural Guidelines for Multipath TCP Development," IETF RFC 6182, Mar. 2011.
3 R. Stewart et al., "Stream Control Transmission Protocol (SCTP) Dynamic Address Reconfiguration," IETF RFC 5061, Sept. 2009.
4 R. Moskowitz et al., "Host Identity Protocol," IETF RFC 5201, Apr. 2008.
5 H. Chan et al., "Requirements of Distributed Mobility Management," IETF Internet Draft, draft-ietf-dmm-requirements-03, Dec. 2012.
6 eMobility Project. http://www.emobility.eu.org/
7 4WARD Project. http://www.4ward-project.eu/
8 Future Internet Design (FIND). http://www.nets-find.net/
9 Mobility First: Future Internet Architecture. http://mobilityfirst.winlab.rutgers.edu/
10 Mobile Oriented Future Internet (MOFI). http://www.mofi.re.kr
11 D. Meyer et al., "Report from the IAB Workshop on Routing and Addressing," IETF RFC 4984, 2007.
12 P. MARTINEZ-JULIA et al., "Evaluating Secure Identification in the Mobile Oriented Future Internet (MOFI) Architecture," Conf. Future Netw. Mobile Summit, Berlin, Germany, July 4-6, 2012.
13 IEEE 802.21, Media Independent Handover Services.
14 6-to-4 tunneling. http://en.wikipedia.org/wiki/6to4/
15 Linux netfilter hacking HOWTO, July 2002.
16 Wireshark. http://www.wireshark.org
17 P. Nikander et al., "End-Host Mobility and Multihoming with the Host Identity Protocol," IETF RFC 5206, Apr. 2008.
18 S. Krishnan et al., "Localized Routing for Proxy Mobile IPv6," IETF RFC 6705, Sept. 2012.
19 Cisco Virtual Networking Index: Global Mobile Data Traffic Forecast Update 2011-2016, Feb. 2012.
20 C. Perkins et al., "Mobility Support in IPv6," IETF RFC 6275, July 2011.
21 S. Gundavelli et al., "Proxy Mobile IPv6," IETF RFC 5213, Aug. 2008.