Evaluation of IPV6 and MOFI IOT
(International Journal of Engineering Works)
Vol. 4, Issue 8, PP. 147-150, August 2017
IoT, Thing ID, ID-based, Internetworking, framework
One of the internet’s new revolution is Internet of Things (IOT) due to this objects themselves can recognize one another, get intelligence, transfer information to each other about their own and their ability to access the information that has been combined by other things.. The basic design of the IPV6 was that only end devices are the one with high intelligence and network is used for delivery of packets simply. In present Internet it is observed that inefficiency is created in Internet Protocol (IP) networking due to the location based packet delivery. The inefficiency comes in the environment when more objects or devices are mobile and there is chance of existence of multiple copies. Device-to-Device networking in non-stationary communication, identification of device should not be done by its location but identifier (ID) is used. Thing should be identified by its identifier (ID) rather than its location. In addition, the ID should provide compatibility with existing device IDs. The Identifier ID and existing device IDs must be compatible with one another. This article describes the limitations of IPV4 and IPv6. The limitations need to be fulfilled by Mobile Oriented Future Internet (MOFI) IoT.
- Waleed Shahjehan is Research Scholar in Department of Electrical Engineering, University of Engineering & Technology Peshawar, Pakistan.
- Dr. Mohammad Haseeb Zafar is Professor and Secretary, Board of Advanced Studies & Research in Department of Electrical Engineering, University of Engineering & Technology Peshawar, Pakistan. He is also Visiting Researcher, Department of Electronic and Electrical Engineering, University of Strathclyde, Glasgow, UK.
Waleed Shahjehan, Mohammad Haseeb Zafar, Irshad Hussain, Muhammad Farooq, "Evaluation of IPV6 and MOFI IOT" International Journal of Engineering Works, Vol. 4, Issue 8, PP. 147-150, August 2017.
-  You, Taewan, and Heeyoung Jung. "A qualitative analysis of MOFI, LISP, and HIP." ICT Convergence (ICTC), 2012 International Conference on. IEEE, 2012.Meisam Khalil Arjmandi “5G Overview: Key Technologies” Available at engpaper.com (5G IEEE paper 2016).
-  Kim, Ji-In, Heeyoung Jung, and Seok-Joo Koh. "Mobile oriented future internet (MOFI): Architectural design and implementations." ETRI Journal35.4 (2013): 666-676.Sher Ali Cheema, Kristina Naskovska, Mohammad Houssein Attar, Bilal Zafar and Martin Haardt. “Performance Comparison of Space Time Block Codes for Different 5G Air Interface Protocols” WSA 2016, March 9-11-2016, Munich, Germany.
-  Jung, Heeyoung, and Seok Joo Koh. "MOFI: Future internet architecture with address-free hosts for mobile environments." Telecommunications Review21.2 (2011): 343-358.X. Wang, T. Wild, and F. Schaich, “Filter optimization for carrier frequency- and timing offset in universal filtered multi-carrier systems,” in to be published in IEEE Veh. Technol. Conf. Spring (VTC’15 Spring), May 2015.
-  Case, Mofi Window View Flip Leather. "For Huawei Honor 3X." URL:< http://www. oppomart. com/2014-mofi-window-view-flip-leather-case-for-huawei-honor-3x. html>, retrieved from internet on Dec 4 (2014): 2014.Del Fiorentino, Paolo, et al. "Resource Allocation in Short Packets BIC-UFMC Transmission for Internet of Things." Globecom Workshops (GC Wkshps), 2016 IEEE. IEEE, 2016.
-  Martinez-Julia, Pedro, et al. "Evaluating secure identification in the mobile oriented future internet (mofi) architecture." Conf. Future Netw. Mobile Summit. 2012.Schaich, Frank, and Thorsten Wild. "Relaxed synchronization support of universal filtered multi-carrier including autonomous timing advance." Wireless Communications Systems (ISWCS), 2014 11th International Symposium on. IEEE, 2014.
-  Suh, Junho, et al. "Enabling SDN Experimentation with Wired and Wireless Resources: The SmartFIRE facility." Cloud Computing: 6th International Conference, CloudComp 2015, Daejeon, South Korea, October 28-29, 2015, Revised Selected Papers. Vol. 167. Springer, 2016.