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SRMIP: A Software-Defined RAN Mobile IP Framework for Real Time Applications in Wide Area Motion

SRMIP: A Software-Defined RAN Mobile IP Framework for Real Time Applications in Wide Area Motion

Walaa Farouk Elsadek, Mikhail N. Mikhail
Copyright: © 2016 |Volume: 7 |Issue: 4 |Pages: 22
ISSN: 1937-9412|EISSN: 1937-9404|EISBN13: 9781466689930|DOI: 10.4018/IJMCMC.2016100103
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MLA

Elsadek, Walaa Farouk, and Mikhail N. Mikhail. "SRMIP: A Software-Defined RAN Mobile IP Framework for Real Time Applications in Wide Area Motion." IJMCMC vol.7, no.4 2016: pp.28-49. http://doi.org/10.4018/IJMCMC.2016100103

APA

Elsadek, W. F. & Mikhail, M. N. (2016). SRMIP: A Software-Defined RAN Mobile IP Framework for Real Time Applications in Wide Area Motion. International Journal of Mobile Computing and Multimedia Communications (IJMCMC), 7(4), 28-49. http://doi.org/10.4018/IJMCMC.2016100103

Chicago

Elsadek, Walaa Farouk, and Mikhail N. Mikhail. "SRMIP: A Software-Defined RAN Mobile IP Framework for Real Time Applications in Wide Area Motion," International Journal of Mobile Computing and Multimedia Communications (IJMCMC) 7, no.4: 28-49. http://doi.org/10.4018/IJMCMC.2016100103

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Abstract

Existing mobility protocols suffer from multimedia and data transfer disruption when crossing cities' boundaries by trains or cars. Session continuity in wide area motion is an officially raised goal by 5G-PPP vision. This research adopts 5G methodology by using software defined networking to propose a new mobile IP framework that facilitates seamless handover and ensures session continuity in standard and wide area coverage. The same uninterruptible experience is used to extend smart indoor services with effective offload mechanism to avoid core network congestion. Performance excels existing protocols in setup and handover delays as of eliminating 4G LTE bearer setup/release out-band signaling and isolating user's packets in OpenFlow virtual path that is recursively established in-line with IP address allocation. Handover cross cities in wide area motion becomes feasible with lower latency than LTE handover inside city. Throughput is instantly restored after handover while standard packets are wire speed forwarded as of tunnel headers' elimination and OpenFlow hardware abstraction.

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