Nash Bargaining Approach for Fair and Efficient LTE–WiFi Aggregation

Kim, Do-Hoon; Lee, Keunhee; Kim, Jae-Hoon

doi:10.1109/access.2019.2936857

Cited by 2 publications

(2 citation statements)

References 22 publications

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“…There are many flaws in this system and needs significant improvement by controlling the system with SDN controller for better monitoring and traffic flow handling. Another interesting approach related to the LWA system is presented in this research 37 . They implement the LWA system on the basis of Nash Bargaining game phenomena.…”

Section: Related Workmentioning

confidence: 99%

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An efficient SDN‐based LTE‐WiFi spectrum aggregation system for heterogeneous 5G networks

Abbas

Afaq

Khan

et al. 2020

Trans Emerging Tel Tech

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Nowadays, the continuously increasing demand for high data traffic and providing different quality of services (QoS) to the customer are very challenging tasks for all network operators. In the last few years, mobile data traffic is increased to a significant extent and half of the traffic is provided through WiFi technology which is known as WiFi offloading. To overcome the increasing traffic demand, WiFi offloading is the best option to reduce the burden of cellular networks. So, by aggregating existing indoor WiFi technology to the cellular network increases the network capacity and provides better QoS to customers. In this article, we propose and implement the LTE-WiFi aggregation system where eNodeB is responsible for the aggregation of the WiFi access point without modifying the core network. Furthermore, the proposed system is integrated with the mobile-CORD (M-CORD) platform which leverages software defined networking (SDN), network function virtualization (NFV), and cloud technologies for providing a 5G environment. M-CORD platform has three main modules: service orchestrator (XOS), SDN controller ONOS, and OpenStack. One of the important features of M-CORD is to provide virtualized core network functions that enable the users to automatically customize, monitor, and control the resources of the network. Due to ONOS controller support, we can easily scale up the network instances by giving the configurations to service orchestrator XOS of the M-CORD. The implementation of the proposed system is based on the OpenAirInterface (OAI) platform which provides open sources implementation of core and access networks. The aggregation of both LTE and WiFi technologies is done at the PDCP layer in a very tight coupling way. Moreover, we test our proposed system with three kinds of policies for UDP and TCP traffic: LTE only, WiFi only, and LTE-WiFi aggregated. The experimental results show that our proposed LTE-WiFi aggregated system gives better performance and provides high bandwidth as compared to the LTE network.

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Section: Related Workmentioning

confidence: 99%

“…Another interesting approach related to the LWA system is presented in this research. 37 They implement the LWA system on the basis of Nash Bargaining game phenomena. The simulator NS3 is used for experimentation purposes.…”

Section: Related Workmentioning

confidence: 99%