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Journal Article Swarm Intelligence Based Self-Organizing QoS Framework for Ever-changing Future Networks
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Authors
Young-Min Kim, Eun-Jung Lee, Boo-Geum Jung, Hak-Suh Kim, Hea-Sook Park, Hong-Shik Park
Issue Date
2013-12
Citation
IEEE Journal on Selected Areas in Communications, v.31, no.12, pp.735-749
ISSN
0733-8716
Publisher
IEEE
Language
English
Type
Journal Article
DOI
https://dx.doi.org/10.1109/JSAC.2013.SUP2.1213006
Project Code
12VI2200, Development of Secure and Scalable Virtual ID based Enterprise-Cloud-Mobile device Connected VPC Technology, Park Hea Sook
Abstract
We consider a new QoS framework for a wide range of multimedia services in ever-changing networks where traffic is dynamic and network topologies frequently change. In this paper, for such networks, we propose a new self-organizing QoS framework called AntQoS, which is inspired by recent works on ant colony optimization. Compared with previous QoS frameworks, AntQoS provides two quite promising capabilities: 1) the self-organized network QoS (not pre-defined QoS), which autonomously reconfigures itself by promptly adapting to changing network environments such as sudden arrivals of highly bursty traffic, and 2) the self-organized network controls, which autonomously resolve the network congestion and intrinsically resist the multiple network failures. These two promising capabilities enable the proposed AntQoS framework to efficiently and reliably support a wide range of multimedia services with various quality demands. Especially, these capabilities are provided by making use of swarm intelligence of artificial ants without any supervised control. For this purpose, AntQoS employs one single artificial ant colony on an ever-changing network; a number of artificial ants in the employed colony explore network and measure or gather the status information about the networks. Based on the gathered information, AntQoS organizes and maintains a small number of virtual sub colonies named QoS colonies. The QoS colony is an intelligent virtual colony to be capable of searching the path which guarantees the given quality demands of flows. In addition, it is autonomously generated, maintained, and deleted for promptly adapting to the ever-changing network status. Simulation results demonstrate that AntQoS successfully supports various multimedia services with diverse delay requirements while increasing the network throughput by approximately 20% compared to the well-known IntServ frameworks. Simulation results also show that AntQoS autonomously redistributes the congested traffic and resists the unexpected network failures. © 1983-2012 IEEE.
KSP Keywords
Ant colony optimization(ACO), Bursty Traffic, Changing networks, Multimedia Service, Multiple network, Network Congestion, Network Qos, Network failures, Network status, Network throughput, Network topology