ETRI Journal
- Volume 30 Issue 2
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- Pages.205-215
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- 2008
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- 1225-6463(pISSN)
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- 2233-7326(eISSN)
Scalable Network Architecture for Flow-Based Traffic Control
- Song, Jong-Tae (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Lee, Soon-Seok (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Kang, Kug-Chang (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Park, No-Ik (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Park, Heuk (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Yoon, Sung-Hyun (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Chun, Kyung-Gyu (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Chang, Mi-Young (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI) ;
- Joung, Jin-Oo (Department of Computer Science, Sangmyung University) ;
- Kim, Young-Sun (Broadcasting & Telecommunications Convergence Research Laboratory, ETRI)
- Received : 2007.08.20
- Published : 2008.04.30
Abstract
Many control schemes have been proposed for flow-level traffic control. However, flow-level traffic control is implemented only in limited areas such as traffic monitoring and traffic control at edge nodes. No clear solution for end-to-end architecture has been proposed. Scalability and the lack of a business model are major problems for deploying end-to-end flow-level control architecture. This paper introduces an end-to-end transport architecture and a scalable control mechanism to support the various flow-level QoS requests from applications.