Browse > Article
http://dx.doi.org/10.3745/KIPSTC.2005.12C.6.881

A Study on Framework to offer the differentiated Optical QoS Service in the Next-Generation WDM Optical Internet Backbone Network  

Kim Yong-Seoug (경남정보대학)
Ryu Shi-Kook (경남정보대학)
Lee Jae-Dong (경남정보대학)
Kim Sung-Un (부경대학교)
Publication Information
The KIPS Transactions:PartC / v.12C, no.6, 2005 , pp. 881-890 More about this Journal
Abstract
Over for the past 10 years, the increase in geometric progression for the internet traffic, has allowed the IP protocol framework to be the most important network technology. In addition, the internet service is being developed as a service mode differentiated, aiming to support the new-mode real-time multimedia services such as internet phone, video conference, cyber reality, and internet game, focusing on offering a latest service. These days, aiming to solve the need for broad bandwidth along with guaranteeing QoS, the WDM technology of offering multiple gigabit wavelengths is emerging as the core technology of next-generation optical internet backbone network. In the next-generation optical internet backbone network based on WDM, the QoS framework is one of fore subjects aiming to offer a service of guaranteeing QoS This study analyzes the requirements of performance related to QoS framework in IP Subnet and in WDM optical backbone network, and suggests optical QoS service framework differentiated. in order to guarantee end-to-end QoS through the next-generation optical internet backbone network, using GMPLS control protocol.
Keywords
Wavelength Assignment; Network Survivability; QoS Recovery; DWDM;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Peter AshwoodSmith et al., 'Generalized MPLS-Signaling Functional Description', Internet Draft, IETF, November, 2001
2 S. Shenker et aI., 'SpecIPication of Guaranteed Quality of Service', RFC 2212, IETF, Sep., 1997
3 Peter AshwoodSmith et al., 'Generalized MPLS Signaling-RSVP-TE Extensions', Internet Draft, IETF, November, 2001
4 B. Jamoussi et al., 'Constraint-Based LSP Setup using LDP', RFC 3212, IETF, Jan., 2002
5 R. Braden et aI., 'Resource ReSerVation Protocol (RSVP) Version 1 Functional Specification', RFC 2205, IETF, Sep., 1997
6 G. Bendelli et al. : 'Optical performance monitoring techniques', ECOC 2000, Munich, 7 September, 2000, paper 11.4.1, pp.113-116
7 E. Rosen et al., 'MPLS Label Stack Encoding', RFC 3032, IETF, January, 2001
8 Jin Ho Hahm, Kwang-il Lee et al., 'Restoration Mechanisms and Signalling in Optical Networks', Internet Draft, IETF, November, 2001
9 C.Villamizar, 'Dynamic Behavior of MPLS Traffic Engineered Networks', MPLS 2000, October, 1997
10 KDDI's White Contribution D.97(WP4I15) : 'Recent technical information on C- and L-bands in optical transmission systems' of Rec. G.dsn, February, 2001
11 Lucent's White Contribution COM 15-39-E: 'L-AND CBADN ATTENUATION IN INSTALLEDFIBRE LINKS'
12 Peter AshwoodSmith et al., 'Generalized MPLS SignalingCR-LDP Extensions', Internet Draft, IETF, November, 2001
13 Jonathan P. Lang et al., 'Link Management Protocol', Internet Draft, IETF, March, 2002
14 Rec. G.976: 'Test methods applicable to optical fibre submarine cable systems', COM15R68(TSB, 7 Nov., 1996), Sect. 7.6.1.1: 'Measurement of Q-Factor', pp.172-174 and Annex A,4: 'Q-factor' p.178
15 V. Jacobson et al., 'An Expedited Forwarding PHB', RFC 2598, IETF, June, 1999
16 J. Heinanen et al., 'Assured Forwarding PHB Group', RFC 2597, IETF, June, 1999
17 Panos Trimintzios et al., 'A Management and Control Architecture for Providing IP Differentiated Services in MPLS-Based Networks', IEEE Communications Magazine, May, 2001   DOI   ScienceOn
18 R. Braden et al., 'Integrated Services in the Internet Architecture: An Overview', RFC 1633, IETF, June, 1994
19 S. Blake et al., 'An Architecture for DIPferentiated Services', RFC 2475, IETF, December, 1998
20 E. Rosen, A. Viswanathan, R. CalIon, 'Multiprotocol Label Switching Architecture', RFC 3031, IETF, January, 2001