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A Study on Threshold-based Admission Control Algorithm for Multicast Service  

Jo Seng Kyoun (Dept. of Engineering, Information and Communications University)
Choi Seong Gon (Dept. of Electrical Electronic Engineering, Chungbuk National University)
Lee Jong Min (Dept. of Engineering, Information and Communications University)
Choi Jun Kyun (Dept. of Engineering, Information and Communications University)
Publication Information
Journal of the Institute of Electronics Engineers of Korea TC / v.42, no.12, 2005 , pp. 1-8 More about this Journal
Abstract
In this paper, we study a call admission control algorithm for supporting multicast service under the BcN environment where broadcasting, communication and Internet are converging to be one. It is necessary to control service requests with a certain criteria in order to guarantee QoS because the system capacity is limited. As a possible solution, we divide one multicast service into 3 classes and set up a threshold per each class to control service request. Especially, for the purpose of system benefit, we define system pay-off rate 'GAIN' with the term 'Reward' and 'Penalty' according to admit and reject service request. And we confine the range of threshold which makes GAIN to be maximized. For the performance analysis, we model the system as M/M/m/m queueing system, investigate GAIN under various conditions and show the effectiveness of the proposed algorithm.
Keywords
AQM; QoS; DT(Dynamic threshold); TCP;
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  • Reference
1 D. Waitzman, C. Partridge and S.Deering, 'Distance Vector Multicast Routing Protocol,' RFC 1075, Nov. 1988
2 T. Maufer and C.Semeria, 'introduction to IP Multicast Routing,' draft-ietf-mboned-intro-multicast-03.txt, Jul. 1997
3 T. Ballardie, P. Francis and J. Crowcroft, 'Core-Based Trees (CBT): An Architecture for Scalable interdomain Multicast Routing,' Proc. ACM SIGCOMM, 1993
4 D. Zappala, 'Alternate path routing for multicast,' Proc. IEEE INFOCOM, vol 3, Mar. 2000   DOI
5 Kleinrock, L., 'Queueing systems, Vol. 1: Theory,' John Wiley and sons, New York, 1975
6 Mischa, S., 'Telecommunication Networks: Protocols, Modeling and Analysis,' Addison Wesley, 1988
7 Vin, H. M., Goyal, P. 'Algorithm for designing multimedia servers,' Computer Communications, Vol. 18, 1995
8 S. T. Cheng, C. M. Chen and I. R. Chen, 'Performance evaluation of an admission control algorithm: dynamic threshold with negotiation,' Performance Evaluation 52, 2003   DOI   ScienceOn
9 Ramanathan, S.,Rangan, P. V. 'Architecture for personalized multimedia,' IEEE Multimedia, Vol. 1, 1994
10 Chang, E., and Zakhor, A. 'Cost analysis for VBR video servers,' IEEE Multimedia, Vol. 3, 1996
11 Rangan, P. V., Vin,H. M. and Ramanathan, S. 'Designing an on-demand multimedia service,' IEEE Communications, Vol 30, 1992   DOI   ScienceOn
12 장길수, 'BcN 사업의 추진동향 및 제도 정비 방향' 전자정보센터 (IEIC), 2004