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Link capacity sharing between guaranteed- and best effort services on an ATM transmission link under GoS constraints
Mobile Networks- and Systems Research, Ericsson Radio Systems, Sweden.ORCID iD: 0000-0002-2289-3159
2001 (English)In: Telecommunications Systems, ISSN 1018-4864, E-ISSN 1572-9451, Vol. 17, no 1, 93-114 p.Article in journal (Refereed) Published
Abstract [en]

While link allocation policies in multi-rate circuit switched loss models have drawn much attention in recent years, it is still an open question how to share the link capacity between service classes in a fair manner. In particular, when an ATM link is offered calls from service classes with/without strict QoS guarantees one is interested in link capacity sharing policies that maximize throughput and keep the per-class blocking probabilities under some GoS constraints. In this paper we propose a model and associated computational technique for an ATM transmission link to which CBR/VBR and ABR classes offer calls. We also propose a simple link allocation rule which takes into account blocking probability constraints for the CBR/VBR calls and a throughput constraint for the ABR calls and attempts to minimize the blocking probability of ABR calls. Numerical examples demonstrate the effectiveness of the policy and of the applied computational technique.

Place, publisher, year, edition, pages
2001. Vol. 17, no 1, 93-114 p.
National Category
Electrical Engineering, Electronic Engineering, Information Engineering
Identifiers
URN: urn:nbn:se:kth:diva-203015DOI: 10.1023/A:1016604103392ISI: 000168979100004OAI: oai:DiVA.org:kth-203015DiVA: diva2:1080784
Conference
1996, ATM FOR APR BOBBIO A, 1990, STOCHASTIC MODELS, V6, P133 BONOMI F, 1995, IEEE NETWORK, V9, P25 BORST SC, 1998, IEEE J SEL AREA COMM, V16, P668 CHEN TM, 1996, IEEE COMMUNICATI MAY, P56 CHOUDHURY G, 1995, AT T TECHNICAL J JUL, P50 DZIONG Z, 1994, IEEE T COMMUNICATION, V42 FARAGO A, 1995, IEEE J SELECTED AREA, V13 FENG WC, 1999, IEEE ACM T NETWORK, V7, P173 FODOR G, 1998, P IEE INT C COMM ICC, V3, P1696 KAUFMAN J, 1981, IEEE T COMMUN, P1474 MARSAN MA, 1997, 5 INT C TEL SYST MOD, P248 MITRA D, 1996, IEEE ACM T NETWORK, V4, P531 MITRA D, 1998, IEEE J SEL AREA COMM, V16, P692 NILSON AA, INT TEL C ITC 15, P1359 NORDSTROM E, 1997, P 15 INT C TEL ITC 1 ODA T, 1990, IEEE T COMMUN, V38, P1078 ROBERTS JW, 1988, IEICE T COMMUN, V81, P824 ROBERTS JW, 1996, METHODS PERFORMANCE ROBERTS JW, 1998, PERFORMANCE MANAGEME, P277 ROSENBERG S, 1998, IEEE COMMUN MAG, V36, P88 ROSS KW, 1989, IEEE T COMMUN, V37, P934 ROSS KW, 1995, MULTISERVICE LOSS MO SERRES YD, 1988, IEEE T COMMUN, V36, P675 SMITH A, 1996, COMPUT NETWORKS ISDN, V28, P635 STEWART WJ, 1994, INTRO NUMERICAL SOLU SYKAS ED, 1991, IEEE J SELECTED AREA, V9 TELEK M, 1999, PERFORM EVALUATION, V36, P95
Note

QC 20170314

ScopusID: 23044526731

Available from: 2017-03-11 Created: 2017-03-11 Last updated: 2017-03-14Bibliographically approved

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CiteExportLink to record
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Citation style
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