JOURNAL ARTICLE
Fairness criterion for allocating resources ininput queued switches
Year: 2001 Journal: Electronics Letters Vol: 37 (19)Pages: 1205-1206 Publisher: Institution of Engineering and Technology
Abstract
A new fairness criterion, queue proportional fairness (QPF), is proposed. It employs the cell loss ratio as the fairness metric to improve the utilisation of switch resources. QPF provides a fairness criterion for allocating bandwidth by considering the current buffer occupancy for best effort traffic in an input queued switch.
Keywords:
Computer science Queueing theory Fairness measure Bandwidth (computing) Queue Computer network Mathematical optimization Performance metric Metric (unit) Throughput Mathematics Telecommunications Engineering Wireless Operations management Economics
Metrics
1
Cited By
0.00
FWCI (Field Weighted Citation Impact)
5
Refs
0.23
Citation Normalized Percentile
Is in top 1%
Is in top 10%
Topics
Interconnection Networks and Systems
Physical Sciences → Computer Science → Computer Networks and Communications
Advanced Optical Network Technologies
Physical Sciences → Engineering → Electrical and Electronic Engineering
Software-Defined Networks and 5G
Physical Sciences → Computer Science → Computer Networks and Communications
Related Documents
JOURNAL ARTICLE
A novel fairness criterion for input queued switches
Year: 2002 Vol: 2 Pages: 1474-1478
JOURNAL ARTICLE
Max-Min Fairness in Input-Queued Switches
Madhusudan HosaagraharaHarish Sethu
Journal: The American Journal of Medicine Year: 2005 Vol: 132 (7)Pages: 781-782
JOURNAL ARTICLE
Fairness criteria for allocating scarce resources
Journal: Optimization Letters Year: 2020 Vol: 14 (6)Pages: 1533-1541
BOOK-CHAPTER
On the fairness of scheduling algorithms for input-queued switches
Dirceu CavendishMark W. GoudreauAtsue Ishii
Teletraffic science and engineering Year: 2001 Pages: 829-841
JOURNAL ARTICLE
Packet-Mode Scheduling with Proportional Fairness for Input-Queued Switches
Journal: IEICE Transactions on Communications Year: 2005 Vol: E88-B (11)Pages: 4274-4284