Paper Info
Title
Designing a binary controller to enhance end-to-end congestion control
Abstract
Active queue management (AQM) is proposed to enhance end-to-end congestion control through purposefully dropping packets in the intermediate nodes. In this letter, a novel packet dropping mechanism is developed through designing a binary controller applying the robust control theory. The new mechanism can simplify the manipulation on the AQM router so as to be helpful for implementing the high performance router. The numerical simulation results show that the binary controller can satisfy with the technical requirements for AQM
Year
DOI
Venue
2006
10.1109/LCOMM.2006.060111
IEEE Communications Letters
Keywords
Field
DocType
binary controller,congestion control,robust control,active queue management,telecommunication congestion control,queueing theory,variable structure control,telecommunication network management,end-to-end congestion control,aqm router,robust control theory,satisfiability,control theory,control systems,algorithm design and analysis,probability,numerical simulation,feedback control,indexing terms,random number generation,sliding mode control
Control theory,Computer science,Control theory,Active queue management,Network packet,Computer network,Queueing theory,Network congestion,Router,Robust control,Variable structure control
Journal
Volume
Issue
ISSN
10
12
1089-7798
Citations 
PageRank 
References 
0
0.34
5
Authors
4
Name
Order
Citations
PageRank
Fengyuan Ren193183.57
Xunhe Yin2453.93
Xiaomeng Huang332530.87
Chuang Lin43040390.74