Bimodal packet distribution in loss systems using maximum Tsallis entropy principle

Author

Sharma, Shantanu ; Karmeshu

Author_Institution

IBM Res. Lab., New Delhi

Volume

56

Issue

9

fYear

2008

fDate

9/1/2008 12:00:00 AM

Firstpage

1530

Lastpage

1535

Abstract

A theoretical model of loss system is proposed and analysed within the framework of maximum Tsallis entropy principle. The study provides an explicit expression for state probability distribution of packets in presence of long-range dependent traffic. The unimodal state probability distribution corresponding to well-known Erlang´s loss formula is recovered for Tsallis entropy parameter q = 1. As the parameter q is lowered from unity, it is shown that the state probability distribution makes a transition from unimodal to bimodal. The emergence of bimodality can be regarded as a consequence of long-range dependence. The implication of the model in the design of loss systems is discussed.

Keywords

maximum entropy methods; statistical distributions; telecommunication congestion control; Erlang´s loss formula; bimodal packet distribution; bimodality; long-range dependent traffic; loss systems design; maximum Tsallis entropy principle; unimodal state probability distribution; Computer networks; Distributed computing; Entropy; Loss measurement; Multiplexing; Performance loss; Probability distribution; Queueing analysis; Telecommunication traffic; Traffic control; Erlang´s loss formula; LRD traffic; Loss system; Tsallis entropy; bimodal packet distribution; generalized; maximum entropy principle;

fLanguage

English

Journal_Title

Communications, IEEE Transactions on

Publisher

ieee

ISSN

0090-6778

Type

jour

DOI

10.1109/TCOMM.2008.060404

Filename

4623808