Paper Info
Title
Performance analysis of FEC recovery using finite-buffer queueing system with general renewal and Poisson inputs
Abstract
This paper considers the packet recovery performance of forward error correction (FEC) for a single-server queueing system with a finite buffer fed by two independent input processes; one is a general renewal input process in which the interarrival times of packets are independent and identically distributed according to a general distribution, and the other is a Poisson arrival process. We analyze the packet- and block-level loss probabilities, and investigate the recovery performance of FEC at block level. Numerical examples show that the block-loss probability is significantly improved by FEC when the system can only accommodate a small number of packets. It is also shown that FEC recovery is more effective than packet buffering when the traffic intensity is large.
Year
DOI
Venue
2007
10.1007/978-3-540-72990-7_62
International Teletraffic Congress
Keywords
Field
DocType
general renewal input process,independent input process,packet recovery performance,poisson arrival process,recovery performance,block level,poisson input,block-level loss probability,finite-buffer queueing system,performance analysis,single-server queueing system,general distribution,fec recovery,independent and identically distributed,forward error correction
Small number,Forward error correction,Computer science,Network packet,Traffic intensity,Real-time computing,General distribution,Independent and identically distributed random variables,Queueing system,Poisson distribution
Conference
Volume
ISSN
Citations 
4516
0302-9743
2
PageRank 
References 
Authors
0.39
9
4
Name
Order
Citations
PageRank
Shun Muraoka150.83
Hiroyuki Masuyama28611.53
Shoji Kasahara321028.10
Yutaka Takahashi46512.25