Delay analysis of a cellular mobile priority queueing system

A nonpreemptive priority queueing system incorporating a channel reservation policy and a hysteresis mechanism is considered for use in cellular mobile networks. The aim is to provide for priority for handover attempts over new call. Attempts in such a way as to avoid the forced termination of calls...

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Published in	IEEE/ACM transactions on networking Vol. 3; no. 3; pp. 310 - 319
Main Author	McMillan, D.
Format	Journal Article
Language	English
Published	IEEE 01.06.1995
Subjects	Australia Cellular networks Context modeling Delay GSM Hysteresis ISDN Land mobile radio cellular systems Queueing analysis Sprites (computer)
Online Access	Get full text
ISSN	1063-6692
DOI	10.1109/90.392390

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Abstract	A nonpreemptive priority queueing system incorporating a channel reservation policy and a hysteresis mechanism is considered for use in cellular mobile networks. The aim is to provide for priority for handover attempts over new call. Attempts in such a way as to avoid the forced termination of calls in progress without unduly affecting the performance seen by new call attempts. The system model is found to have a matrix-geometric solution with a phase-type distribution for the handover delay and a matrix-exponential distribution for the delay seen by new call attempts. It is also shown that the system can be represented by an M/G/1 queue with multiple vacations. A new result is derived for the M/G/1 queue with multiple vacations and impatient customers and this allows for the analysis to be extended so that new call arrivals are subject to a fixed timeout in queue. Results are provided which show how nonpreemptive priority in conjunction with channel reservation and hysteresis an provide for fast and efficient handover performance for cellular mobile networks.< >
AbstractList	A nonpreemptive priority queueing system incorporating a channel reservation policy and a hysteresis mechanism is considered for use in cellular mobile networks. The aim is to provide for priority for handover attempts over new call. Attempts in such a way as to avoid the forced termination of calls in progress without unduly affecting the performance seen by new call attempts. The system model is found to have a matrix-geometric solution with a phase-type distribution for the handover delay and a matrix-exponential distribution for the delay seen by new call attempts. It is also shown that the system can be represented by an M/G/1 queue with multiple vacations. A new result is derived for the M/G/1 queue with multiple vacations and impatient customers and this allows for the analysis to be extended so that new call arrivals are subject to a fixed timeout in queue. Results are provided which show how nonpreemptive priority in conjunction with channel reservation and hysteresis an provide for fast and efficient handover performance for cellular mobile networks.< > A nonpreemptive priority queueing system incorporating a channel reservation policy and a hysteresis mechanism is considered for use in cellular mobile networks. The aim is to provide for priority for handover attempts over new call attempts in such a way as to avoid the forced termination of calls in progress without unduly affecting the performance seen by new call attempts. The system model is found to have a matrix-geometric solution with a phase-type distribution for the handover delay and a matrix-exponential distribution for the delay seen by new call attempts. It is also shown that the system can be represented by an M/G/1 queue with multiple vacations. A new result is derived for the M/G/1 queue with multiple vacations and impatient customers and this allows for the analysis to be extended so that new call arrivals are subject to a fixed timeout in queue. Results are provided which show how nonpreemptive priority in conjunction with channel reservation and hysteresis can provide for fast and efficient handover performance for cellular mobile networks. A nonpreemptive priority queueing system incorporating a channel reservation policy and a hysteresis mechanism is considered for use in cellular mobile networks. The aim is to provide for priority for handover attempts over new call. Attempts in such a way as to avoid the forced termination of calls in progress without unduly affecting the performance seen by new call attempts. The system model is found to have a matrix-geometric solution with a phase-type distribution for the handover delay and a matrix-exponential distribution for the delay seen by new call attempts. It is also shown that the system can be represented by an M/G/1 queue with multiple vacations. A new result is derived for the M/G/1 queue with multiple vacations and impatient customers and this allows for the analysis to be extended so that new call arrivals are subject to a fixed timeout in queue. Results are provided which show how nonpreemptive priority in conjunction with channel reservation and hysteresis an provide for fast and efficient handover performance for cellular mobile networks
Author	McMillan, D.
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Cites_doi	10.1080/15326348508807014 10.1109/26.2745 10.1109/T-VT.1987.24106 10.1016/0169-7552(90)90008-G 10.1016/0377-2217(83)90077-2 10.1109/35.109664 10.1109/INFCOM.1992.263423 10.1287/opre.37.1.134 10.1007/BF02136169 10.1080/15326348508807007 10.1002/j.1538-7305.1983.tb02297.x
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References	ref13 tijms (ref11) 1986 ref14 doshi (ref18) 1992 ref10 shanthikumar (ref17) 1984; 21 ref2 ref1 ref16 mcmillan (ref15) 1993 ref19 doshi (ref20) 1986 ref8 neuts (ref7) 1981 mcmillan (ref9) 1991 ref3 ref6 ref5 wolff (ref12) 1989 lec (ref4) 1989
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SubjectTerms	Australia Cellular networks Context modeling Delay GSM Hysteresis ISDN Land mobile radio cellular systems Queueing analysis Sprites (computer)
Title	Delay analysis of a cellular mobile priority queueing system
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