Performance Analysis of Cellular Wireless Network by Queuing Priority Handoff calls
In this paper, a mathematical model is proposed to
estimate the dropping probabilities of cellular wireless networks by
queuing handoff instead of reserving guard channels. Usually, prioritized
handling of handoff calls is done with the help of guard channel
reservation. To evaluate the proposed model, gamma inter-arrival and
general service time distributions have been considered. Prevention of
some of the attempted calls from reaching to the switching center due
to electromagnetic propagation failure or whimsical user behaviour
(missed call, prepaid balance etc.), make the inter-arrival time of
the input traffic to follow gamma distribution. The performance is
evaluated and compared with that of guard channel scheme.
[1] J. I. Sanchez F. Bercelo and J. Jordon. Inter-arrival time distribution
for channel arrivals in cellular telephony. In Proceedings of the 5th Int.
Workshop on Mobile Multimedia Comm. MoMuc-98., October 12-13,
Berlin, Germany, 1998.
[2] Partha Bhattacharjee and Gautam Sanyal. Congestion control by
restricted flow admission in a multi class network. In Proceedings of
IASTED International Conference (629) on Communication Systemsand
Networks (CSN-2008), Sept. 1-3, Palma de Mallorca, Spain, 2008.
[3] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. A generic
model for prediction of mobility of mobile nodes in cellular networks. In
Proceedings of Int. Conf. on Advanced Computing and Communication
Technologies, pages 410-414, Nov. Panipat, India, 2008.
[4] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. Performance
analysis of cellular wireless networks with non-classical traffic
with and without channel reservation. In Proceedings of IASTED
International Conference on Communication Systems, Networks and
Applications (CSNA-2009), October 12-14, Beijing, China, 2009.
[5] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. Study
and analysis of cellular wireless networks with multiclass traffic. In
Proceedings of IEEE International Conference on Advanced Computing,
March 6-7, Patiala, India, 2009.
[6] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. A
new dynamic guard channel reservation scheme for cellular wireless
networks. Int. J. Communication Networks and Distributed Systems,
5(4):429-443, 2010.
[7] G. Boggia Pietro Camarda and A. D-Alconzo. Modelling of call
dropping in well-established cellular networks. In EURASIP Journal on
Wireless Communications and Networking., Vol. 2007 Article ID 17826,
2007.
[8] E. Chlebus and W. Ludwin. Is handoff traffic really poissonian? In
Proceedings of ICUPC 95, pages 348-353, Tokyo, Japan, 1995.
[9] E. Ekici and C. Ersoy. Multi-tier cellular network dimensioning.
Computer Communications (Elsevier), 7:401-411, 2001.
[10] D. Hong and S. Rappaport. Traffic model and performance analysis
for cellular mobile radio telephone systems with prioritized and
non-prioritized handoff procedures. IEEE Trans. Veh. Technology,
VT(35):77-92, 1986.
[11] A. Jayasuriya. Resource allocation based on probability of handover for
3g wireless networks. In Proceedings of 7th Int. Symposium on Digital
Signal Processing for Communication Systems (DSPCS03), December
Gold Coast, Australia, 2003.
[12] H. H. Liu and Y. T. Guo. Guard channel allocation in integrated
voice/data mobile networks with gurad channel sharing. In Proceedings
of IWCMC06 (ACM), Vancouver, British Columbia, Canada, 2006.
[13] S. Louvros J. Pylarinos and S. Kotsopoulos. Handoff multiple queue
model in microcellular networks. Computer Communications (Elsevier),
30(4):396-403, 2007.
[14] M. Rajaratnam and F. Takawira. Hand-off traffic characterisation in
cellular networks under non-classical arrival and gamma service time
distributions. In Proceedings of IEEE PIMRC-00, pages 1535-1539,
2000.
[1] J. I. Sanchez F. Bercelo and J. Jordon. Inter-arrival time distribution
for channel arrivals in cellular telephony. In Proceedings of the 5th Int.
Workshop on Mobile Multimedia Comm. MoMuc-98., October 12-13,
Berlin, Germany, 1998.
[2] Partha Bhattacharjee and Gautam Sanyal. Congestion control by
restricted flow admission in a multi class network. In Proceedings of
IASTED International Conference (629) on Communication Systemsand
Networks (CSN-2008), Sept. 1-3, Palma de Mallorca, Spain, 2008.
[3] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. A generic
model for prediction of mobility of mobile nodes in cellular networks. In
Proceedings of Int. Conf. on Advanced Computing and Communication
Technologies, pages 410-414, Nov. Panipat, India, 2008.
[4] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. Performance
analysis of cellular wireless networks with non-classical traffic
with and without channel reservation. In Proceedings of IASTED
International Conference on Communication Systems, Networks and
Applications (CSNA-2009), October 12-14, Beijing, China, 2009.
[5] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. Study
and analysis of cellular wireless networks with multiclass traffic. In
Proceedings of IEEE International Conference on Advanced Computing,
March 6-7, Patiala, India, 2009.
[6] Raj Kumar Samanta Partha Bhattacharjee and Gautam Sanyal. A
new dynamic guard channel reservation scheme for cellular wireless
networks. Int. J. Communication Networks and Distributed Systems,
5(4):429-443, 2010.
[7] G. Boggia Pietro Camarda and A. D-Alconzo. Modelling of call
dropping in well-established cellular networks. In EURASIP Journal on
Wireless Communications and Networking., Vol. 2007 Article ID 17826,
2007.
[8] E. Chlebus and W. Ludwin. Is handoff traffic really poissonian? In
Proceedings of ICUPC 95, pages 348-353, Tokyo, Japan, 1995.
[9] E. Ekici and C. Ersoy. Multi-tier cellular network dimensioning.
Computer Communications (Elsevier), 7:401-411, 2001.
[10] D. Hong and S. Rappaport. Traffic model and performance analysis
for cellular mobile radio telephone systems with prioritized and
non-prioritized handoff procedures. IEEE Trans. Veh. Technology,
VT(35):77-92, 1986.
[11] A. Jayasuriya. Resource allocation based on probability of handover for
3g wireless networks. In Proceedings of 7th Int. Symposium on Digital
Signal Processing for Communication Systems (DSPCS03), December
Gold Coast, Australia, 2003.
[12] H. H. Liu and Y. T. Guo. Guard channel allocation in integrated
voice/data mobile networks with gurad channel sharing. In Proceedings
of IWCMC06 (ACM), Vancouver, British Columbia, Canada, 2006.
[13] S. Louvros J. Pylarinos and S. Kotsopoulos. Handoff multiple queue
model in microcellular networks. Computer Communications (Elsevier),
30(4):396-403, 2007.
[14] M. Rajaratnam and F. Takawira. Hand-off traffic characterisation in
cellular networks under non-classical arrival and gamma service time
distributions. In Proceedings of IEEE PIMRC-00, pages 1535-1539,
2000.
@article{"International Journal of Electrical, Electronic and Communication Sciences:52025", author = "Raj Kumar Samanta and Partha Bhattacharjee Gautam Sanyal", title = "Performance Analysis of Cellular Wireless Network by Queuing Priority Handoff calls", abstract = "In this paper, a mathematical model is proposed to
estimate the dropping probabilities of cellular wireless networks by
queuing handoff instead of reserving guard channels. Usually, prioritized
handling of handoff calls is done with the help of guard channel
reservation. To evaluate the proposed model, gamma inter-arrival and
general service time distributions have been considered. Prevention of
some of the attempted calls from reaching to the switching center due
to electromagnetic propagation failure or whimsical user behaviour
(missed call, prepaid balance etc.), make the inter-arrival time of
the input traffic to follow gamma distribution. The performance is
evaluated and compared with that of guard channel scheme.", keywords = "Cellular wireless networks, non-classical traffic, mathematicalmodel, guard channel, queuing, handoff.", volume = "3", number = "4", pages = "639-6", }