Performance Analysis of a Dynamic Channel Reservation-Like Technique for Low Earth Orbit Mobile Satellite Systems
In order to derive important parameters concerning
mobile subscriber MS with ongoing calls in Low Earth Orbit Mobile
Satellite Systems LEO MSSs, a positioning system had to be
integrated into MSS in order to localize mobile subscribers MSs and
track them during the connection. Such integration is regarded as a
complex implementation. We propose in this paper a novel method
based on advantages of mobility model of Low Earth Orbit Mobile
Satellite System LEO MSS which allows the evaluation of instant of
subsequent handover of a MS even if its location is unknown. This
method is utilized to propose a Dynamic Channel Reservation DCRlike
scheme based on the DCR scheme previously proposed in
literature. Results presented show that DCR-like technique gives
different QoS performance than DCR. Indeed, an improve in
handover blocking probability and an increase in new call blocking
probability are observed for the DCR-like technique.
[1] J. Farserotu and R. Prasad, "A Survey of Future Broadband Multimedia
Satellite Systems, Issues and Trends," IEEE Commun. Mag., June 2000,
pp. 128-33.
[2] A. Jamalipour and T. Tung, "The Role of Satellites in Global IT: Trends
and Implications," IEEE Pers. Commun., June 2001, pp. 5-11.
[3] P. K. Chowdhury, M. Atiquzzaman, W. Ivancic, "Handover Schemes in
Satellite Networks: State-of-the-art and future research directions" IEEE
communications surveys 4TH Quarter 2006, Vol. 8, NO. 4
[4] I. F. Akyildiz, H. Uzunalioglu, and M. D. Bender, "Handover
Management in Low Earth Orbit (LEO) Satellite Networks," Mobile
Networks and Applications, vol. 4, no. 4, Dec. 1999, pp. 301-10.
[5] J. Restrepo and G. Maral, "Coverage Concepts for Satellite
Constellations Providing Communications Services to Fixed and Mobile
Users," Space Commun., vol. 13, no. 2, no. 2, 1995, pp. 145-57.
[6] G. Maral, J. Restrepo, E. Del Re, R. Fantacci, and G. Giambene,
"Performance Analysis for a Guaranteed Handover Service in an LEO
Constellation with a ÔÇÿSatellite-Fixed Cell- System," IEEE Trans. Vehic.
Tech., vol. 47, no. 4, Nov. 1998, pp. 1200-14.
[7] Del Re, E., Fantacci, R., and Giambene, G. "Handover queuing
strategies with dynamic and fixed channel allocation techniques in low
earth orbit mobile satellite systems", IEEE Trans. Commun, Vol. 47, no.
1, pp. 89-101. Jan. 1999.
[8] Z. Wang and P. T. Mathiopoulos, "Analysis and performance evaluation
of dynamic channel reservation techniques for LEO mobile satellite
systems," IEEE VTC2001 Spring, VTS 53rd, vol. 4, pp. 2985 -2989,
2001.
[9] . Z. Wang and P. T. Mathiopoulos, "A novel traffic dependent dynamic
channel allocation and reservation technique for LEO mobile satellite
systems" Vehicular Technology Conference, 2002. Proceedings. VTC
2002-Fall. 2002 IEEE 56th Volume 3, Issue , 2002 Page(s): 1652 - 1656
vol.3 "
[10] W. Kiamouche, M. Benslama, "Pseudo Last Useful Instant Queuing
Strategy for Handovers in Low Earth Orbit Mobile Satellite Networks"
International Journal of Information and Communication Engineering
Vol. 4, no. 5 2008, pp. 369-375.
[11] W. Kiamouche, M. Benslama, "A Novel Method For evaluating
Parameters Of Ongoing Calls In Low Earth Orbit Mobile Satellite
System" International Journal of Information and Communication
Engineering Vol. 5, no. 5 2009, pp. 344-348.
[12] E. Del Re, R. Fantacci, and G. Giambene, "Efficient dynamic channel
allocation techniques with handover queuing for mobile satellite
networks," IEEE J. Select. Areas Commun., vol. 13, no. 2, pp. 397-405,
1995.
[13] D. K. Kim and D. K. Sung, "Handoff/resource managements based on
PCV-s and SVC-s in broadband personal communication networks," in
Proc. IEEE GLOBECOM -96, London, U.K., Nov. 18-22, 1996.
[14] K. W. Ross, Multiservice Loss Models for Broadband
Telecommunication Networks. New York: Springer-Verlag, 1995.
[1] J. Farserotu and R. Prasad, "A Survey of Future Broadband Multimedia
Satellite Systems, Issues and Trends," IEEE Commun. Mag., June 2000,
pp. 128-33.
[2] A. Jamalipour and T. Tung, "The Role of Satellites in Global IT: Trends
and Implications," IEEE Pers. Commun., June 2001, pp. 5-11.
[3] P. K. Chowdhury, M. Atiquzzaman, W. Ivancic, "Handover Schemes in
Satellite Networks: State-of-the-art and future research directions" IEEE
communications surveys 4TH Quarter 2006, Vol. 8, NO. 4
[4] I. F. Akyildiz, H. Uzunalioglu, and M. D. Bender, "Handover
Management in Low Earth Orbit (LEO) Satellite Networks," Mobile
Networks and Applications, vol. 4, no. 4, Dec. 1999, pp. 301-10.
[5] J. Restrepo and G. Maral, "Coverage Concepts for Satellite
Constellations Providing Communications Services to Fixed and Mobile
Users," Space Commun., vol. 13, no. 2, no. 2, 1995, pp. 145-57.
[6] G. Maral, J. Restrepo, E. Del Re, R. Fantacci, and G. Giambene,
"Performance Analysis for a Guaranteed Handover Service in an LEO
Constellation with a ÔÇÿSatellite-Fixed Cell- System," IEEE Trans. Vehic.
Tech., vol. 47, no. 4, Nov. 1998, pp. 1200-14.
[7] Del Re, E., Fantacci, R., and Giambene, G. "Handover queuing
strategies with dynamic and fixed channel allocation techniques in low
earth orbit mobile satellite systems", IEEE Trans. Commun, Vol. 47, no.
1, pp. 89-101. Jan. 1999.
[8] Z. Wang and P. T. Mathiopoulos, "Analysis and performance evaluation
of dynamic channel reservation techniques for LEO mobile satellite
systems," IEEE VTC2001 Spring, VTS 53rd, vol. 4, pp. 2985 -2989,
2001.
[9] . Z. Wang and P. T. Mathiopoulos, "A novel traffic dependent dynamic
channel allocation and reservation technique for LEO mobile satellite
systems" Vehicular Technology Conference, 2002. Proceedings. VTC
2002-Fall. 2002 IEEE 56th Volume 3, Issue , 2002 Page(s): 1652 - 1656
vol.3 "
[10] W. Kiamouche, M. Benslama, "Pseudo Last Useful Instant Queuing
Strategy for Handovers in Low Earth Orbit Mobile Satellite Networks"
International Journal of Information and Communication Engineering
Vol. 4, no. 5 2008, pp. 369-375.
[11] W. Kiamouche, M. Benslama, "A Novel Method For evaluating
Parameters Of Ongoing Calls In Low Earth Orbit Mobile Satellite
System" International Journal of Information and Communication
Engineering Vol. 5, no. 5 2009, pp. 344-348.
[12] E. Del Re, R. Fantacci, and G. Giambene, "Efficient dynamic channel
allocation techniques with handover queuing for mobile satellite
networks," IEEE J. Select. Areas Commun., vol. 13, no. 2, pp. 397-405,
1995.
[13] D. K. Kim and D. K. Sung, "Handoff/resource managements based on
PCV-s and SVC-s in broadband personal communication networks," in
Proc. IEEE GLOBECOM -96, London, U.K., Nov. 18-22, 1996.
[14] K. W. Ross, Multiservice Loss Models for Broadband
Telecommunication Networks. New York: Springer-Verlag, 1995.
@article{"International Journal of Electrical, Electronic and Communication Sciences:50239", author = "W. Kiamouche and S. Lasmari and M. Benslama", title = "Performance Analysis of a Dynamic Channel Reservation-Like Technique for Low Earth Orbit Mobile Satellite Systems", abstract = "In order to derive important parameters concerning
mobile subscriber MS with ongoing calls in Low Earth Orbit Mobile
Satellite Systems LEO MSSs, a positioning system had to be
integrated into MSS in order to localize mobile subscribers MSs and
track them during the connection. Such integration is regarded as a
complex implementation. We propose in this paper a novel method
based on advantages of mobility model of Low Earth Orbit Mobile
Satellite System LEO MSS which allows the evaluation of instant of
subsequent handover of a MS even if its location is unknown. This
method is utilized to propose a Dynamic Channel Reservation DCRlike
scheme based on the DCR scheme previously proposed in
literature. Results presented show that DCR-like technique gives
different QoS performance than DCR. Indeed, an improve in
handover blocking probability and an increase in new call blocking
probability are observed for the DCR-like technique.", keywords = "cellular layout, DCR, LEO mobile satellite system,mobility model, positioning system", volume = "5", number = "3", pages = "243-6", }
