Yasser Albagory; Fahad Al Raddady

High-Altitude Platforms Cellular System for Sparsely Populated Areas

Full Text (PDF, 408KB), PP.13-20

Views: 0 Downloads: 0

Author(s)

Yasser Albagory ^1,* Fahad Al Raddady ¹

1. College of Computers and Information Technology, Taif University, Taif, Saudi Arabia

* Corresponding author.

DOI: https://doi.org/10.5815/ijcnis.2014.04.02

Received: 27 Jun. 2013 / Revised: 11 Oct. 2013 / Accepted: 26 Dec. 2013 / Published: 8 Mar. 2014

Index Terms

Cellular Communications, High altitude platforms, directional antennas, phased antenna arrays

Abstract

In this paper, the cellular communications using high altitude platform (HAP) will be discussed including the coverage analysis and design. The cells are analyzed showing the main parameters affecting its shape, layout and area which are important in the cellular design stage. This HAP cellular system is very important to cross the gap of difficult extension of ground infrastructure especially for sparsely populated areas needing communications services. The system design is explained where the footprint of the HAP cell is demonstrated and the overall cellular layout is established. As a case study, the coverage of the HAP cellular system is proved to cover some areas in the Kingdom of Saudi Arabia (KSA) using several scenarios such as populated as well as long highways passing through desert areas. The HAP cells are generated using spot-beam antennas which are practically candidate. The simulation results show that a single HAP can provide hundreds of microcells for urban areas while covering very long highways that can extend to several hundreds of kilometers which is very useful in covering the long highways linking sparsely separated cities in KSA.

Cite This Paper

Yasser Albagory, Fahad Al Raddady, "High-Altitude Platforms Cellular System for Sparsely Populated Areas", International Journal of Computer Network and Information Security(IJCNIS), vol.6, no.4, pp.13-20, 2014. DOI:10.5815/ijcnis.2014.04.02

Reference

[1]F. N. Pavlidou, M. Ruggieri, M. Gerla, R. Miura, “Communications via High Altitude Platforms: Technologies and Trials”, International Journal of Wireless Information Networks, Vol. 13, No. 1, pp 1-4, January 2006.
[2]A. Mohammed, S. Arnon, D. Grace, M. Mondin and R. Muira, “Advanced Communication Techniques and Applications for High Altitude Platforms”, EURASIP International Journal of Communications and Networking, 2008. Editorial to the special issue.
[3]S. Karapantazis and F. N. Pavlidou, “The role of high altitude platforms in beyond 3G networks”, IEEE Wireless Communications Magazine, Vol. 12, No. 6, pp. 33-41, 2005.
[4]A. Mohammed, A. Mehmood, F. N. Pavlidou and M. Mohorcic, “The Role of High-Altitude Platforms (HAPs) in the Wireless Global Connectivity”, Proceedings of the IEEE, Vol. 99, No. 11, pp. 1939 – 1953, Nov. 2011.
[5]J. Kim, D. Lee, J. Ahn, D. S. Ahn and B. J. Ku, “Is HAPS Viable for the Next-Generation Telecommunication Platforms in Koria”, EURASIP Journal on Wireless Communications and Networking, Vol. 2008, doi: 1155/2008/596383, 2008.
[6]P. Pace and G. Aloi, “Disaster Monitoring and Mitigation using Aerospace Technologies and Integrated Telecommunication Networks”, IEEE Aerospace and Electronic Systems Magazine, Vol. 23, No. 4, pp. 3-9, April 2008.
[7]J. Thornton, D.A.J. Pearce, D. Grace, M. Oodo, K. Katzis and T.C. Tozer, “Effect of Antenna Beam Pattern and Layout on Cellular Performance in High Altitude Platform Communications”, Wireless Personal Communications, Vol. 35, pp. 35-51, 2005.
[8]Yasser Albagory Moawad Dessouky, Hamdy Sharshar, “Geometrical Analysis of High Altitude Platforms Cellular Footprint,” Progress In Electromagnetics Research, PIER 67, pp. 263-274, 2007.
[9]J. Thornton, “A Low Sidelobe Asymmetric Beam Antenna for High Altitude Platform Communications”, IEEE Microwave and Wireless Components Letters, Vol. 14, No. 2, pp. 59-61, February 2004.
[10]M. Dessouky, H. Sharshar, Y. Albagory, “Improving The Cellular Coverage from A High Altitude Platform by Novel Tapered Beamforming Technique”, Journal of Electromagnetic Waves and Applications, JEMWA, Vol.21, No.13, pp. 1721 –1731, 2007.
[11]Yasser Albagory, “A Novel Design of Arbitrary Shaped Cells for Efficient Coverage from High Altitude Platforms", Progress In Electromagnetics Research Letters, Vol. 1, 245-254, 2008.
[12]L. Boccia, P. Pace, G. Amendola, G. D. Massa, “Low Multipath Antennas for GNSS-based Attitude determination Systems Applied to High Altitude Platforms”, GPS Solutions, Vol. 12, No. 3, pp. 163-171, July 2008.
[13]Yasser Albagory, “Sectorized Hamming Concentric Circular Arrays for Stratospheric Platforms Cellular Design”, International Journal of Computer Network and Information Security, Vol. 5 No. 9, pp. 21-27, 2013.
[14]M. Nofal, S. Aljahdali and Y. Albagory, “Tapered Beamforming for Concentric Ring Arrays”, AEU International Journal of Electronics and Communications, Vol. 67, No. 1, pp. 58-63, 2013.
[15]Yasser Albagory, Moawad Dessouky, Hamdy Sharshar, “Design of High Altitude Platforms Cellular Communications,” Progress In Electromagnetics Research, PIER 67, pp. 251-261, 2007.

International Journal of Computer Network and Information Security (IJCNIS)