Abstract
As an affordable alternative solution for the current generation last mile wireless communication network access, the FSO – Free Space Optical Communication has vast development in supporting of FSO communication. The primary advantages of FSO system are the license free optical nodes, higher data rates, easy to install with less expensive setup. However, obtaining the reliable communication link and higher bandwidth rate still having some difficulties due to environmental interferences. These difficulties plays important role in designing of a strong and high efficient FSO network. In this paper, we propose new approaches based on mixed Integer Programming formulations to design optimized FSO network structure to improve the link availability and high data rate, and also considered the allocation of limited bandwidth. In our analyses result provide right directions to design high efficient reconfigurable FSO network design.
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References
Kedar, D., Arnon, S.: Urban optical wireless communication networks: the main challenges and possible solutions. IEEE Communications Magazine 42, 2–7 (2004)
Langer, K., Grubor, J.: Recent developments in optical wireless communications using infrared and visible light. In: Proceedings of International Conference on Transparent Optical Networks, vol. 3, pp. 146–151 (2007)
Katz, G., Arnon, S., Goldgeier, P., Hauptman, Y., Atias, N.: Cellular over optical wireless networks. IEE Proceedings of Optoelectronics 153, 195–198 (2006)
Last, M., Leibowitz, B., Cagdaser, B., Jog, A., Zhou, L., Boser, B., Pister, K.: Toward a wireless optical communication link between two small unmanned aerial vehicles. In: Proceedings of IEEE International Symposium on Circuits and Systems, vol. 3, pp. 930–933 (2003)
Liu, Q., Qiao, C., Mitchell, G., Stanton, S.: Optical wireless communication networks for first- and last-mile broadband access. Journal of Optical Networking 4, 807–828 (2005) (invited)
Mahdy, A., Deogun, J.: Wireless optical communications: a survey. In: Proceedings of IEEE Wireless Communications and Networking Conference, vol. 4, pp. 2399–2404 (2004)
Ari, F., Ozek, F., Ozturk, O., Geren, O.: Techniques for link security in outdoor mobile laser optical wireless. In: Proceedings of International Conference on Transparent Optical Networks, vol. 3, pp. 160–163 (2006)
Leitgeb, E., Muhammad, S., Flecker, B., Chlestil, C., Gebhart, M., Javornik, T.: The influence of dense fog on optical wireless systems, analyzed by measurements in graz for improving the link-reliability. In: Proceedings of International Conference on Transparent Optical Networks, vol. 3, pp. 154–159 (2006)
Arnon, S., Kopeika, N.S.: Adaptive optical transmitter and receiver for space communication through thin clouds. Applied Optics 36(9), 199–1987 (1997)
Leonardi, E., Mellia, M., Marsan, M.A.: Algorithms for the logical topology design in WDM all-optical networks. Optical Network Magazine 1(1), 35–46 (2000)
Ramaswami, R., Sivarajan, K.: Design of logical topologies for wavelength-routed optical networks. IEEE Journal on Selected Areas in Communications 14, 840–851 (1996)
Xin, C., Wang, B.: Logical topology design for dynamic traffic grooming in mesh WDM optical networks. In: Proceedings of IEEE ICC, vol. 3, pp. 1792–1796 (2005)
IEEE, IEEE std 802.11- Wireless LAN media access control (MAC) and physical layer (PHY) specifications (1997)
Chang, G., Jia, Z., Yu, J., Ellinas, G.: Super broadband optical wireless over optical fiber network architecture. IEEE Lasers & Electro-Optics Society, 344–345 (2006)
Zhuang, J., Casey, Milner, S., Gabriel, S., Baecher, G.: Multi-objective optimization techniques in topology control of free space optical networks. In: Proceedings of IEEE Military Communications Conference, vol. 1, pp. 430–435 (2004)
Kashyap, A., Lee, K., Kalantari, M., Khuller, S., Shayman, M.: Integrated topology control and routing in wireless optical mesh networks. Computer Networks 51(15), 4237–4251 (2007)
Gurumohan, P., Hui, J.: Topology design for free space optical networks. In: Proceedings of IEEE International Conference on Computer Communications and Networks, pp. 576–579 (2003)
Llorca, J., Desai, A., Milner, S.: Obscuration minimization in dynamic free space optical networks through topology control. In: Proceedings of IEEE Military Communications Conference, vol. 3, pp. 1247–1253 (2004)
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Srinivasan, R., Vijayaraj, A. (2011). Mobile Communication Implementation Techniques to Improve Last Mile High Speed FSO Communication. In: Wyld, D.C., Wozniak, M., Chaki, N., Meghanathan, N., Nagamalai, D. (eds) Trends in Network and Communications. WeST NeCoM WiMoN 2011 2011 2011. Communications in Computer and Information Science, vol 197. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-22543-7_6
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DOI: https://doi.org/10.1007/978-3-642-22543-7_6
Publisher Name: Springer, Berlin, Heidelberg
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