Abstract
In this paper we present a simulation package developed to evaluate and optimize both the channel propagation losses and the multipath dispersion of the indoor optical channel. The simulation package is based on a model of the indoor optical channel which includes the emitter radiation pattern, the channel propagation characteristics and the receiver collecting pattern. We illustrate the use of the simulation package by means of two case studies corresponding to: i) a satellite based cell and ii) a passive reflection based cell. It is seen that optimization of the emitting pattern by tuning the number, orientation and radiation pattern of the LEDs can significantly reduce the worst-case channel losses and increase the channel bandwidth. The channel impulse response changes with the receiver position, therefore, techniques to combat the multipath dispersion have to be used for bit rates higher than a few Mbit/s.
This work is being carried out as part of the ESPRIT.6892 — POWER (Portable Workstation for Education in Europe) project commissioned by the European Community.
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References
F. R. Gfeller and U. H. Bapst. Wireless in-house data communications via diffuse infrared radiation. Proc. IEEE, 67(11), November 1979.
K. Pahlavan. Wireless intraoffice networks. ACM Transactions on Office Information Systems, 6(3), July 1988.
R. Valadas, A. Moreira, and A. Duarte. Hybrid (wireless infrared/coaxial) ethernet local area networks. Proc. of the IEEE International Conference on Wireless LAN Implementation, Sempember 1992.
R. Siegel and J. R. Howell. Thermal Radiation Heat Transfer. Hemisphere Publishing Corp., Washington, 1981.
C. R. A. Lomba. Simulation of multipath impulse dispersion on infrared communication systems. Technical report, University of Aveiro, July 1992.
A. J. C. Moreira, R. Valadas, and A. Duarte. Modulation / encoding techniques for wireless infrared transmission. IEEE 802.11 project, (Doc. n. P802.11-93/79), May 1993.
C. R. A. Lomba, R. Valadas, and A. Duarte. Update of propagation losses and impulse response of the indoor optical channel. IEEE 802.11 project, (Doc. n. P802.11-93/142), September 1993.
J. R. Barry, J. M. Kahn, E. A. Lee, and D. G. Messerschmitt. Simulation of multipath impulse response for indoor wireless optical channels. IEEE J. on Selected Areas in Communications, 11(3), April 1993.
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© 1994 Springer-Verlag Berlin Heidelberg
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Lomba, C.R.A.T., Valadas, R.T., de Oliveira Duarte, A.M. (1994). Propagation losses and impulse response of the indoor optical channel: A simulation package. In: Günther, C.G. (eds) Mobile Communications Advanced Systems and Components. IZS 1994. Lecture Notes in Computer Science, vol 783. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-57856-0_27
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DOI: https://doi.org/10.1007/3-540-57856-0_27
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