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Explore in All Fields Author Last Channel cloud communication dissertation in multi obscured optical rate wireless Title Graduate Program Keyword Committee Member Abstract explore for Explore. However, the weather dependent reliability of wireless optical links makes it necessary to develop system architectures capable of providing reliable communications in various channel conditions.
It has been shown that through diversity, performance of communication systems can be greatly improved. Third generation networks will be exploiting multi-rate diversity to enhance the provided quality of service.
In this dissertation, we investigate cloud obscured wireless optical links, channel cloud communication dissertation in multi obscured optical rate wireless, and examine system performance enhancement through such channels using multi-rate communications, and provide two system architectures that provide multi-rate communications for wireless optical systems.
Channel models for cloud obscured wireless optical links through Monte Carlo Ray Tracing simulations based on Mie Scattering formulation are developed. Based on the simulation results, empirical formulas for temporal channel models are obtained; which in conjunction with statistical cloud coverage data, show that considerable bandwidth is available; with an average of Using the developed channel models, performance of fractal modulation in cloud obscured channels is investigated. It is shown that fractal systems provide higher reliability that conventional single rate square root raised cosine SRRC systems, achieving bit error rates as low as in 1 Km length channels, with optical thicknesses as high 7.
Optical pulse shaping is also investigated, where an optical pulse shaping technique that can provide arbitrary waveform generation is proposed, capable of eliminating space-time coupling without resorting to the conventionally used spatial filtering.
The results of the optical pulse shaping technique are used in developing all optical transmitter and receiver architectures, capable of multi-rate multi-wavelength communications. It is shown that the performance of short-pulsed multi-rate multi-carrier communications substantially out performs conventional fractal modulation techniques, achieving bit error rates as low as 1 Km length channels with optical thicknesses as high These results combined, show that huge communication speeds at low bit error rates are possible through cloud-obscured channels.
Multi-rate communications provide a simplified system architecture that is capable of providing reliable communications in adverse channel conditions. Open Belal-Thesis. pdf Request paper in alternate format. Link opens the Penn State University Libraries contact form in a new tab to request this paper in an alternate format.
Lecture 24: Mobility and Doppler Effect in Wireless Channels
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Sep 14, · In this dissertation, we investigate cloud obscured wireless optical links, and examine system performance enhancement through such channels using multi-rate communications, and provide two system architectures that provide multi-rate communications for wireless optical blogger.com by: 14 Channel Cloud Communication Dissertation In Multi Obscured Optical Rate Wireless. that a college Channel Cloud Communication Dissertation In Multi Obscured Optical Rate Wirelesspaper is a piece of cake until they actually encounter a term paper. This /10() We deliver polished, flawless grammar and composition to guarantee the academic success of ESL and American students. When you submit our work, you can be Channel Cloud Communication Dissertation In Multi Obscured Optical Rate Wireless confident that it is ready to hand in to your teacher or professor. Better grades, less hassle!/10()
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