Long-haul very high bit rate transmission systems and all optical synchronous multiple access fiber networks using OTDM and optical amplifiers.
Item
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Title
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Long-haul very high bit rate transmission systems and all optical synchronous multiple access fiber networks using OTDM and optical amplifiers.
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Identifier
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AAI9530883
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identifier
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9530883
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Creator
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Issa, Hanaa Ibrahim.
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Contributor
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Advisers: Herbert Kayser | Samir Ahmed
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Date
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1995
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Language
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English
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Publisher
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City University of New York.
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Subject
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Engineering, Electronics and Electrical
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Abstract
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This thesis seeks to more effectively exploit the enormous inherent bandwidth of optical fibers by combining them with the tremendous potential functional capability of semiconductor optical amplifiers (SOAs). This can be achieved by further developing novel optical multiplexing schemes. The work proposed here, therefore, focuses on developing a novel Optical Time-Division Multiplexing technique for use in ultra high-speed transmission systems. Our emphasis is on both very high bit-rate point-to-point transmission systems and multiple-access local loop networks. The overall objective of this work is to investigate and analyze, through computer simulation and modeling, the performance of all the critical elements necessary for the implementation of high-capacity, high-performance, cost-effective, reliable point-to-point and multiaccess transmission systems based on time division optical fiber communications technology. We will investigate OTDM networking architectures and technology as well as the potential and limitations of long-haul very high bit-rate point-to-point OTDM transmission systems. The network technology element of this work aims to define the physical components and network elements that are necessary to assemble a reconfigurable, diverse OTDM network. The network architecture element specifically addresses several new topologies, such as rings and stars.;Eventually, we want to be able to model the end-to-end performance of any signal that passes through the network. This will permit us to compare and devise candidate survivable OTDM architectures and determine the appropriate field of use for each. In addition, this will enable us to determine how to use the capabilities of each architecture to best advantage and provide insight into which OTDM architecture should be stressed.
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Type
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dissertation
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Source
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PQT Legacy CUNY.xlsx
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degree
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Ph.D.
