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Model of optical network for high-speed data transfer
Filip, Tomáš ; Šporik, Jan (referee) ; Tejkal, Vladimír (advisor)
The main goal of this diploma thesis is to design of high-speed optical network. The first part deals with theoretical knowledge in the field of optical transmissions, especially principle of wavelength division multiplexing. Generally speaking, this part is dedicated to optical connections over long distances. It will concentrate on different types of wavelength division multiplexing, optical fiber amplifiers and other basic optical components. Then it discusses influence of negative effects acting on optical transmission and discusses how to reduce or suppress their influence. Subsequently, there is designed backbone network in the Czech Republic in OptiSystem 7.0 software and are verified some mentioned theoretical knowledge. One of chapters also presents results of measurements of real optical routes in our state. The second part of the diploma thesis moves its attention on that part of optical network, which provides data connectivity to end users, that means it is focused on optical access network. There are described the most common topologies, standards and components. Based on these findings, in the last chapter, there is worked out design of optical access network FTTH (more precisely FTTD) in the selected location. Afterwards, the design is transferred to the OptiSystem 7.0 software, where is verified its functionality.
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Application of the new technologies in optical access networks
Ryšavý, Jan ; Münster, Petr (referee) ; Šifta, Radim (advisor)
The aim of the thesis is get theoretical knowledge of the latest components used in optical access networks and subsequently get knowledge practical experience in design and simulation of these networks. The thesis is divided in two different parts. In the first part of this work are given theoretical knowledge AWG multiplexers and other modern elements used in optical access networks. The second part deals with the design and simulation of optical access networks using wavelength and time division.
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Application of the new technologies in optical access networks
Ryšavý, Jan ; Münster, Petr (referee) ; Šifta, Radim (advisor)
The aim of the thesis is get theoretical knowledge of the latest components used in optical access networks and subsequently get knowledge practical experience in design and simulation of these networks. The thesis is divided in two different parts. In the first part of this work are given theoretical knowledge AWG multiplexers and other modern elements used in optical access networks. The second part deals with the design and simulation of optical access networks using wavelength and time division.
|
|
|
Model of optical network for high-speed data transfer
Filip, Tomáš ; Šporik, Jan (referee) ; Tejkal, Vladimír (advisor)
The main goal of this diploma thesis is to design of high-speed optical network. The first part deals with theoretical knowledge in the field of optical transmissions, especially principle of wavelength division multiplexing. Generally speaking, this part is dedicated to optical connections over long distances. It will concentrate on different types of wavelength division multiplexing, optical fiber amplifiers and other basic optical components. Then it discusses influence of negative effects acting on optical transmission and discusses how to reduce or suppress their influence. Subsequently, there is designed backbone network in the Czech Republic in OptiSystem 7.0 software and are verified some mentioned theoretical knowledge. One of chapters also presents results of measurements of real optical routes in our state. The second part of the diploma thesis moves its attention on that part of optical network, which provides data connectivity to end users, that means it is focused on optical access network. There are described the most common topologies, standards and components. Based on these findings, in the last chapter, there is worked out design of optical access network FTTH (more precisely FTTD) in the selected location. Afterwards, the design is transferred to the OptiSystem 7.0 software, where is verified its functionality.
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