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Deployment of a freely available simulation tool in laboratory exercises
Nečas, Marek ; Tomašov, Adrián (referee) ; Horváth, Tomáš (advisor)
The aim of this thesis was the design of laboratory exercises for classes in communication networking. The exercises focus on the physical layer of backbone optical networks and use an open-source simulator GNPy. The theoretical part of the thesis reviews the properties of essential components which determine the signal quality in transparent optical networks, i.e., optical fibers and amplifiers. Further, OSNR and GSNR are described as quantitative measures of signal quality degradation, and the GNPy application is introduced which enables the calculation of these measures in a real-network model. The practical part consists of instructions for two laboratory exercises, including theoretical background and closing problems which check the understanding of the topic.
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Laboratory exercises: Modulation in optical networks
Jurkovič, Martin ; Horváth, Tomáš (referee) ; Münster, Petr (advisor)
The thesis deals with the issue of optical communication systems, which are increasingly used for high-speed data transmissions. The basic principles of signal transmission over optical fibres are described. Furthermore, the techniques accompanying this transmission are outlined. In particular, the focus is on modulations, which undeniably help to increase the transmission speed of the communication. Closely related to the modulation process is the topic of optical modulators and the principle of optical signal detection, which are also included in the work. A simulation application has been created in Python on the discussed topic, the description and creation of which is summarized in the thesis. Using this application, the design of two laboratory tasks was subsequently carried out to demonstrate and help to better understand the issue of fiber optic communication.
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XGPON module for Wireshark
Šuba, Patrik ; Horváth, Tomáš (referee) ; Tomašov, Adrián (advisor)
The master's thesis deals with the design of a PcapNG file format for supporting XG-PON data and explores the possibilities of creating a module. The aim is to create a module as a technical tool for detailed analysis and diagnostics of XG-PON networks. The file design proposal consists of packet processing by a network analyzer and the creation of PcapNG format blocks. This file design proposal is implemented in a program written in the Python language. The Wireshark module is implemented in the LUA programming language which have native support for utilizing the new link layer. The use of the module involves configuring the application to support the XG-PON protocol and utilizing the module itself, which can process XG-PON frames in both directions of communication in the proposed PcapNG file. An important part was the verification of the module's functionality on data from an available XG-PON network, demonstrating its ability to correctly process data from a real environment. The result of the work is a tool for the analysis and diagnosis of XG-PON networks, which can contribute to better management of these modern optical networks.
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Hollow core optical fibers
Burian, Radek ; Horváth, Tomáš (referee) ; Münster, Petr (advisor)
The main goal of this work is to study of optical hollow core fibers and the optimalization of the splicing process for interconnection between hollow core fiber and single mode fiber. The splicing automat Fujikura FSM-100P is used in this work. On this automat is created a new splicing profile for our connection. Created splicing profile is applied to various connection methods and has been tracked a considerable impact on reducing backscattering at a splice point.
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Design of laboratory activities for Telecommunication network services course
Dúbravka, Adrián ; Tomašov, Adrián (referee) ; Horváth, Tomáš (advisor)
This master's thesis focuses on designing three laboratory tasks for the subject of Telecommunication Network Services. The aim of this work is to develop education in the field of telecommunication networks through practice-oriented tasks. The work begins with a theoretical introduction that addresses current requirements for metallic and optical networks. It thoroughly examines the various services and approaches used in these networks. The theoretical part specifically focuses on the IXIA network analyzer, which is presented as a key tool for analysis and testing in laboratory conditions, including its advantages and limitations. In the practical part of the work, the design of three laboratory tasks integrated into the course is presented. These tasks are designed to correspond to realistic network scenarios and provide students with practical skills with devices and software. The first task involves working with the IXIA network generator, the second task focuses on simulation and testing using the GNS3 software and the third task thoroughly analyzes the DOCSIS system, its configuration, and functionality.
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Design and implementation of network collector
Bošeľa, Jaroslav ; Horváth, Tomáš (referee) ; Oujezský, Václav (advisor)
This master’s thesis deals with description of information protocol of network flow, mainly definition of Cisco NetFlow version 9. Describes it’s features, message format and attributes of transmitted data. The thesis is primarly focused onto NetFlow v9 transmitted template, which defines fileds and data in consecutive data flow. The essence of the thesis consists in implementation of simple NetFlow v9 parser, which has been programmed in Python prog.language, it’s tests of captured UDP data from file and port capture testing on development server in lab. There is a possibility of saving captured and parsed data into prepared database within implementation as output from capturing.
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Software defined optical network
Kloda, Tomáš ; Horváth, Tomáš (referee) ; Kočí, Lukáš (advisor)
This thesis is focused on explanation of software defined networking and communication via OpenFlow protocol with description of transmitted messages. This thesis deals with software defined optical networking, which describes combinations of OpenFlow with other technologies and methods to control the optical path. In another part, the thesis is focused on the description of the physical layer of optical backbone networks, where there is a description of multiplexers, DWDM technology and optical elements. This thesis also includes designs of software defined optical network with implementation of extended header for transmission in the optical domain. Outcome of this thesis are simulations, which include synchronization between the elements during initialization of software defined optical network with occurence of delay. At the end, the thesis is focused on simulations of the actual data transfer within the proposed software defined optical network.
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Seismic activity measurement using fiber optic sensors
Vaněk, Stanislav ; Horváth, Tomáš (referee) ; Vojtěch, Josef (advisor)
The aim of master's thesis is to get familiarized with the problems of measurement and analysis of seismic waves. Theoretical part deals with the description of seismic waves, especially their types, sources and properties. Attention was afterwards focused on the measurement systems of these waves, emphasis was placed on their principles and advantages. The practical part discusses methods of noise reduction and highlighting of significant events in measured data. At the end, individual methods are implemented into user-friendly graphical interface.
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Connection simulation between master and end unit in passive optical networks
Moravcová, Klára ; Kočí, Lukáš (referee) ; Horváth, Tomáš (advisor)
The purpose of this bachelor’s thesis is to introduce and explain the standards of passive optical networks, their way of establishing connection between master unit and end unit in a network, as well as creating a working simulation in Matlab. The first chapter of this thesis covers the description of optical networks. In the chapter, individual layers of the GPON standard by ITU-T and the EPON standard by IEEE are described. The process of an ONU unit activation towards the OLT unit of these standards is covered in detail. The thesis describes the following standards: EPON, GPON, 10G-EPON, XGPON and NG-PON2. The practical part covers the simulations of the mentioned standards, which are displayed in the form of graphs. The results are interpreted through comparison of the graphs with various input parameters (number of connected ONU units and the length of the distribution network) with a final evaluation of these results.
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