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ŠIROKOPASOVNE KONCENTRACIJSKE TOČKE IN PODPORA ZA ŠIROKOPASOVNI DOSTOP NASLEDNJE GENERACIJE V INFORMACIJSKEM SISTEMU OPERATERJA
ID KLEMENČIČ, TOMAŽ (Author), ID Kos, Andrej (Mentor) More about this mentor... This link opens in a new window

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PID: 20.500.12556/rul/f1a0cd63-ea7d-4635-82c4-730399e5c21f

Abstract
Predmet magistrske naloge je proučitev postavitve širokopasovnih koncentracijskih točk na področju Slovenije in uvedba modula IIEP v informacijske sisteme Telekoma Slovenije. Evropska komisija je leta 2014 objavila Digitalno agendo v kateri je podala cilje, ki predpisujejo visoke prenosne hitrosti na širokopasovnih omrežjih do leta 2020. Glede na predpisane hitrosti se je pojavila potreba po izgradnji novega oz. dograditvi obstoječega širokopasovnega omrežja. Smiselno je bilo definirati metodologijo določanja postavitve širokopasovnih koncentracijskih točk za potrebe načrtovanja gradenj širokopasovnega omrežja. Ugotovljeno je bilo, da bo na področju Slovenije potrebno zgraditi veliko število širokopasovnih koncentracijskih točk in pripadajoče kabelske infrastrukture, kar posledično pomeni masovne vnose kabelskih omrežij v informacijske sisteme telekomunikacijskih operaterjev. V Telekomu Slovenije smo zaznali potrebo po dodatnem modulu, ki bi povezal že obstoječa sistema Network engineer (NE), ki predstavlja fizično stanje omrežja na terenu in Granite inventory (GI), v katerem imamo logično omrežje. Tako smo želeli dopolniti obstoječo verigo orodji in odpraviti težave pri upravljanju kabelskega omrežja v informacijskih sistemih. Glavno težavo je predstavljal dvojni ročni vnos kabelskega omrežja v NE in GI. Modul IIEP omogoča avtomatsko sinhronizacijo podatkov, tako da se z njimi upravlja le v enem sistemu in se nato avtomatsko prenesejo v drugega. V Telekomu Slovenije smo za nosilca glavne baze podatkov o kabelskem omrežju izbrali NE. V prvem delu naloge je predstavljena širokopasovna koncentracijska točka, zahteve za njeno definiranje ter metodologija določanja geografske pozicije. Določitev pozicije nam bo pomagala pri načrtovanju gradenj. Nato sta predstavljena informacijski orodji NE in GI, struktura objektov in principi modeliranja omrežja, kar nam omogoča razumevanje modelov kabelskih omrežij, ki so predstavljeni v nadaljevanju. Pri pripravi modelov smo upoštevali tudi zahteve, ki jih ima modul IIEP. V nadaljevanju naloge je predstavljen modul IIEP, njegova vpetost v arhitekturo informacijskih sistemov Telekoma Slovenije in principi delovanja. Pri implementaciji smo morali prilagoditi njegovo delovanje specifičnim strukturam objektov v informacijskih sistemih Telekoma Slovenije. Poleg tega je bilo potrebno določiti in vzpostaviti mapiranje modelov in atributov med sistemoma NE in GI. V zadnjem delu naloge so predstavljeni trenutni rezultati vpeljave modula IIEP. Celotna vzpostavitev delovanja modula IIEP je namreč dolgotrajen proces in poteka v več fazah, tako da bodo končni rezultati znani po daljšem časovnem obdobju.

Language:Slovenian
Keywords:Širokopasovne koncentracijske točke, dostop naslednje generacije, Granite inventory, Network engineer, IIEP
Work type:Master's thesis
Organization:FE - Faculty of Electrical Engineering
Year:2016
PID:20.500.12556/RUL-84697 This link opens in a new window
Publication date in RUL:31.08.2016
Views:1758
Downloads:393
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Secondary language

Language:English
Title:BROADBAND CONCENTRATION POINTS AND SUPPORT FOR NEXT GENEARATION ACCESS OPERATOR INFORMATION SYSTEM
Abstract:
The main topic of this master thesis is to explore positioning of broadband concentration points in Slovenia and the implementation of IIEP module in IT systems of Telekom Slovenia. European Commission published a Digital Agenda in 2014 in which defined targets which prescribing high transfer speeds on broadband networks in 2020. According to the prescribed speed there was a need to build new or upgrade of the existing broadband network. It was necessary to define the methodology for the positioning of broadband concentration points in the need of design engineering of broadband networks. It was found that the area of Slovenia needed to build a large number of broadband concentration points and associated cable infrastructure what resulting in mass entries cable networks in the information systems of telecommunications operators. In Telekom Slovenia has been identified the need for additional module IIEP (Integrated Inventory Express Pack), which would connect existing Network engineer (NE), which represents the physical status of the network on the ground and Granite inventory (GI), which have logical network. So we want to supplement the existing chain tools and fix problems in the management of the cable network in information systems. The main problem was represented in double manual entry of cable network in the NE and GI. IIEP enables the automatic synchronization of the data, so that they are operated only in a single system and is then automatically transferred to the other. In Telekom Slovenia, NE was selected for master database on networks. The first part of the thesis presents a broadband point of concentration, requirements for its definition and methodology for determining geographical positions. Determination of the position will help us in the planning of the network works. Then presents information tools NE and GI, the structure of objects and principles of modeling networks, which allow us to understand the models of cable networks, which are presented below. In preparing the models we took into account the requirements set by the IIEP module. The following tasks are presented IIEP module and its integration into the architecture of information systems of Telekom Slovenia and principles of operation. In the implementation, we need to adapt its operation to the specific structure of objects in information systems of Telekom Slovenia. In addition, it was necessary to define and establish the mapping models and attributes between systems NE and GI. The last part presents the results of the current deployment module IIEP. The entire establishment of the IIEP module was in fact a long process and takes place in several stages, so that the final results will be known after an extended period of time.

Keywords:Braodband concentration points, next generation access, Granite inventory, Network engineer, IIEP

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