Práce a štúdie - Vydanie 16

Permanent URI for this collectionhttps://drepo.uniza.sk/handle/hdluniza/1147

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    Súčasný stav a rozvoj systému pohybových plôch na letisku M. R. Štefánika
    (University of Žilina, 2024) Adamík, Jozef; Kazda, Antonín
    In view of the dynamic development of air transport, it is essential that airport infrastructure is adapted to the requirements of modern aircraft. The thesis analyses the historical development of the infrastructure of M. R. Štefánik Airport (BTS). This research involves guided interviews and questionnaires with seven experts of practice who provided insight into the current state of the BTS airport. These experts were selected from five different areas, including BTS Airport, Air Navigation Service Provider (LPS), noise and vibration assessment (Euroakustik company), runway systems capacity, and the perspective of the Bratislava Metropolitan institute. The aim of the thesis is to propose appropriate recommendations for BTS Airport, the main proposal being the use of one runway (RWY) in 'mix mode' instead of using both RWYs at the same time. This proposal is supported by the cost of the RWY reconstruction, which has been compared with other airports in Europe and North America. To validate the capacity of a single RWY, the Airfield Capacity Spreadsheet Prototype Model (ACRP 79) will be used, in which several inputs have been adjusted according to BTS airport operations such as: aircraft operating from BTS airport, aircraft separations, aircraft approach speeds, and RWY occupancy time. The model simulates operations in August and December 2023 and projected operations in 2028. Other recommendations include modification of some taxiways (TWY), apron modifications, and analysis of the use of jetways on the apron stands. Finally, the impacts of a possible restriction of airport Curfew at BTS are also being examined.
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    Inovatívne technológie a nástroje v procese údržby lietadiel
    (University of Žilina, 2024) Štefaňák, Mattiás; Janovec, Michal
    This master thesis aims to analyze and evaluate innovative technologies and tools through new aircraft maintenance. Through a series of extensive theoretical studies and data obtained during real-life cases, this work will aim to identify the latest trends behind this process and evaluate the impact they have on production, safety, maintenance costs. The most complex theoretical section of the work will be related to such an area as a current state of aircraft maintenance, which in turn will have to integrate dependent trends, such as predictive maintenance, digitization, and state-dependent methods. This part of the work will present the latest technological trends of the industry, such as artificial intelligence and machine learning, 3D printing, augmented reality and virtual reality .The main part of the work will examine the advantages and disadvantages of these technologies, forms of use of AMO technologies, and proposals for improving technologies, such as improving the current use of electronic tablets in the maintenance process, as well as a proposal for the use of AI within the anti-collision system for movement and manipulation of flight on the ground.