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Detail projektu
Období řešení: 01.07.2019 — 31.12.2021
Zdroje financování
Ministerstvo průmyslu a obchodu ČR - TRIO
- plně financující (2019-06-10 - 2021-12-31)
O projektu
Popis anglickyThe aim of the project is to design and develop a new system for internal positioning with the use of sensors and new hybrid signal measurement methods along with space localization technology called the Ultra Wide Band (UWB). The aim of this system is to (i) increase the accuracy, stability and efficiency of localization, (ii) reduce energy consumption, (iii) increase system adaptability and scalability. Another goal of the new system is to provide a new 3D localization and localization solution for nonstandard conditions or environments. This system will enable real-time localization of goods, materials, persons or vehicles in the work process, enabling automation, visualization and control of the manufacturing processes of industrial entities (e.g. car industry, breweries, warehouses, logistics, wholesalers, mining mines, etc.) Another added value of the new system is the ability to quickly searching of objects / units (unit visibility and availability), process statistics, zone and perimeter settings, zone occupancy, load statistics and production line breaks. This leads to loss reduction, optimization of process / production times and fluidity / automation of individual production stages or physical safety of persons (main goals of Industry 4.0 concept).
Klíčová slova anglickypositioning- Ultra Wide Band- MEMS- time of arrival- Industry 4.0- work processes- 3D
Označení
FV40371
Originální jazyk
čeština
Řešitelé
Mlýnek Petr, doc. Ing., Ph.D. - hlavní řešitelHošek Jiří, doc. Ing., Ph.D. - spoluřešitel
Útvary
Ústav telekomunikací- příjemce (22.10.2018 - nezadáno)
Výsledky
MAŠEK, P.; SEDLÁČEK, P.; OMETOV, A.; MEKYSKA, J.; MLÝNEK, P.; HOŠEK, J.; KOMAROV, M. Improving the Precision of Wireless Localization Algorithms: ML Techniques for Indoor Positioning. In 43nd International Conference on Telecommunications and Signal Processing (TSP 2020). IEEE, 2020. p. 1-6. ISBN: 978-1-7281-6376-5.Detail
ŠTŮSEK, M.; MOLTCHANOV, D.; MAŠEK, P.; ANDREEV, S.; KOUCHERYAVY, Y.; HOŠEK, J. Time-Dependent Propagation Analysis and Modeling of LPWAN Technologies. In 2020 IEEE Global Communications Conference. 2020. p. 1-6. ISBN: 978-1-7281-7307-8.Detail
MLÝNEK, P.; UHER, V.: Behav; Software pro vizualizaci. Ústav telekomunikací Technická 3082/12 616 00 Brno Česká republika. URL: https://www.utko.fekt.vut.cz/software-pro-vizualizaci-0. (software)Detail