Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Zarządzanie wdrażaniem systemów UAV na Słowacji
Języki publikacji
Abstrakty
This paper affirms the anticipated utilisation of UAV (Unmanned Aerial Vehicle) systems in the market environment existing in Slovakia. Significant use of UAV systems can be considered in light of corporate management’s own lack of readiness to employ them practically. The purpose of the article is to monitor the issue in Slovakia and identify the basic starting points that the company needs to solve in the case of process management of the implementation of UAV systems in internal company processes. The methodology of the issue took place through sociological inquiries in the form of questionnaires and document analyses. The result of the investigation is that the Slovak market does not offer relevant data on the active use of UAV systems in the field of ensuring the operation of internal company management processes. Based on the information obtained, it is clear that the need to introduce UAV systems will be crucial in the future, as well as the need to develop recommendations for the process management of the implementation of UAV systems in individual areas of industry in the conditions of Slovakia.
W artykule potwierdzono potencjalne wykorzystanie systemów UAV (Unmanned Aerial Vehicle - bezzałogowych statków powietrznych) w warunkach rynkowychistniejących na Słowacji. Stopień intensywności wykorzystania systemów UAV można rozpatrywać pod kątem braku gotowości kierownictwa przedsiębiorstw do ich praktycznego zastosowania. Celem artykułu jest monitorowanie niniejszej problematyki na Słowacji oraz identyfikacja podstawowych warunków, które przedsiębiorstwo musi spełniać w przypadku procesowego zarządzania implementacją systemów UAV wspierających wewnętrzne procesy firm. Metodologia badawcza obejmowała badania socjologiczne obejmujące kwestionariusze i analizy dokumentów. W wyniku przeprowadzonego badania stwierdzono, że rynek słowacki nie oferuje istotnych danych na temat aktywnego wykorzystania systemów UAV w zakresie zapewnienia funkcjonowania wewnętrznych procesów zarządzania przedsiębiorstwem. Na podstawie uzyskanych informacji można stwierdzić, że potrzeba wprowadzenia systemów UAV będzie w przyszłości kluczowa, jak również istnieje potrzeba opracowania zaleceń dotyczących zarządzania procesami wdrażania systemów UAV w poszczególnych sektorach przemysłu na Słowacji.
Czasopismo
Rocznik
Tom
Strony
172--188
Opis fizyczny
Bibliogr. 35 poz., rys.
Twórcy
autor
- University of Žilina, Faculty of Management Science and Informatics, Slovakia
autor
- University of Žilina, Faculty of Management Science and Informatics, Slovakia
autor
- WSB University, Poland
- University of Johannesburg, South Africa
Bibliografia
- 1.Azpilicueta, L., Vargas, C., Falcone, F. and Alejos, A. (2021). Radio wave propagation in vehicular environments, London, The Institution of Engineering and Technology.
- 2.Blašková, M., Tumová, D. and Mičiak, M. (2022). Taxonomy of factors involved in decisionmaking to sustain organization members' creativity. Administrative Sciences, 12(1), 39.
- 3.Bubeliny, O., Kubina, M. and Varmus, M. (2021). Railway Stations as Part of Mobility in the Smart City Concept. Transportation Research Procedia, 53, 274-281.
- 4.Crumley, B. (2021). Pyromaniac UAV? Australia tests backfire-lighting drones to battle wildfires. Available at: https://dronedj.com/2021/10/22/pyromaniac-uav-australia-testsbackfire-lighting-drones-to-battle-wildfires/ (Accessed 10 October 2022).
- 5.Ekathimerini. (2021). Drone footage shows extent of varybobi fire damage. Available at: https://www.ekathimerini.com/news/1165768/drone-footage-shows-extent-of-varybobifire-damage/ (accessed 15 October 2022).
- 6.Fahlstrom, P.G., Gleason, T.J. (2012). Introduction to UAV Systems, 4 th edition. New York, John Wiley and Sons.
- 7.Golizadeh, H., Hosseini, M.R., Edwards, D.J., Abrishami, S., Taghavi, N. Banihashemi, S. (2019). Barriers to adoption of RPA’s on construction projects: a task-technology fit perspective. Construction Innovation, 19(2), 149-169.
- 8.Hassanalian, M., Abdelkefi, A. (2017). Classifications, applications, and design challenges of drones: A review. Progress in Aerospace Sciences, 91, 99-131.
- 9.Hwang, J., Lee, J. and Kim, H. (2019). Perceived innovativeness of drone food delivery services and its impacts on attitude and behavioral intentions: The moderating role of gender and age. International Journal of Hospitality Management, 81, 94-103.
- 10.Ingaldi, M. (2021). Assessment of the service provision process as a business process management tool. Polish Journal of Management Studies, 23(1), 204-223.
- 11.Jenčová, I. (2021). Európa sa pripravuje na drony. Do roku 2035 ich majú lietať milióny. Available at: https://euractiv.sk/section/obrana-a-zahranicie/news/europa-sa-pripravujena-drony-do-roku-2035-ich-maju-lietat-miliony/ (accessed 15 October 2022).
- 12.Kacvinský, A. (2022). Pravidlá lietania s dronmi. Available at: https://www.aprop.sk/clanok/legislativa-pravidla-lietanie-drony/ (accessed 15 October 2022).
- 13.Kardasz, P., Doskocz, J. (2016), Drones and Possibilities of Their Using. Journal of Civil and Environmental Engineering, 6(3), 233.
- 14.Kita, P., Maciejewski, G., Čvirik, M. Kitová Mazalánová, V. (2022). New factors of consumer behaviour in the context of business models used in retailing during the COVID-19 era. Forum Scientiae Oeconomia, 10(3), 75-92.
- 15.Konert, A., Balcerzak, T. (2021), Military autonomous drones (UAVs) - from fantasy to reality. Legal and Ethical implications. Transportation Research Procedia, 59, 292-299.
- 16.Lidynia, C., Philipsen, R. and Ziefle, M. (2017). Droning on about drones - acceptance of and perceived barriers to drones in civil usage contexts. Cham, Springer.
- 17.Łobaziewicz, M. (2013). Effectiveness of business process management in B2b model. Polish Journal of Management Studies, 8, 178-190.
- 18.Macias, M., Barrado, C., Pastor, E., Royo, P. (2019). The future of drones and their public acceptance. In 2019 IEEE/AIAA 38th Digital Avionics Systems Conference (DASC) (pp. 1-8). IEEE.
- 19.Mahmoud, S., Oyedeji, O. Xia, Y. (2021). Advanced distributed consensus for multiagent systems. Cambridge, MA, Academic Press.
- 20.Mohamed, N., Al-Jaroodi, J., Jawhar, I., Idries, A. Mohammed, F. (2020). Unmanned aerial vehicles applications in future smart cities. Technological Forecasting and Social Change, 153, 119293.
- 21.Moshref-Javadi, M., Winkenbach, M. (2022), Applications and Research avenues for dronebased models in logistics: A classification and review. Expert Systems with Applications, 177, 114854.
- 22.Muraleedraham, N., Cohen, D. S. (2020). Modelling and simulation of UAV systems. Available at: https://www.researchgate.net/publication/341626077_modelling_and_simulation_of_ua v_systems (accessed 15 October 2022).
- 23.Peng, G., Meng, F., Ahmed, Z., Oláh, J. Harsányi, E. (2022). A path towards green revolution: How do environmental technologies, political risk, and environmental taxes influence green energy consumption? Frontiers in Environmental Science, 10, 927333, 1-18.
- 24.Pollák, F., Soviar, J. Vavrek, R. (2021). Sensory marketing, communication management. London: IntechOpen.
- 25.Rojas Viloria, D., Solano-Charris, E.L., Muñoz-Villamizar, A. Montoya-Torres, J.R. (2020), Unmanned aerial vehicles/drones in vehicle routing problems: a literature review. International Transactions in Operational Research, 28(4), 1626-1657.
- 26.Rovira-Sugranes, A., Razi, A., Afghah, F. Chakareski, J. (2022). A review of AI-enabled routing protocols for UAV networks: Trends, challenges, and future outlook. Ad Hoc Networks, 130, 102790.
- 27.Shah S.K., Tang Z., Gavurova B., Oláh J. Acevedo-Duque Á. (2022). Modeling consumer’s innovativeness and purchase intention relationship regarding 5G technology in China. Frontiers in Environmental Science, 10, 1017557, 1-15.
- 28.Sharma, R., Arya, R. (2022). UAV based long range environment monitoring system with Industry 5.0 perspectives for smart city infrastructure. Computers and Industrial Engineering, 168, 108066.
- 29.Skorupka, D., Walczyński, M., Siczek, R. Kowacka, M. (2017). Application of unmanned aerial vehicles for revising dispersion of time of key undertakings, Technical Transactions, 6(2017), 163-170.
- 30.Statista. (2020). Distribution of drone-based services worldwide in 2020, by activity. Available at: https://www.statista.com/statistics/1200562/drone-service-activityworldwide/ (accessed 15 October 2022).
- 31.Šulyová, D., Kubina, M. (2022). Quality of life in the concept of strategic management for Smart Cities. Forum Scientiae Oeconomia, 10(3), 9-24.
- 32.SUSR. (2020). Ekonomické subjekty v ro podľa vybraných právnych foriem a kategórie počtu zamestnancov Available at: http://datacube.statistics.sk/#!/view/sk/vbd_sk_win/og1007rs/v_og1007rs_00_00_00_sk (accessed 15 October 2022).
- 33.Swarte, T., Boufous, O. Escalle, P. (2019). Artificial intelligence, ethics and human values: the cases of military drones and companion robots. Artificial Life and Robotics, 24(3), 291-296.
- 34.Transport Office. (2021). Lietadlá spôsobilé lietať bez pilota. Available at: http://letectvo.nsat.sk/letova-prevadzka/lietadla-sposobile-lietat-bez-pilota/ (accessed 15 October 2022).
- 35.Wankmüller, Ch., Kunovjanek, M. Mayrgündter, S. (2021). Drones in emergency response - evidence from cross-border, multi-disciplinary usability tests. International Journal of Disaster Risk Reduction, 65, 102567.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-aa3ea171-5fc2-4244-b4e8-50657d4fec82