UAV Technology to Support Management Decision-making in the Industry

• Autorzy: Martin Holubčík , Gabriel Koman , Milan Kubina
• Języki publikacji: EN

Abstrakty

EN

Purpose: The aim of this article is to define and approach the concept of UAV and its use in industry and decision support in business. Design/methodology/approach: The methodology of the article consisted of comprehensive analysis of the theoretical concept of UAV technology within the case study framework. Findings: Result of this analysis provides an evaluation of the state for implementation as support for decision-making and management of companies that will use this trend in the future. Practical implications: With the progress of science and technology, the individual components of this technology have gradually evolved and become more and more accessible. UAV technology represents great potential in the production processes of factories or smaller factories. Social implications: UAV (Unnamed Aerial Vehicles) technology has been evolving for decades. However, its civilian use and industrial use have only come in recent years. UAV technology represents great potential in manufacturing processes, support other technological trends, such as IoT, 5G, AI, Factory 4.0. Originality/value: The presented paper provide not only practical but also theoretical conclusion to management of production processes of factories or smaller factories.(original abstract)

Słowa kluczowe

EN

Management; Decision making; Production process; Technology

PL

Zarządzanie; Podejmowanie decyzji; Proces produkcji; Technologia

• Czasopismo: Zeszyty Naukowe. Organizacja i Zarządzanie / Politechnika Śląska
• Rocznik: 2022
• Numer: z. 166
• Strony: 333--349

Twórcy

autor

Martin Holubčík

• University of Žilina, Slovakia

autor

Gabriel Koman

• University of Žilina, Slovakia

autor

Milan Kubina

• University of Zilina, Slovakia

Bibliografia

• 1. 911 Security (2021). What is a Drone? Retrieved from: https://www.911security.com/ blog/what-is-a-drone.
• 2. Airobotics (2021). Automated Drone Applications For Industrial Purposes. Retrieved from: https://www.airoboticsdrones.com/applications/.
• 3. Ayemba (2021). Utilizing drone technology in construction. Retrieved from: https://constructionreviewonline.com/machinery-equipment/drones-in-construction/.
• 4. Beninger, S., Robson, K. (2020). The disruptive potential of drones. Marketing Letters, 31, 315-319.
• 5. Blaskova, M., Tumova, D., Miciak, M. (2022). Taxonomy of Factors Involved in Decision-Making to Sustain Organization Members' Creativity. Administrative Sciences, 12(1), 39.
• 6. CALU (2021). The Future Of Drones. Retrieved from: https://www.calu.edu/academics/ undergraduate/associate/drone-technology/future-drone-technology-and-uses.aspx.
• 7. CB Insights (2020). 38 Ways Drones Will Impact Society. Retrieved from: https://www.cbinsights.com/research/drone-impact-society-uav/.
• 8. CBJ (2017). Agsky Technologies. Retrieved from: https://www.cbj.ca/agsky-technologies/.
• 9. Cohn, P., Green, A., Langstaff, M., Roller, M. (2017). Commercial drones are here: The future of unmanned aerial systems. Retrieved from: https://www.mckinsey.com/ industries/travel-logistics-and-infrastructure/our-insights/commercial-drones-are-here-the-future-of-unmanned-aerial-systems.
• 10. Comsoc (2021). UAV Communications in 5G and Beyond Networks. Retrieved from: https://www.comsoc.org/publications/journals/ieee-jsac/cfp/uav-communications-5g-and-beyond-networks.
• 11. Delepine (2021). Autonomous Drones for Construction: A Case Study. Retrieved from: https://medium.com/skydio/autonomous-drones-for-construction-a-case-study-b06d5c4f3d1b.
• 12. Dronegenuity (2021). Drones Will Help Save The Environment. Retrieved from: https://www.dronegenuity.com/ways-drones-help-save-the-environment/.
• 13. Ehang (2021). UAM. Retrieved from: https://www.ehang.com/uam/.
• 14. Equinox's Drones (2021). 10 Major Pros & Cons of Unmanned Aerial Vehicle (UAV) Drones. Retrieved from: https://www.equinoxsdrones.com/blog/10-major-pros-cons-of-unmanned-aerial-vehicle-uav-drones.
• 15. Falco, D.A., Narducci, F., Petrosino, A. (2019). An UAV Autonomous Warehouse Inventorying by Deep Learning. International Conference on Image Analysis and Processing. ICIAP 2019: Image Analysis and Processing - ICIAP 2019, 443-453.
• 16. FEDS (2020). Surveying the largest limestone quarry in a day. Retrieved from: https://www.feds.ae/blog/surveying-the-largest-limestone-quarry-in-a-day.
• 17. Ferenc, P., Varmus, M., Vodak, J. (2017). Stakeholders in the various field and relations between them. Procedia Engineering, 192, 166-170.
• 18. Filipowicz, A. (2021). Conceptualisation of using technical debt to measure the innovation level of new product - selected issues. Organization And Management Series, 153, 89-101.
• 19. Flyability (2021). Commercial drones: industries that use drones, deliverables, and our list of the top models on the market. Retrieved from: https://www.flyability.com/commercial-drones.
• 20. Force Technology (2021). Drone inspection of offshore oil and gas constructions. Retrieved from: https://forcetechnology.com/en/services/drone-inspection-offshore-oil-gas-constructions.
• 21. Gumińska, J., Kłos, M. (2020). Economic aspects of pretreatment technologies before reverse osmosis. Organization And Management Series, 145, 119-131.
• 22. Hasanalian, M., Abdelkefi, A. (2017). Classifications, applications, and design challenges of drones: A review. Progress in Aerospace Sciences, 91, 99-131.
• 23. Insurance Business (2019). Commercial drones - what are the benefits, risks and legal restrictions? Retrieved from: https://www.insurancebusinessmag.com/uk/news/breaking-news/commercial-drones--what-are-the-benefits-risks-and-legal-restrictions-172665.aspx.
• 24. Jankal, R. (2014). The role of innovation in the assessment of the excellence of enterprise subjects. Procedia Social and Behavioral Sciences, 109, 541-545.
• 25. Kueabix (2021). The Future Of Drones In The Supply Chain. Retrieved from: https://www.kuebix.com/the-future-of-drones-in-the-supply-chain/.
• 26. Lagkas, T., Bibi, S., Argyriou, V., Sarigiannidis, P.G. (2018). UAV IoT Framework Views and Challenges: Towards Protecting Drones as "Things". Sensors, 18(11).
• 27. Mahmoud (2021). Unmanned Aerial Vehicles. Retrieved from: https://www.sciencedirect.com/topics/engineering/unmanned-aerial-vehicles.
• 28. Niles (2019). Applying Drones for Better Decision Making. Retrieved from: https://colab.build/insights/applying-drones-for-better-decision-making/.
• 29. Pollak, F., Soviar, J., Svetozarovova, N. (2019). Selected approaches to sustainable development of corporate reputation - empirical study of online reputation management of subjects from the field of supply chain management. 8TH Carpathian Logistics Congress (CLC 2018). Prague, 324-329.
• 30. Radoglou-Grammatikis, P., Sarigiannidis, P., Lagkas, T., Moscholios, R. (2020). A compilation of UAV applications for precision agriculture. Computer Networks, 172, 107148.
• 31. senseFly (2017). Precision ag profile: AgSky Technologies. Retrieved from: https://www.sensefly.com/fr/case-study/precision-ag-profile-agsky-technologies/.
• 32. Silvagni, M., Tonoli, A., Zenerino, E., Chiaberge, M. (2016). Multipurpose UAV for search and rescue operations in mountain avalanche events. Geomatics, Natural Hazards and Risk, 8(1), 1-16.
• 33. Song, B.D., Park, K., Kim, J. (2018). Persistent UAV delivery logistics: MILP formulation and efficient heuristic. Computers & Industrial Engineering, 120, 418-428.
• 34. Swamy (2020). Drone solutions for better decision-making. Retrieved from: https://www.geospatialworld.net/article/drone-decision-making/.
• 35. Thibault, G., Aode, G. (2016). Companies Are Turning Drones into a Competitive Advantage. Harward Business review. IT management.
• 36. TNW (2021). Domino's delivers pizza by drone to Dutch beach - but it was just a trial. Retrieved from: https://thenextweb.com/news/dominos-delivers-pizza-drone-dutch-beach-but-it-was-just-a-trial-sad.
• 37. Transport Office (2019). Aircraft capable of flying without a pilot. Retrieved from: http://letectvo.nsat.sk/letova-prevadzka/lietadla-sposobile-lietat-bez-pilota/.
• 38. Vyas, K. (2020). A Brief History of Drones: The Remote Controlled Unmanned Aerial Vehicles (UAVs). Retrieved from: https://interestingengineering.com/a-brief-history-of-drones-the-remote-controlled-unmanned-aerial-vehicles-uavs.
• 39. Wingtra (2021). Mining and aggregates. Retrieved from: https://wingtra.com/drone-mapping-applications/mining-and-aggregates/.
• 40. Zawierucha, K. (2020). The development of the modern world in the aspect of new technologies. Organization And Management Series, 145, 661-674

Identyfikatory

DOI

https://managementpapers.polsl.pl/wp-content/uploads/2023/01/166-Holubcik-Koman-Kubina.pdf