Project Details
Framework of key enabling technologies for safe and autonomous drones´ applications
Project Period: 1. 10. 2019 – 31. 1. 2023
Project Type: grant
Code: 8A19003
Agency: Evropská unie
Program: Horizon 2020
UAV, drones, composition, autonomy, security, safety, interoperability
UAVs/drones can perform air operations that manned aircrafts struggle with, and their use brings significant economic savings and environmental benefits whilst reducing the risk to human life. UAV-based service and product innovation, as driven by increased levels of connectivity and automation, is curtailed by the growing dependence on poorly interoperable proprietary technologies and the risks posed to people, to other vehicles and to property. This issue was identified to have high impact on European innovation by SESAR JU, which demands R&D investments and incentives for the convergence of shared technologies and markets as a remedy. Actions creating globally harmonized, commercially exploitable yet widely accessible R&D ecosystems should be publicly performed. The COMP4DRONES project complements SESAR JU efforts with particular focus on safe software and hardware drone architectures. COMP4DRONES brings to bear a holistically designed ecosystem from application to electronic components, realized as a tightly integrated multi-vendor and compositional UAV embedded architecture solution and a tool chain complementing the compositional architecture principles. The ecosystem aims at supporting (1) efficient customization and incremental assurance of UAV embedded platforms, (2) safe autonomous decision making concerning individual or cooperative missions, (3) trustworthy drone-todrone and drone-to-ground communications even in presence of malicious attackers and under the intrinsic platform constraints, and (4) agile and cost-effective compositional design and assurance of UAV modules and systems. COMP4DRONES will also build an open sustainable ecosystem around public, royalty-free and implementation-driven software platform standards that will ease the development of new UAV functionalities for multiple application domains. COMP4DRONES achievements will be demonstrated through domain specific use-cases (construction, agriculture, delivery, logistic, sensing, swarm).
Beran Vítězslav, doc. Ing., Ph.D. (DCGM)
Dytrych Jaroslav, Ing., Ph.D. (DCGM)
Hájková Gabriela, Mgr. (DFIT)
Harmim Dominik, Ing. (FIT)
Herout Adam, prof. Ing., Ph.D. (DCGM)
Holík Lukáš, doc. Mgr., Ph.D. (DITS)
Hruška Martin, Ing., Ph.D. (Automata@FIT)
Chlubna Tomáš, Ing. (DCGM)
Chudý Peter, doc. Ing., Ph.D., MBA (DCGM)
Juránková Markéta, Ing., Ph.D. (DCGM)
Juříček Zdeněk (DFIT-FO)
Klíma Ondřej, Ing., Ph.D. (DCGM)
Koplík Karel, Ing.
Nosko Svetozár, Ing. (DCGM)
Novák Jiří, Ing. (DCGM)
Obrusníková Petra, Bc. (Library)
Smrž Pavel, doc. RNDr., Ph.D. (DCGM)
Starka Tomáš, Ing. (DCGM)
Staroň Patrik, Bc. (DCGM)
Španěl Michal, Ing., Ph.D. (DCGM)
Vašíček Ondřej, Ing. (DITS)
2022
- NOVÁK, J.; CHUDÝ, P. Unmanned Aerial Vehicle's Trajectory Optimization in Constrained Environments. In 33rd Congress of the International Council of the Aeronautical Sciences, ICAS 2022. ICAS Proceedings. Stockholm: International Council of the Aeronautical Sciences, 2022.
p. 5682-5696. ISBN: 978-1-7138-7116-3. ISSN: 2958-4647. Detail - VLK, J.; CHUDÝ, P.; PRUSTOMĚRSKÝ, M. LQR Based Digital Autopilot For Light Sport Aircraft. In 33rd Congress of the International Council of the Aeronautical Sciences, ICAS 2022. ICAS Proceedings. Stockholm: International Council of the Aeronautical Sciences, 2022.
p. 5321-5335. ISBN: 978-1-7138-7116-3. ISSN: 2958-4647. Detail