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Grzegorz Radzki
Grzegorz Radzki
Koszalin University of Technology, Department of Electronics and Computer Science
Zweryfikowany adres z tu.koszalin.pl
Tytuł
Cytowane przez
Cytowane przez
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UAV mission planning resistant to weather uncertainty
A Thibbotuwawa, G Bocewicz, G Radzki, P Nielsen, Z Banaszak
Sensors 20 (2), 515, 2020
822020
UAVs flight routes optimization in changing weather conditions–constraint programming approach
G Radzki, A Thibbotuwawa, G Bocewicz
Applied Computer Science 15 (3), 5-12, 2019
242019
Reactive UAV fleet’s mission planning in highly dynamic and unpredictable environments
G Radzki, I Nielsen, P Golińska-Dawson, G Bocewicz, Z Banaszak
Sustainability 13 (9), 5228, 2021
172021
A proactive approach to resistant UAV mission planning
G Radzki, P Nielsen, G Bocewicz, Z Banaszak
Automation 2020: Towards Industry of the Future: Proceedings of Automation …, 2020
122020
Modelling robust delivery scenarios for a fleet of unmanned aerial vehicles in disaster relief missions
G Radzki, P Golinska-Dawson, G Bocewicz, Z Banaszak
Journal of Intelligent & Robotic Systems 103, 1-18, 2021
102021
Periodic planning of UAVs' fleet mission with the uncertainty of travel parameters
G Radzki, G Bocewicz, P Golińska-Dawson, M Jasiulewicz-Kaczmarek, ...
2021 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), 1-8, 2021
62021
Declarative UAVs fleet mission planning: A dynamic VRP approach
G Radzki, P Nielsen, A Thibbotuwawa, G Bocewicz, Z Banaszak
Computational Collective Intelligence: 12th International Conference, ICCCI …, 2020
42020
UAVs fleet mission planning robust to changing weather conditions
G Bocewicz, G Radzki, I Nielsen, M Witczak, B Zbigniew
IFAC-PapersOnLine 53 (2), 10518-10524, 2020
42020
Proactive-reactive approach to disruption-driven UAV routing problem
G Radzki, G Bocewicz, Z Banaszak
Conference on Automation, 51-61, 2023
32023
Declarative approach to UAVs mission contingency planning in dynamic environments
G Radzki, M Relich, G Bocewicz, Z Banaszak
Distributed Computing and Artificial Intelligence, Volume 2: Special …, 2022
32022
Multi depot UAVs routing subject to changing weather and time windows variation
G Radzki, G Bocewicz, J Wikarek, P Nielsen, Z Banaszak
Conference on Automation, 64-74, 2022
22022
Proactive Mission Planning of Unmanned Aerial Vehicle Fleets Used in Offshore Wind Farm Maintenance
Z Banaszak, G Radzki, I Nielsen, R Frederiksen, G Bocewicz
Applied Sciences 13 (14), 8449, 2023
12023
Comparison of exact and approximate approaches to UAVs mission contingency planning in dynamic environments
G Radzki, G Bocewicz, J Wikarek, P Nielsen, Z Banaszak
Mathematical Biosciences and Engineering 19 (7), 7091-7121, 2022
12022
UAV fleet mission planning subject to robustness constraints
G Radzki, P Nielsen, G Bocewicz, Z Banaszak
Distributed Computing and Artificial Intelligence, Special Sessions, 17th …, 2021
12021
UAV Fleet Routing Under Weather and Customer Orders Uncertainty Parameters
G Radzki, G Bocewicz, P Nielsen, M Jasiulewicz-Kaczmarek, Z Banaszak
2023 IEEE International Conference on Fuzzy Systems (FUZZ), 1-6, 2023
2023
UAVs’ Dynamic Routing, Subject to Time Windows Variation
G Bocewicz, G Radzki, P Nielsen, Z Banaszak
IFAC-PapersOnLine 55 (2), 457-462, 2022
2022
Reactive UAV Fleet’s Mission Planning in Highly Dynamic and Unpredictable Environments. Sustainability 2021, 13, 5228
G Radzki, I Nielsen, P Goli nska-Dawson, G Bocewicz, Z Banaszak
s Note: MDPI stays neutral with regard to jurisdictional claims in published …, 2021
2021
Problem marszrutyzacji floty dronów
G Radzki, G Bocewicz, H Budzisz
Zeszyty Naukowe Wydziału Elektroniki i Informatyki Politechniki Koszalińskiej, 2019
2019
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