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Reconfiguration of Unmanned Aircraft Control System

REFERENCES [1] Goetzendorf-Grabowski, T., Frydrychewicz, A., Goraj, Z., et al., 2006, “MALE UAV design of an increased reliability level,” Aircraft Engineering and Aerospace Technology: An International Journal, vol. 78, No 3, pp. 226-235. [2] Lin, X., Fulton, N., and Horn, M., 2014, „Quantification of high level safety criteria for civil unmanned aircraft systems;” Proceedings of IEEE Aerospace Conference, Big Sky, March 1-8, pp. 1-13. [3] Loh, R., Bian, Y., and Roe, T., 2009, „UAVs in civil airspace: Safety requirements;” IEEE Aerospace and

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Wankel Engines for Unmanned Aerial Vehicles

5. Bibliografia [1] Advanced Innovative Engineering, strona internetowa: www.aieuk.com [2] Biass E.H., Armada International, Issue 1, 02/03.2005 [3] Melnarowicz W i K., Bezzałogowe Statki Powietrzne, Warszawa ITWL 2017 [4] Silnik Wankla, Wikipedia, strona internetowa: https://pl.wikipedia.org/wiki/Silnik_Wankla [5] Unmanned Aircraft Systems Roadmap 2005-2030, Office of Secretary of Defense, DoD USA 2005

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Polish Experience in Developing and Employing Unmanned Surface Vehicles At Sea

References [1] Bielecki A., A design of a remotely operated underwater vehicle launch and recovery system stationed on board an unmanned surface platform [in Polish], PNA, Gdynia 2011. [2] Borchardt J., The preliminary project of the electric drive of an unmanned surface vehicle [in Polish], B. Sc. thesis, PNA, Gdynia 2014. [3] Jurczyk K., The project system of cooperation with the small Unmanned Air Vehicle based on the Unmanned Surface Vehicle [in Polish], M. Sc. thesis, PNA, Gdynia 2016. [4

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The Prospect for the Launche of a Mini Unmanned Aerial Vehicle from an Unmanned Surface Vehicle

REFERENCES [1] Adamski M., Adamski A., Sposoby startu i lądowania bezzałogowych statków powietrznych , ‘Logistyka’, 2014, No. 6, pp. 1340–1349 [ Ways of take-off and landings of unmanned air vehicles — available in Polish]. [2] Jurczyk K., Projekt systemu współpracy małego bezzałogowego pojazdu nawodnego z ba-zującym na nim bezzałgowym pojazdem powietrznym , Gdynia, 2016 [ The project system of cooperation with the small unmanned air vehicle based on the unmanned surface vehicle — available in Polish]. [3] Kitowski Z., Autonomiczny

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Unmanned Surface And Undersea Vehicles: Capabilities And Potential

References [1] Navy News Stand, Enterprise Carrier Strike Group Deploys Unmanned Surface Vehicle, Story Number: NNS031217-04, 12/17/2003. [2] The National Defense Strategy of The United States of America, March 2005. [3] Sea Power 21, Admiral Vern Clark, U.S. Navy. Naval Institute “Proceedings”, October 2002. [4] NAVSEAINST 3900.8A dtd 20 May 2005. [5] Distributed Autonomous System for Maritime Domain Awareness, Douglas Horner, Naval Postgraduate School, Monterey, CA. [6] S. Showalter, “The Legal Status of Autonomous Underwater

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Unmanned Surface Vehicles in Maritime Critical Infrastructure Protection Applications — LNG Terminal in Świnoujście

REFERENCES [1] Bick T., Centurion a Total Port Maritime Surveillance Concept , [online], www.northropgrumman.com [access 26.02.2013]. [2] Hurst C., The Terrorist Threat to Liquefied Natural Gas: Fact or Fiction? , Institute for the Analysis of Global Security (IAGS), 2008. [3] Kitowski Z., Autonomous unmanned surface vehicle ‘Edredon’ , ‘Polish Hyperbaric Research’, 2012, No. 3(40). [4] Radu O., Slamnoiu G., Zarnescu L., Cosereanu L., Harbor Protection Against Terrorist Threats: Difficulties and Possible Solutions , RTO-MP-SCI-180

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A Review of the Characteristics of Modern Unmanned Aerial Vehicles

, AL, USA. DIMC, F. – MAGISTER, T. 2006. Mini UAV communication link systems. In 10 th International Conference on Traffic Sciences – ICTS 2006, Portoroz, Slovenia, 2006. DJI Technology Co. Ltd DJI Ground station. Available at: http://www.dji.com/products/ground-stations ERHARD, T. P. 2000. Unmanned Aerial Vehicles in the United States Armed Services: A Comparative Study of Weapon System Innovation. PhD thesis, Johns Hopkins University, Baltimore, USA, 2000. HOFFMANN, G. M. – HUANG, H. – WASLANDER, S. L. – TOMLIN, C. J. 2007. Quadrotor

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Regulation of Unmanned Aerial Systems and Related Privacy Issues in Lithuania

BIBLIOGRAPHY 1. AUVSI. “Economic Impact of Unmanned Aircraft Systems Integration in the United States.” Economic report by Darryl Jenkins & Bijan Vasigh (March 2013) // https://higherlogicdownload.s3.amazonaws.com/AUVSI/958c920a-7f9b-4ad2-9807-f9a4e95d1ef1/UploadedImages/New_Economic%20Report%202013%20Full.pdf . 2. Braun, Sven, Friedewald, Michael, and Valkenburg, Govert. “Civilizing Drones: Military Discourses Going Civil?” Science & Technology Studies 28(2) (2015): 73–87. 3. Butler, Des. “The Dawn of the Age of the Drones: an Australian

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An Application of Computer Vision Systems to Solve the Problem of Unmanned Aerial Vehicle Control

References 1. Schmid, K., etc. (2012) View Planning for Multi-View Stereo 3D Reconstruction Using an Autonomous Multicopter. Journal of Intelligent & Robotic Systems, 65(1-4), 309-323. 2. Barbasov, V.K., etc. (2012) Multirotor unmanned aerial vehicles and their capabilities for using in the field of earth remote sensing. Ingenernye Izyskaniya, 10, 38-42. (In Russian) 3. Zinchenko, O.N. (2012) Unmanned aerial vehicles: the use of aerial photography in order to map, Part 1. Мoscow: Racurs. 12 p. (In Russian

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Universal Autonomous Control and Management System for Multipurpose Unmanned Surface Vessel

BIBLIOGRAPHY 1. Barton A., Volna E.: Control of Autonomous Robot using Neural Networks . Proceedings of the International Conference on Numerical Analysis and Applied Mathematics 2016 (ICNAAM-2016), vol. 1863, Rhodes, Greece 2016. 2. Burdziakowski P., Szulwic J.: A commercial of the shelf components for a unmanned air vehicle photogrammetry, 16 th International Multidisciplinary Scientific GeoConference SGEM 2016, Albena, Bulgaria, 2016 3. Droeschel D., Schwarz M. Behnke S.: Continuous mapping and localization for autonomous navigation in

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