Sources of Innovative UAV Design

• Autorzy: Łukaszewicz A.
• Języki publikacji: EN

Abstrakty

EN

In this paper general problems of new concepts design in Unmanned Aerial Vehicle (UAV) field are described. A successful UAV designer needs not only a good understanding of design rules and practical skills, but also knows innovative approach. The design of a UAV begins with specify the mission and requirements definition. Next conceptual, preliminary and detail stages of design, design synthesis and evaluation, and finally in-loop validation, usually using CAE tools, are carried out. In many cases the design of UAV faces new challenges as a result of a new requirements.

Słowa kluczowe

EN

UAV; innovative design; engineering education

• Wydawca: Oficyna Wydawnicza Politechniki Warszawskiej
• Czasopismo: Machine Dynamics Research
• Rocznik: 2012
• Tom: Vol. 36, No. 1
• Strony: 108--115
• Opis fizyczny: Bibliogr. 21 poz., il.

Twórcy

autor

Łukaszewicz A.

• Białystok University of Technology. Faculty of Mechanical Engineering

Bibliografia

• Dankwort, С., Weidlich, R., Guenther, В., Blaurock, J. E., 2004, Engineers' СAx education - it's not only CAD, Computer-Aided Design, 36, 1439-145.
• Łukaszewicz, A., 2009, General advices to the CAx education directed for needs of the industry, in: Advanced technologies in production engineering (ed. J. Jóźwik), Societas Scientiarum Lublinensis, Lublin, 73-86.
• Łukaszewicz, A., 2010, On the design of UAV airframes using parametric CAD systems, in: Scientific aspects of unmanned mobile vehicle (ed. Z. Koruba), Polish Society of Theoretical and Applied Mechanics, 145-160.
• Łukaszewicz, A., 2010, SolidWorks based CAx Education Directed for Industrial Practice, SolidWorks World, Anaheim, USA, 23 (presentation available on-line in customer portal: www.solidworks.com).
• Łukaszewicz, A., 2011, Innovation approach for unmanned aerial vehicle design, in: Innovation by Design (ed. R. Rochatyński), Wroclaw Univ. of Technology Publ., 51-59.
• Romeo, G., Frulla, G., Cestino, E., 2007, Design of a High-Altitude Long-Endurance Solar-Powered Unmanned Air Vehicle for Multi-Payload and Operations, Proc. I MechE Part G: J. Aerospace Engineering, 221, 199-216.
• Utterback, J. M., 1974, Innovation in Industry and the Diffusion of Technology, Science, 183, 620-626.
• von Hippel, E., 1998, The Sources of Innovation, Oxford University Press, Oxford.
• Yea, X., Penga, W., Chena, Z., Cai, Y., 2004, Today's students, tomorrow's engineers: an industrial perspective on CAD education, Computer-Aided Design, 36, 1451-1460
• http://www.swiss-uav.com/uav_systems.php (27.01.2012).
• http://hypersonicmissile.com/2010/08/lockheed-martin-rq-170-sentinel-3/ (27.01.2012).
• http://www.vtol-technologies.com (20.01.2012).
• http://www.delfly.nl (20.01.2012).
• http://www.popularmechanics.com/science/space/4213471 (20.01.2012).
• http://www.wb.com.pl/en.html (08.12.2011).
• http://www.nasa.gov/centers/dryden/pdf7111760main_UAV_Assessment_Report_Overview.pdf (02.12.2011).
• http://www.nasa.gov/centers/dryden/pdf/l 11761main_UAV_Capabilities_Assessment.pdf (02.12.2011).
• http://www.marketresearchmedia.com/2010/04/09/unmanned-aerial-vehicles-uav-market (02.12.2011).
• http://ww.defpro.com/daily/details/412/ (02.12.2011).
• http://www.think-differently.org/2007/05/7-dimensions-of-innovation.html (02.12.2011).
• http://www.nasa.gov/centers/dryden/pdfl 75939main_Earth_Obs_UAV_Vol_l_vl. 1_ Final.pdf (02.12.2011).