Pragmatic Incremental Approach to an Affordable Certification Process for RPAS-Building-up from core Safety Functions

Abstract : The use of Unmanned Aerial Systems can be leveraged in many application domains ranging from agriculture to industry, opening up a wealth of new possibilities. However, UAS obviously raise important safety concerns and the use of the techniques, processes and standards developed for the aeronautic industry is not a feasible solution for most UAS. There is a need to bring in novel and pragmatic solutions to develop provably safe UAS in a time and cost-affordable manner. This paper reports on the development of a smart parachute solution for UAS, one of the core safety requirements which can be complemented by other safety components in an incremental manner. The requirements elicitation phase, and the design of the termination system has been carried out using CPAL, a lightweight model-based design environment for embedded systems.
Keywords : RPAS UAS Safety
Type de document :
Communication dans un congrès
1rst RPAS Related Technologies, Nov 2015, Le Bourget, France. 2015, 〈http://www.rpas-rtech-2015.com/site/index.php?lang=en〉
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https://hal.inria.fr/hal-01251308
Contributeur : Laurent Ciarletta <>
Soumis le : mardi 5 janvier 2016 - 22:50:16
Dernière modification le : jeudi 11 janvier 2018 - 06:25:23

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  • HAL Id : hal-01251308, version 1

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Laurent Ciarletta, Adrien Guenard, Nicolas Navet, Loïc Fejoz. Pragmatic Incremental Approach to an Affordable Certification Process for RPAS-Building-up from core Safety Functions. 1rst RPAS Related Technologies, Nov 2015, Le Bourget, France. 2015, 〈http://www.rpas-rtech-2015.com/site/index.php?lang=en〉. 〈hal-01251308〉

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