A bi-level co-design approach for multicopters

• Published in: arXiv.org
• Main Authors: Jordan Mabboux, Delbecq, Scott, Pommier-Budinger, Valérie, Bordeneuve-Guibe, Joël, Truc-Hermel, Ana, Jean-Marie, Kai
• Format: Paper Journal Article
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 30.01.2023
• Subjects: Aircraft configurations; Co-design; Computer Science - Systems and Control; Couplings; Design optimization; Fault tolerance; Lift devices; Rotary wing aircraft
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.2301.12905

Over the last few decades, multicopters have become significantly popular because of their various applications. However, multicopters suffer from poor endurance performance as compared to other aircraft configurations with lifting surfaces. In this paper, a co-design approach for the multicopter structure and propulsive system is presented with the objective of improving the energetic efficiency of the vehicle, while respecting dynamic performance requirements. For this purpose, the approach uses a bi-level formulation to optimize concurrently the design and the control. The methodology offers the possibility to activate or not a passive fault tolerant strategy in the controller synthesis to be tolerant to single rotor failure. In contrast to conventional design approaches that sequentially design each part, the co-design approach leads to a better optimal solution due to the consideration of the interactions and couplings between design and control. With the proposed co-design approach, the results show the soundness of the proposed design methodology and a significant reduction in the consumed energy compared to a reference non-optimal design, while maintaining the same requirements in terms of dynamic performance.