Title :
Dynamic analysis of airships with small deformations
Author :
Azouz, Naoufel ; Bestaoui, Yasmina ; Lemaitre, Olivier
Author_Institution :
Lab. des Systemes Complexes, CNRS, Evry, France
Abstract :
The theory of modelling and control of airships was mostly imported from the fields of science and engineering of underwater vehicles. However the main hypothesis of rigidity of the structure may be improved to take into account the flexibility of the hull of an airship. We present an approach for analysing dynamic elastic deformable airships in an ideal fluid. Our model uses the updated Lagrangian method in combination with a large displacement and small deformation (Green) strain tensor formulation. Analogy is made with classical structural dynamics. The description of the behaviour of the airship consists of a continuous differential equation that is solved using a Rayleigh-Ritz technique combined with the finite element method. The method proposes also to take into account the coupling between the rigid body motion and the deformation as well as the interaction and coupling with the fluid surrounding.
Keywords :
Rayleigh-Ritz methods; aerospace robotics; finite element analysis; matrix algebra; mobile robots; remotely operated vehicles; robot dynamics; Rayleigh-Ritz technique; classical structural dynamics; continuous differential equation; dynamic analysis; dynamic elastic deformable airships; finite element method; hull flexibility; ideal fluid; large displacement; small deformations; strain tensor formulation; updated Lagrangian method; Automotive engineering; Capacitive sensors; Deformable models; Differential equations; Finite element methods; Fluid dynamics; Lagrangian functions; Tensile stress; Underwater vehicles; Vehicle dynamics;
Conference_Titel :
Robot Motion and Control, 2002. RoMoCo '02. Proceedings of the Third International Workshop on
Print_ISBN :
83-7143-429-4
DOI :
10.1109/ROMOCO.2002.1177109
