New stable by construction autonomous aerial vehicle: Configuration and dynamic model

Abstract

In recent years, different strategies and mathematical models have been developed in order to analyze and control unmanned aerial vehicles. This article expands this panorama by focusing on a, stable by construction, unmanned aerial system. Thanks to its design, the reported system dissipates the energy received by the action of external disturbances. The proposed vehicle has a unique rotor in order to perform different flight modes. This article reports the design concept of the aerial system, the mathematical structure of its nine degrees of freedom dynamic model, a set of numerical simulations allowing the analysis of the behavior of the developed model and the first experimental results that validate the stability, by construction, of the aerial vehicle. The two most significant and innovative aspects reported in this article are the use of a single orientable rotor to perform different flight modes and the inherent property of the system that makes it stable by construction.