Portal de Periódicos da CAPES

Enhanced Modeling and Control for Multilinked Aerial Robot With Two DoF Force Vectoring Apparatus

2020; Institute of Electrical and Electronics Engineers; Volume: 6; Issue: 1 Linguagem: Inglês

10.1109/lra.2020.3032374

2377-3766

Moju Zhao, Kei Okada, Masayuki Inaba,

Control and Dynamics of Mobile Robots

The multilinked or modular structure is one of the state-of-the-art topics in aerial robot field. One type of the multilinked aerial robot called DRAGON containing a two degree-of-freedom (DoF) force vectoring apparatus in each link has been developed in our previous work to augment both maneuvering and manipulation ability. However, several types of invalid robot poses, which are due to the mechanical structure, the previous control method and the interrotor aerodynamic interference, significantly reduce the region of deformation. Thus, enhanced modeling and control methods are necessary to overcome these problems. In this letter, we first develop an integrated thrust and vectoring control method with a rigorous allocation to solve the control singularity. Second, we present a vectoring configuration planning method, which solves the mechanical singularity by locking one of the axes in the two DoF vectoring apparatus. Finally, we propose an estimation method and an active compensation control regarding the aerodynamic interference to improve the flight stability. In the end, simulation studies and experiments involving the hovering and deformation along a vertical plane are performed to evaluate the whole modeling and control framework.