Modeling and control for unmanned helicopter based aerial manipulator

Author

Dalei Song ; Juntong Qi

Author_Institution

State Key Lab. of Robot., Shenyang Inst. of Autom. Sci., Shenyang, China

fYear

2014

fDate

3-5 Dec. 2014

Firstpage

259

Lastpage

264

Abstract

Unmanned Helicopter based Aerial Manipulator (UH-AM) is a new conception of aerial robots with arms, which changes the traditional searching RUAVs into operating aerial robots. The same with traditional robotic arms, the end-effector´s control accuracy is also important for precise operation in hovering mode, however, it cannot be achievable easily because of the relative disturbance between UH and AM. In this research, the overall dynamics model is firstly developed. Based on the proposed model, to compensate for the disturbance from relative dynamics with rotor system´s control delay, a predictive controller is designed to eliminate the errors of position and attitude of the end-effector. Simulation results show its effectiveness in precise air-operation under inner/external disturbance.

Keywords

autonomous aerial vehicles; delay systems; end effectors; helicopters; predictive control; robot dynamics; vehicle dynamics; RUAVs; UH-AM; aerial robots; attitude error; end-effector control accuracy; hovering mode; inner-external disturbance; position error; predictive controller; relative disturbance; relative dynamics model; robotic arms; rotor system control delay; rotorcraft unmanned aerial vehicles; unmanned helicopter based aerial manipulator; Attitude control; Robots; Aerial Manipulator; Dynamics Modeling; Flight Simulation; Predictive Control; RUAV;

fLanguage

English

Publisher

ieee

Conference_Titel

Modelling, Identification & Control (ICMIC), 2014 Proceedings of the 6th International Conference on

Conference_Location

Melbourne, VIC

Type

conf

DOI

10.1109/ICMIC.2014.7020762

Filename

7020762