Title :
Output controller for quadcopters based on mathematical model decomposition
Author :
Pyrkin, Anton A. ; Bobtsov, Alexey A. ; Kolyubin, Sergey A. ; Borisov, Oleg I. ; Gromov, Vladislav S.
Author_Institution :
Dept. of Control Syst. & Inf., ITMO Univ., St. Petersburg, Russia
Abstract :
In the paper an output control approach for a class of nonlinear MIMO systems is presented. A multicopter with four symmetrical rotors, i.e. a quadcopter, is chosen to illustrate effectiveness of the proposed adaptive control approach based on the high-gain principle so-called “consecutive compensator”. Output controller is designed by decomposition of the mathematical model on two parts. The first one is a static MIMO transformation (more precisely, in the considering case a system of linear equations which relates lift forces generated by the actuators and virtual control inputs). The second one is a few SISO channels. Such trick allows to design a control law in two steps. At the first step we design virtual controls for each SISO channel. Here we apply the mentioned systematic approach “consecutive compensator”. And then after the inverse MIMO transformation we get a set of real lift forces.
Keywords :
MIMO systems; actuators; adaptive control; aircraft control; compensation; control system synthesis; helicopters; nonlinear control systems; SISO channel; actuators; adaptive control approach; consecutive compensator; control law design; high-gain principle; linear equations; mathematical model decomposition; multicopter; nonlinear MIMO system; output controller design; quadcopters; static MIMO transformation; symmetrical rotor; virtual control; Adaptive control; Equations; MIMO; Mathematical model; Nonlinear systems; Rotors; Transient analysis; MIMO systems; Output control; nonlinear systems; robust control; time-delay systems;
Conference_Titel :
Control and Automation (MED), 2014 22nd Mediterranean Conference of
Conference_Location :
Palermo
Print_ISBN :
978-1-4799-5900-6
DOI :
10.1109/MED.2014.6961552
