Aerodynamic-Parameter Identification and Attitude Control of Quad-Rotor Model with CIFER and Adaptive LADRC

Current research on quadrotor modeling mainly focuses on theoretical analysis methods and experimental methods, which have problems such as weak adaptability to the environment, high test costs, and long durations. Additionally, the PID controller, which is currently widely used in quadrotors, requi...

Full description

Saved in:
Bibliographic Details
Published in:Chinese journal of mechanical engineering 2021-12, Vol.34 (1), p.1-10, Article 1
Main Authors: Yang, Sen, Xi, Leiping, Hao, Jiaxing, Wang, Wenjie
Format: Article
Language:English
Subjects:
Adaptive control
Adaptive LADRC
Aerodynamics
Attitude control
CIFER
Control methods
Control systems design
Controllers
Decoupling
Electrical Machines and Networks
Electronics and Microelectronics
Engineering
Engineering Thermodynamics
Euler-Lagrange equation
Heat and Mass Transfer
Identification methods
Instrumentation
Interference
Machines
Manufacturing
Mathematical models
Mechanical Engineering
Modelling
Moments of inertia
Original Article
Parameter estimation
Parameter identification
Physical simulation
Power Electronics
Processes
Proportional integral derivative
Qarameters identification
Quad-rotor
Robust control
Rotary wing aircraft
Rotors
Theoretical and Applied Mechanics
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Current research on quadrotor modeling mainly focuses on theoretical analysis methods and experimental methods, which have problems such as weak adaptability to the environment, high test costs, and long durations. Additionally, the PID controller, which is currently widely used in quadrotors, requires improvement in anti-interference. Therefore, the aforementioned research has considerable practical significance for the modeling and controller design of quadrotors with strong coupling and nonlinear characteristics. In the present research, an aerodynamic-parameter estimation method and an adaptive attitude control method based on the linear active disturbance rejection controller (LADRC) are designed separately. First, the motion model, dynamics model, and control allocation model of the quad-rotor are established according to the aerodynamic theory and Newton–Euler equations. Next, a more accurate attitude model of the quad-rotor is obtained by using a tool called CIFER to identify the aerodynamic parameters with large uncertainties in the frequency domain. Then, an adaptive attitude decoupling controller based on the LADRC is designed to solve the problem of the poor anti-interference ability of the quad-rotor and adjust the key control parameter b 0 automatically according to the change in the moment of inertia in real time. Finally, the proposed approach is verified on a semi-physical simulation platform, and it increases the tracking speed and accuracy of the controller, as well as the anti-disturbance performance and robustness of the control system. This paper proposes an effective aerodynamic-parameter identification method using CIFER and an adaptive attitude decoupling controller with a sufficient anti-interference ability.
ISSN:1000-9345
2192-8258
DOI:10.1186/s10033-020-00524-5