cnpcshangbo/FOPD-tunner
FOPD-tunner
Fractional order proportional derivative controller tuner
Related Publications:
Bo Shang, Jianxin Liu, Tiebiao Zhao and YangQuan Chen, "Fractional order robust visual servoing control of a quadrotor UAV with larger sampling period," 2016 International Conference on Unmanned Aircraft Systems (ICUAS), Arlington, VA, 2016, pp. 1228-1234. PDF
1. License
FOPD-tunner is released under a MIT license.
If you use FOPD-tunner in an academic work, please cite:
@inproceedings{shang2016fractional,
title={Fractional order robust visual servoing control of a quadrotor UAV with larger sampling period},
author={Shang, Bo and Liu, Jianxin and Zhao, Tiebiao and Chen, YangQuan},
booktitle={Unmanned Aircraft Systems (ICUAS), 2016 International Conference on},
pages={1228--1234},
year={2016},
organization={IEEE}
}
2. Prerequisites
We have tested the library in MATLAB 2016b and Windows 7, but it should be easy to run in other platforms.
Control model
screenshot 2017-08-15 17 51 47
MATLAB System Identification Toolbox
Convert the identified model to this format:
screenshot 2017-08-15 20 25 37
Then we can get the parameter k and tau.
FOTF Toolbox
https://www.mathworks.com/matlabcentral/fileexchange/60874-fotf-toolbox
Oustaloup
3. Downloading FOPD-tunner library and run examples
Clone the repository:
git clone https://github.com/cnpcshangbo/FOPD-tunner.git
4. Run examples
Tune IOPID controller
Enter the folder named "1. iopid_tune_pid", open "iopid_tune.m", update the plant parameters identified MATLAB System Identification Toolbox, then run it to tune IOPID controller and get related parameters (integer order PID parameters kp, ki, kd, cross over frequency omega_c and phase margin phi).
Tune FOPD controller
Setting parameters
Open file "cal_lambda_ki_kp_bode.m". Set fractional order lambda to -1~0, update the parameters k and tau, cross over frequency omega_c and phase margin phi.
Note: When lambda is negative, a PI controller becomes a PD controller.
Plotting ki against lambda
Run the first cell of "cal_lambda_ki_kp_bode.m". You will see the three curves. Zoom the curves to find crosspoints. The coordinates of the crosspoints are lambda and ki.
Verify the crosspoints
Run the "Solution 1" cell of "cal_lambda_ki_kp_bode.m" to double check if the crosspoint is the solution of the equations.
Verify the tuned FOPD controller
Run the "Verify the controller 1" cell of "cal_lambda_ki_kp_bode.m" to verify if the phase curve is flat at crossover frequency. At the same time kp will be displayed. The we can get the transfer function of the tuned FOPD controller.
Controller analysis with Simulink
Open the file "run_simulink.m", update the parameters and run the script. image image
Co-Simulation with Gazebo
We use the Robotics System Toolbox to cooperate with Gazebo. The Gazebo part follows Erlerobotics simulation.
Follow this document to take off the drone:
http://docs.erlerobotics.com/simulation/vehicles/erle_copter/tutorial_5 drone taken off
Launch MATLAB
Install Robotics System Toolbox. Initial ROS in MATLAB.
ROS with MATLAB node
Use the ROS Publish block in Simulink to publish topic for velocity setpoint. ROS Publish block
Use Simulink to move a drone in Gazebo
Zitieren als
Bo (2024). cnpcshangbo/FOPD-tunner (https://github.com/cnpcshangbo/FOPD-tuner), GitHub. Abgerufen.
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1. iopid_tune_pid
controller analysis with Simulink
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Version | Veröffentlicht | Versionshinweise | |
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1.0.0.0 |
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