Quadrotor dynamics modelling using simulink
The following things are modelled:
- Quadrotor dynamics
- Motor dynamics
- Kalman filter for state estimation
- Simple sensor model/ ADC conversion
The following are not modelled:
- Propeller dynamics
- Control laws
- Power subsystem
This sim can be used for:
- System feasibility studies
- System performance assessment and trade-offs
- Control law performance evaluation
I am sorry but I do not entertain emails regarding any type of support.
Details about Quadrotor dynamics can be found in this paper:
http://e-collection.library.ethz.ch/eserv/eth:7848/eth-7848-01.pdf
My Linkedin page is:
https://www.linkedin.com/in/dr-balaji-kumar-p-eng-3507b713
My Personal website:
www.interstellargalactic.com
Important - Please run KF_setp.m to initialize Kalman Filter variables.
Do not forget to declare system input variables and initial conditions once you are in the sim. Motor variables have to be declared by opening the "Motor Dynamics" block mask.
Cite As
astroman2030 (2024). Quadrotor dynamics modelling using simulink (https://www.mathworks.com/matlabcentral/fileexchange/42666-quadrotor-dynamics-modelling-using-simulink), MATLAB Central File Exchange. Retrieved .
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- Physical Modeling > Simscape Driveline > Sensors >
- Industries > Aerospace and Defense > Quadcopters and Drones >
- Physical Modeling > Simscape Electrical > Applications > Converters (High power) >
- Engineering > Mechanical Engineering > Statics and Dynamics >
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