Understanding and Tuning Non-Linear PID Controllers for UAVs

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The discussion focuses on understanding and tuning non-linear PID controllers for UAVs, specifically quadcopters. The original poster seeks clarification on how to determine the functions that replace constant terms in non-linear PID controllers and how to tune the parameters involved. Participants suggest consulting a relevant academic paper, noting that it likely contains detailed explanations that exceed the scope of a forum response. The poster acknowledges their initial oversight in not fully understanding the paper and expresses a desire for further clarification on specific coefficients mentioned in the text. The conversation emphasizes the complexity of non-linear PID control and the importance of thorough research.
young_penguin
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TL;DR
NLPID and LPID
Hello,
I'm working on a project controlling a UAV (quadcopter)
I'm trying to understand non-linear PID controllers.
I know that a linear PID is given by:
1580127575758.png

and a non-linear PID the konstant terms are replaced with functions
1580127585624.png

My question is: how to i find these function and tune the paremeters, i don't seem to understand
Hope someone can help!
 
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Hello young penguin, :welcome:

Don't the authors describe that in their paper ?

1580132105790.png

You can hardly expect us to do much better on such a general question than a paper (probably the same as the one you looked at) of 10 pages with 32 references.
 
young_penguin said:
I haven't seen this paper
So where did your formula picture come from ?
young_penguin said:
i don't seem to understand what f_z1, f_z2, and f_z3 are.
I suppose I could read the paper thoroughly and come up with an answer. But I am certain you can read too :smile:
 
BvU said:
Hello young penguin, :welcome:

Don't the authors describe that in their paper ?

View attachment 256188
You can hardly expect us to do much better on such a general question than a paper (probably the same as the one you looked at) of 10 pages with 32 references.

Hello BvU
Sorry i was a little too fast, i was reading the paper.
thanks for the reply. I have looked at the paper you link to, and have some basic questions i hope you can answer for me.

I don't seem to understand how the coefficients k_i1, k_i2, mu and alpha are found
I see what he says in section 5.1. Step reference tracking but i don't understand it.
Hope you can help
1580135624950.png

1580135642459.png
 

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