Passivity-Based Control to Guarantee Stability | Control Systems in Practice
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- Опубліковано 30 лип 2024
- Learn about passivity-based control to guarantee closed-loop stability of feedback systems. Consider different ways to assess the stability of systems other than looking at gain and phase margin.
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You are doing a great service to the engineering community with these excellent videos.
These are definitely interesting ideas beyond the standard control system approaches.
Thank you. :)
Very nice explanations. Thanks.
Wonderful video !!
Great work✌👍
thank you for this excellent explanation. Excuse me, please help me about optimization and modelling
The promised link seams to be missing... also thanks for the nice summery
How can you ensure passivity in a real system if it holds some non-negligible transport delay? From my understanding, there is no way the Nyquist plot won't dip into the left half-plane.
You should decrease the gain.
Hi Alon, I responded to this a couple days ago with a link to an example with delay but it looks like UA-cam blocked it. So, if you Google "Passive Control with Communication Delays" you'll find a MATLAB example that shows you how to deal with some transport delays. I hope that helps!
Thanks for the answer. I found your article which was great 👍
Can you post the resource links!?
so basically energy in Lyapunov sense?
Seems like it according to Wikipedia. I guess "passivity" means a strictly stable system (all poles in LHP). For a controller, that would mean no integral action. A controller with no integral action would be useless for regulating systems, unable to compensate por peristent disturbances. So I guess no I in a PID.
so... what is my system is not passive?
Great video!
The sad part is that in the real world stability isn't enough. We have to make sure the controller/controlled system will respect the limits of the components.