In case it is helpful, here are all my Control Theory videos in a single playlist th-cam.com/play/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o.html. Please let me know what you think in the comments. Thanks for watching!
AE511: I really liked your explanation on the relationship between theta, damping ratio, and PO! With tangent and having a pole along the line of some theta makes so much sense!
your and brian douglas control lectures are addictive. very enjoyable and very helpful to keep my knowledge of the subject fresh in my head after i finished my college course. also learning new things i wasn't familiar with when i was taking control systems. the fact that you also have matlab focused videos is more than i can ask for. thank you.
Hi, Thanks for the kind words, I know Brian and have spoken with him a few times about these types of videos. I'm glad you enjoyed the video. If you find these videos helpful, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video. Given your interest in this topic, I'd love to have you a as a Patron as I'm able to talk/interact personally with all Patrons. Thanks for watching! -Chris
I'm sorry if this was already said, but there is a more direct way to calculate the angle related to damping ratio: theta = acos(zeta). Sometimes this angle theta is also referred to as beta. Great videos, thank you!
I'm glad it was helpful. There are other control theory videos on the channel. Please feel free to check them out and let me know what you think. Thanks for watching!
Hi Tapas, Thanks for the kind words, I'm glad you enjoyed the video. If you find these videos helpful, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video. Given your interest in this topic, I'd love to have you a as a Patron as I'm able to talk/interact personally with all Patrons. Thanks for watching! -Chris
Thank you professor for the lessons. I have a question. In the video "resonant frequency of a dynamic system", u said that damping frequency (wd) and resonant frequency (wr) are different. And as I understand, wr is the frequency where oscillation happens but in this video, it is wd instead. I'm pretty confused about this. Hope to get your reply.
Hi, Thanks for reaching out, I'm glad you enjoyed the video. Unfortunately I'm unable to respond to questions on TH-cam due to the sheer volume of inquiries that I receive. That being said, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video as I'll be able to answer questions there. Given your interest in the topic, I'd love to have you as a Patron as I'm able to talk/interact personally with Patrons. Thanks for watching! -Chris
Can you do a similar video, but instead of analyzing the poles, you analyze the zeros and their influence in the dynamics? I always get confused with zeros meaningfulness
Thanks for the idea. I take video requests on my Patreon page at www.patreon.com/christopherwlum. Please free to submit your idea there and I will see if I can work it into the schedule. Thanks for watching and for supporting the channel!
In case it is helpful, here are all my Control Theory videos in a single playlist th-cam.com/play/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o.html. Please let me know what you think in the comments. Thanks for watching!
it is undoubtedly helpfull
"Hello everyone" gets me everytime. I now have some sort of Pavlovian response to it that gets me excited to learn controls! Wow!
Reminds me of Engineering explained's voice (another channel on youtube).
Best teacher!
I'm glad it was helpful, thanks for watching!
AE511: It is amazing how easy it is to visualize requirements when they are parameterized and plotted on the same plot. Great example at the end.
AE511: I really liked your explanation on the relationship between theta, damping ratio, and PO! With tangent and having a pole along the line of some theta makes so much sense!
Well I'm definitely going to save my career after watching this video :)
I'm glad it was helpful, thanks for watching!
Good info on how poles are related to high level performance requirements
This is great! I like how you addressed the real world workforce use for these topics.
great way to link the performance requirements with how we want our system to behave using the poles.
This is a very clear explanation of these topics
great follow up to the previous video !
Fascinating to see how there is a geometric interconnection between the parameters of a system
This is great video. It's exactly what I'm looking for. Thank you sir!
your and brian douglas control lectures are addictive. very enjoyable and very helpful to keep my knowledge of the subject fresh in my head after i finished my college course. also learning new things i wasn't familiar with when i was taking control systems. the fact that you also have matlab focused videos is more than i can ask for. thank you.
Hi,
Thanks for the kind words, I know Brian and have spoken with him a few times about these types of videos. I'm glad you enjoyed the video. If you find these videos helpful, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video. Given your interest in this topic, I'd love to have you a as a Patron as I'm able to talk/interact personally with all Patrons. Thanks for watching!
-Chris
@@ChristopherLum sure thing!
Thank you for the video. It has been really helpful
I'm sorry if this was already said, but there is a more direct way to calculate the angle related to damping ratio: theta = acos(zeta). Sometimes this angle theta is also referred to as beta. Great videos, thank you!
Slightly longer but just as sweet. Nice video!
Great Example at the end! Thank you Chris
Thank you sir! This has saved my butt and my understanding in my current Automatic Controls class.
I'm glad it was helpful. There are a lot more controls videos on the channel, I hope you'll check them out!
@@ChristopherLum please sir upload the missing videos
@@ChristopherLum please sir upload the missing videos
Very helpful explanations
AE511: Very thorough and interesting lecture
Really helpful example
you are simply the best
Really appreciate these videos!
good clear explanation
Thanks so much man.
I'm glad it was helpful. There are other control theory videos on the channel. Please feel free to check them out and let me know what you think. Thanks for watching!
nice explanation sirji.
Hi Tapas,
Thanks for the kind words, I'm glad you enjoyed the video. If you find these videos helpful, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video. Given your interest in this topic, I'd love to have you a as a Patron as I'm able to talk/interact personally with all Patrons. Thanks for watching!
-Chris
Спасибо огромное!
Great video!
Great video
Beautifully explained. I have a better idea of how poles influence system performance.
Very informative!
Thank You!!!!!!!!!!!!!!!!!!!!
You're welcome. I've got other videos on control theory on the channel, please feel free to check them out. Thanks for watching!
AE511-Great Lecture!
Very interesting!
Thank you professor for the lessons. I have a question. In the video "resonant frequency of a dynamic system", u said that damping frequency (wd) and resonant frequency (wr) are different. And as I understand, wr is the frequency where oscillation happens but in this video, it is wd instead. I'm pretty confused about this. Hope to get your reply.
Hi,
Thanks for reaching out, I'm glad you enjoyed the video. Unfortunately I'm unable to respond to questions on TH-cam due to the sheer volume of inquiries that I receive. That being said, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video as I'll be able to answer questions there. Given your interest in the topic, I'd love to have you as a Patron as I'm able to talk/interact personally with Patrons. Thanks for watching!
-Chris
great example!
Can you do a similar video, but instead of analyzing the poles, you analyze the zeros and their influence in the dynamics? I always get confused with zeros meaningfulness
Thanks for the idea. I take video requests on my Patreon page at www.patreon.com/christopherwlum. Please free to submit your idea there and I will see if I can work it into the schedule. Thanks for watching and for supporting the channel!
Relationship between poles and system performance
please upload frequency response analysis
Hi sir, but what about natural frequency?
AE511 good lecture
interesting
Hello everyone!
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