In case it is helpful, here are all my Matlab videos in a single playlist ua-cam.com/play/PLxdnSsBqCrrEU0dLSrTcl0-w9cVYKMTaF.html. All my Control Theory videos in a single playlist ua-cam.com/play/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o.html. You can support this channel via Patreon at www.patreon.com/christopherwlum or by clicking the 'THANKS' button underneath the video. Please let me know what you think in the comments. Thanks for watching!
AE511: After all the videos/lecture material going indepth about manually sketching the root locus plot, how you were able to boil it down to a simple for loop was quite the sight! Great insight into the fundamentals, especially without using the fancy matlab commands
AE511: We're so spoiled with tools like matlab and mathemtica. But I appreciate that we took the time to gain (lol) some intuition for how the root locus behaves for different systems. Looking forward to practicing in the hw.
Looking at the diagrams matlab presents without any explanation to how they correlate with the one you are taught in school was such a unnecessary confusing part of my assignment. Thank you for clarifying!
I'm glad it was helpful. There are several related videos on the channel. Please feel free to check them out and I would love to hear what you think in the comments. Thanks for watching!
Thanks for reaching out. If you have questions or would like to request a video, please consider supporting the channel via Patreon at www.patreon.com/christopherwlum. I interact personally with Patrons at all levels. Thanks for watching!
Hi, Thanks for reaching out. If you have questions or would like to request a video, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video. I'd love to have you as a Patron as I'm able to talk/interact personally with Patrons. Thanks for watching! -Chris
Hi Dries, 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
Hello Sir, a question regarding the animation bit u did around 4:40 What lines do i add into this if 'zeroes' also exist along with 'poles' ? EDIT: Figured it out, it looks great. The characteristic equation needs some rearrangements for the delta array. Cheers :D
What if my closed loop transfer function also has a K in its denominator? So for example: T_(CL) = K/(3s^2+4s+1+K) If I would use [3 4 1 K], matlab would interpret this as: 3s^3+4s^2+1s+K right?
In case it is helpful, here are all my Matlab videos in a single playlist ua-cam.com/play/PLxdnSsBqCrrEU0dLSrTcl0-w9cVYKMTaF.html. All my Control Theory videos in a single playlist ua-cam.com/play/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o.html. You can support this channel via Patreon at www.patreon.com/christopherwlum or by clicking the 'THANKS' button underneath the video. Please let me know what you think in the comments. Thanks for watching!
AE511: After all the videos/lecture material going indepth about manually sketching the root locus plot, how you were able to boil it down to a simple for loop was quite the sight! Great insight into the fundamentals, especially without using the fancy matlab commands
AE511: Thank you for touching on the different matlab block diagram definition, that helped to clear things up.
AE511: We're so spoiled with tools like matlab and mathemtica. But I appreciate that we took the time to gain (lol) some intuition for how the root locus behaves for different systems. Looking forward to practicing in the hw.
AE511: This method looks MUCH easier than the plot by rules method from the prior lesson! Thanks for the breakdown Chris!
Looking at the diagrams matlab presents without any explanation to how they correlate with the one you are taught in school was such a unnecessary confusing part of my assignment. Thank you for clarifying!
I'm glad it was helpful thanks for watching
Hi, I was wondering when you'll post the "Introduction to Root Locus" Video?
quick review with plenty of examples, thank you.
Great video on the rlocus command!
It's a very useful video!
I'm glad it was helpful. There are several related videos on the channel. Please feel free to check them out and I would love to hear what you think in the comments. Thanks for watching!
Very helpful video! Thank you!
you're the best🙏❤️💛
Thanks for reaching out. If you have questions or would like to request a video, please consider supporting the channel via Patreon at www.patreon.com/christopherwlum. I interact personally with Patrons at all levels. Thanks for watching!
This video is awesome. Btw, were the intro to Freq Analysis and Intro to RL videos deleted from the playlist?
Hi,
Thanks for reaching out. If you have questions or would like to request a video, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum or via the 'Thanks' button underneath the video. I'd love to have you as a Patron as I'm able to talk/interact personally with Patrons. Thanks for watching!
-Chris
Amazing video!
Hi Dries,
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
Hello Sir, a question regarding the animation bit u did around 4:40
What lines do i add into this if 'zeroes' also exist along with 'poles' ?
EDIT: Figured it out, it looks great. The characteristic equation needs some rearrangements for the delta array. Cheers :D
Good Tutorial of Rlocus!
What if my closed loop transfer function also has a K in its denominator? So for example:
T_(CL) = K/(3s^2+4s+1+K)
If I would use [3 4 1 K], matlab would interpret this as: 3s^3+4s^2+1s+K right?
wait dumb question, could just use [3 4 (1+K)] lol
Video on matlab rlocus
ae511 good tutorial
Matlab tools for root locus
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