Gain a better understanding of Root Locus Plots using Matlab

Man this makes me appreciate the people behind this package. They're some smart people. Also thank you for making these videos!

I like the efficiency you convey information in a short time in a clear and concise manner! Definitely will watch several times.

Man, your videos are gold. Control theory gold. I wish I had seen this when I was at the university! you definitively go deep in a way people actually grasp the concepts and ideas! keep with the excelent videos!

Incredible feature of sisotool that you show in the last part this video. That is a useful help for all. Thanks!

You explained how to use the root locus plots on MATLAB 100x better than all my professors. Thank you!

I really appreciate your videos.

The Sisotool is awesome. I didn't know about it until now. What it can do is just amazing and a lot! Quite helpful

I've watched a lot of your videos and learned a ton. This one was something special! Thanks a lot!

man you are extremely good at teaching & your matlab understandig is absolutely amazing ! congrats!! keep on teachig you are doing great !!

Great demonstration and walkthrough. I had not used sisotool before, what an eye opener! If you have more matlab walkthroughs like this with other tips and tricks for e.g. Bode plot that would be greatly appreciated. Keep up the good work

Excellent video, Brian! This tutorial is really effective and simple to follow! Thank you for your time.

Keep going and don't stop uploading your videos. I am an Asst. Professor and I explain to my students after watching videos all over the internet. I think you explain very well and also you have good examples in your videos! Simple and Effective...Cheers from India

Man! I think you're completely MASTER!

HI, I'm from Brazil, and I really appreciate your lectures! Simple awesome! Congratulations!

this is the best channel on the planet, thank you so much

Thanks Brian
You're going straight to the point
Your explanation is very helpful

Thank you so much for your effort and dedication in making these videos! They are really awesome and helped me pretty much to understand a lot of topics of classic control. When you have time, could you make some videos talking about state space control theory? Thanks in advance! Best Regards!

Thank you very much for posting those videos and I really appreciate .

You are going to heaven for these videos

ขอบคุณมาก เป็นการสอนพื้นฐานที่เข้าใจมากครับ Thank you very much for making this video.

Incredible videos! Cleared out many questions I had in mind.

Thanks for uploading this one.

Thank you my guy, you just saved my grade. It's a holiday miracle.

Really good video, great help when studying root locus.

This was the coolest thing i hv ever seen

Really awesome video!!!! Helped me out SO MUCH you have no idea! Thanks a lot! I hope you find great success on CZcams!

thank you for making this video i really benefit a lot

"Gain" a better understanding of Root Locus plots? Was that a pun?

Simply impeccable.

Spotted a typo: at 9:52 in the video, the Matlab comment text says "But a downside to rlocus is that you can't see how all of the roots move at the same time, you only have control over one root. Also, you can easily see the effect of"
The second "can" should be a "can't".
Anyway, this is an excellent video series, Brian Douglas!

Thank you for your efforts, great vids
Keep up the awesome work!

very helpful tuto... I appreciated it enough .. only explaining the essential

Very useful , your knowledge on matlab is also great. Thank you very much for your videos !

Super thumbs up, this was super useful. Thank you Brian.

You are awesome!
Thank you for doing this!

helped a lot. many thanks

lo amo señor , muchas gracias

great explaination of matlab for root locus

Your videos is more than helpful ..Thanks
Continue... :)

I really hope you could become a lecturer in my university . I wouldnt have skipped so many classes if you were my teacher

tahnk you Brain this was very intresting

This was really good!

you are legend man wish to u all the best and thank u so much

You are the best man!

Thank you so much...This video very useful.

Thanks man, this video very useful.

🔥🔥🔥 so cool, u make this course so interesting when compared to my prof

Thank You very much Your videos are very good

very helpful, thank you

NICE!!! Thank you! Great video.

Great tutorial bro

YOU ARE THE SYSTEM CONTROL GOD!!

Awesome man , really thanks

This is really fantastic because you re fantastic

Thanks very helpful!

Dude thanks a million.

Woa this is very cool, please make more control system MATLAB video.

did a great job

Very useful!

thanks sir your videos are really awsome.plz sir post something on block diagram questions.. it seems complicated solving them .

I love this video

you r really good, thanks a lot

Don't stop making videos like this ...

nice work....... u r great bro

Amazing thank u a lot. .

you are an awesome teacher, thanks for all your videos. can you do a video on predictive control (e.g. smith predictor)?

awesome man!!!!!

fantastic! thanks!

Hi Brian! First of all, thank you for helping us to understand more about this topic. I have a question. So when we use the SISO tool, and we take a look at the RootLocus, i noticed that the 'Squares' are not in the same position as the poles (for a k=1), with this transfer function you have to zoom in a lot, but i've noticed that with others transfer functions, this is more visible. So at the end using a k=1 where are our poles? Where the squares are or where the X's are?

Great lessons. Do you have any plans in presenting an equivalent analysis in the Z domain?

This video series is exactly what I'm looking for.
Btw I have a question regarding the stack TF mentioned above.
I'm working with a ship-heeling-angle control system in my uni lab. The system includes two tanks located on two sides of the hull and a gear pump which pumps water back and forth into the tanks depending on the input voltage negative or positive.
After conducting several experiments to determine the step responses with various step reference voltages, I figure out that the transfer functions might not look the same. I haven't done the system identification step yet, however from examining the graphs (which look like an integrating system with a time delay element) it seems like the the gain constant coef K differ from eachother.
I wonder if I should work with these transfer function as a stack or you know choose one that represents the whole system?
This question hasn't popped up in my head until I watched this interesting video.

good job

Great !!
Thanks :D

Awesome videos ..Loved it .... Can you make video with some real life problem and solving it using Matlab ? (Tools used can be root locus , Bode Plot ,Nyquist PLot ,Lead and Lag Compensator ,PID Tune ) That would be an amazing experience to learn under you.Thank you:)

Most seems to work in MATLAB 2024 as well.
Great video.

Thank you sir.

terrific!
i would like to know something maybe trivial
when you design a controller, you are adding notch, zeros...in order to meet the requirements. but can you add whatever you want?i mean what is the meaning in term of hardware, what is the cost of this?thank you a lot

awesome, can you help with how can i introduce any transfer function, i mean i want to make a programm which could ask for any transfer function and it could plot rlocus method

awesome!

Brian Brilliant !! Another great video.
Could you pls talk about the impact of the "pure delay" in the stability of the system.

@9:25 we can see that the popup shows a damping ratio term that is less than one. The question is, The damping ratio is defined only for the second order system (as stated earlier in the video). How are we applying the same concept here in the fourth order system ?

Great videos, could you please share a video on Digital PI controller for a motor current loop.

The videos are very helpful in order to understand the deep concepts behind the Root Locus technique. But I do have a pretty confusing question, actually two questions. I have understood all the concepts but this fundamental one is confusing me a bit.
My first question is that we use Root Locus in order to analyze our closed loop system like how the poles of our closed loop system move as we vary ''k". So then why do we plot the root locus of GH only why not 1 + GH?
My second question is pretty related to the first one. In one of your video, you said that our closed loop poles travel from the open loop poles to the open loop zeros. What does that mean?

Thanks a lot

This video is better than the new Star Wars.

Would you recommend MATHEMATICA and SYSTEMMODELER for Control System Analysis ? Or MATLAB would be a better choice for this purpose ?

Neat video. What's a nichols diagram that looks like a spider ?

has the sisotool changed because mine looks completely different and I can't do this stuff anymore?

Just messing around with the pzmap function for a second order PI controller system, how do you get the grid lines and zeta lines to map in the plot

im using matlab 2020a windows 10, only location, damping and natural f shown at the bottom, any idea how can i get the gain value?

How can I draw root locus for system with PR controler [1+Ki*s/(s^2+50^2)] and the object is G = (s+1)/(s^3+10s+15) when Ki change

how to get k value in transfer function brotha?

I have a control system where there is a disturbance that only comes into effect after 100 seconds. I am wondering how I incorperate this into the transfer function of the system? Any help would be greatly appreciated

My muscle "Gains" have been dropping recently. Should i use a lead or lag compensator?

what version of matlab do you use?

thanks

how did u get k g(s) h(s)....at the beginning of the vid

How to do the stability analysis using root locus in matlab? Please help me

Why isn't the transfer function at the beginning of the problem in the form of Gcl = (kGH/(1+kGH) ?

Which software is used for writing?