In case it is helpful, here are all my Control Theory videos in a single playlist ruclips.net/p/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o. Please let me know what you think in the comments. Thanks for watching!
AE511: Great lecture. It was very helpful to have the explanation of the inputs and outputs for the different functions in an easier to understand format than the Matlab help.
AE511: I liked that we learned the functions in order of increasing complexity - do any of the three functions have the ability to automate the GUI interaction and output results? Or is some manual interaction within the GUI always required? I'm thinking of a scenario where you'd want to analyze a wide range of transfer functions with speed being of interest.
u(t) can actually be anything you want, it all depends on how you model the system. In some cases it is a force and others it can be a displacement (or anything else like an aileron deflection, etc.)
How do you analyze experimental data? Let's say you have the reference signal and feedback signal in the time domain measured from an oscilloscope. How do you derive the transfer function from those measurements to feed it into the linearSystemAnalyzer? Or experimental data is dealt with in a completely different manner?
In case it is helpful, here are all my Control Theory videos in a single playlist ruclips.net/p/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o. Please let me know what you think in the comments. Thanks for watching!
Great tutorial for the linear system analyzer in Matlab!
AE511: Great lecture. It was very helpful to have the explanation of the inputs and outputs for the different functions in an easier to understand format than the Matlab help.
I'm glad it was helpful, let me know how the rest of the videos go!
Wow, thank you, so much great info in the past few days.....these are great resources, much appreciated.
Thanks for watching, I'm glad you enjoy them.
Great vedio
AE511 - Helped me sort through parts of reading the manual that didn't make sense for the program. Thanks!
thanks for explaining all the steps
AE511: This was an extremely helpful lecture, thanks!
Glad it was helpful!
Perfect! Can I modify the magnitude of the step input in linearSystemAnalyzer to be 1.5?
Thank you very much..but I was looking for the simulink linearizer
Video is helpful and kindly make video on 2-dof system with damped forced system on time domain or frequency domain....Thanks in advance
Great video!
AE511: I liked that we learned the functions in order of increasing complexity - do any of the three functions have the ability to automate the GUI interaction and output results? Or is some manual interaction within the GUI always required? I'm thinking of a scenario where you'd want to analyze a wide range of transfer functions with speed being of interest.
My typical workflow is to use the GUI to do some preliminary testing but then rapidly move to script based programming as it offers more flexibility.
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I assume it's possible to code the metrics so they output as data rather than having to use the GUI to solve for them?
AE511: Stupid question, but is u(t) a force or a displacement? It must be a force right?
u(t) can actually be anything you want, it all depends on how you model the system. In some cases it is a force and others it can be a displacement (or anything else like an aileron deflection, etc.)
How do you analyze experimental data? Let's say you have the reference signal and feedback signal in the time domain measured from an oscilloscope. How do you derive the transfer function from those measurements to feed it into the linearSystemAnalyzer? Or experimental data is dealt with in a completely different manner?
I want to make a quarter car program on matlab. How to make these result values become input in another function?
AE511: This seems much easier than all the math we did last week to accomplish the same thing haha.
AE511 - Thanks for the lecture
may i know how the equation for steady state error is obtained at 9:00
AE511 - On the blackboard for TsTilde, missing a negative in front of the ln.
ae511 good lecture
Matlab resources for time domain analysis
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