Modeling Physical Components, Part 1: Mathematical Models

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This is the first video of a two-part episode.

Model the physical systems of your racecar and learn about the variety of modeling methods that fit your needs. This is the first video of a two-part episode. Sebastian Castro and Christoph Hahn, of MathWorks, introduce a variety of modeling approaches and demonstrate them in Simulink®.

Sebastian describes the differences between plant models and algorithmic models and how to decide which model is best for your situation. Plant models are a virtual prototype of a real physical system that you are trying to model, whereas an algorithmic model is where you can test your algorithms on your simulation. With Simulink you can combine these two types of modeling and use available analysis tools to then further improve your design.

The many varieties of modeling include those using purely data or purely mathematical equations, and then combinations using both of these methods. Sebastian starts by looking at a suspension system using the mathematical modeling method to see how easy-to-understand equations can be used to create a model. With that same suspension system, he then moves the focus away from equations and demonstrates component-based modeling using Simscape™. This is a tool for component-based modeling that uses blocks which have the equations in the background. The benefit of this method is that you do not need to know as much detail about the equations.

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Great thank you, so useful, please could you do video about FACTS devices and networks

fatimazahramessaoud

Thanks fore this program (video), It is very useful.

myfreeideaworldwide

suwon mas, dadi maksud walaupun setitik

alfandiwicaksono

Thanks for this program (video), It is very useful

myfreeideaworldwide

Why did you use - sign at the add block that goes to K1 for Xwheel and derivative of Xwheel? It is + sign in the equation

muratkar

we get another equation for Road also right?

ajju

what is the software u use to make this images and apresentation??
Good video congrats

budapesteBR

Very useful session,
@ host- please do not make sounds when the guest is speaking, he is not delivering the lecture to you alone. thank you

NirmalKumar-orjg

Also, can there be a possible way to see a 3D rendering of the movement?

laoludavids

Sir I need a simulink model on damping of power oscillations using static synchronous series compemsator I need a video for this

shankarchikatimari

14:57 he says we use a sine wave to model the velocity of the road...why does he model the velocity of the road as an input and not the velocity of the car?

colinslavtcheff

can i model a train bridge interaction by simulink? the train wheel should be connected to rail which can be designed as a beam element and then rail should be connected to bridge which is also modeled as a beam element. i want to know the response of the bridge when the train passes through

uetiancivilian

Weather sine wave is a velocity or displacement you

lohitsk

That guy on the right needs to just shut up while the guy on the left does the presentation. He should do the introduction then disappear, then show up at the end to conclude. For some reason Matlab thinks we need a guy to occasionally interrupt by saying, "ok", "uhhhmmm", "yup."

Impedancenetwork

Hi, thank you for your comment. I'm really interested in plotting a 3D plot of relationship between amplitudes versus a values of Kcar(spring constant) and Bcar(viscosity). Your help will be appreciated. Thanks. Also can I get your email?

laoludavids

can you help me???
model backstepping controller for buck-boost converter in matlab

vantai

I did the exact same model as shown in this video... But the deflection of road and car are almost same in my scope

Please help me

StormBorn

After every statement the host "mhmm" so agitating

seggyRK

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