How to add traction force (F = p/v) to vehicle body block simscape?

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Sietse
Sietse le 6 Nov 2024 à 14:19
Commenté : Umar le 11 Nov 2024 à 15:15
Hello,
For the following Simscape model, I would like to add the resistance force (F = P/v) from a drive cycle of an existing vehicle. The goal is to match the torque/speed of the wheels with real-world conditions. Does anyone have tips on how to add this force externally?
Kind regards,
Sietse

Réponses (1)

Umar
Umar le 6 Nov 2024 à 14:58

Hi @Sietse,

The resistance force you wish to implement is typically derived from various real-world factors such as aerodynamic drag, rolling resistance, and mechanical losses in the drivetrain. The formula F = P/v suggests that the force exerted can be calculated from power (P) divided by velocity (v). This means that as speed varies during the drive cycle, so too will the resistance force acting on the vehicle. My suggestion would be creating a MATLAB Function block or use a Simulink block to calculate the resistance force based on your drive cycle data. This block should take the power and current velocity as inputs and output the resistance force:

     function F_resistance = calculateResistance(P, v)
         if v ~= 0
             F_resistance = P / v; % Ensure division by zero is avoided
         else
             F_resistance = 0; % No velocity implies no resistance
         end
     end

Use the output from your resistance calculation block as an additional input to the tire model. Specifically, connect it to a suitable port in either the Tire (Friction Parameterized) or Tire (Magic Formula) blocks, depending on your choice.

https://www.mathworks.com/help/sdl/ref/tirefrictionparameterized.html?searchHighlight=Tyre&s_tid=srchtitle_support_results_6_Tyre

https://www.mathworks.com/help/sdl/ref/tiremagicformula.html?s_tid=doc_ta

Ensure that this force acts in opposition to the direction of motion, thereby simulating realistic driving conditions. Run simulations using various drive cycles to observe how well your model's torque and speed correlate with real-world data. Adjust parameters such as friction coefficients or rolling resistance settings in your tire model if necessary.

Make sure to use accurate drive cycle data representative of real-world driving conditions (e.g., urban vs highway driving) to feed into your power calculations. Also, the fidelity of your model can be increased by incorporating other resistive forces like aerodynamic drag or adjusting tire parameters dynamically based on load and speed and keep an eye on simulation performance; increasing model complexity can lead to longer simulation times, especially if you're simulating HIL scenarios.

By following these steps, you can successfully integrate an external resistance force into your Simscape model, enhancing its accuracy in simulating real-world vehicle dynamics. Make sure to continuously validate your model against empirical data to ensure its reliability and accuracy over a range of operating conditions.

Hope this helps.

  3 commentaires
Sietse
Sietse le 11 Nov 2024 à 6:48
Thank you so much, everyone. With your help, I've developed the following model where vehicle speed and wheel torque align. To my great surprise, the Ideal Force Source block could be placed this way.
Umar
Umar le 11 Nov 2024 à 15:15
Hi @Sietse,
Glad to know that your problem is resolved. Please don’t forget to click “Accept Answer” and vote for @ Yifeng Tang efforts.

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