Sally Carrera Mater Lightning McQueen Luigi Cars 2, Cars, compact Car, vintage Car, car png 1209x1080px 1007.25KB.Disney Pixar Cars Lightning McQueen, Lightning McQueen Mater Cars Poster Standee, Cars 3, car, pixar, vehicle png 1030x530px 483.55KB.Disney Cars Lightning McQueen illustration, Lightning McQueen Mater Cars Cartoon, Mcqueen, car, vehicle, transport png 1024x560px 461.51KB.Disney Pixar Cars Tow Mater, Mater Lightning McQueen Cars Cartoon, Lightning McQueen, vintage Car, car, pixar png 1680x1050px 2.11MB.Cars Towmater art, Cars Mater-National Championship Lightning McQueen Pixar, Cars, vintage Car, car, vehicle png 954x710px 769.64KB.Lightning McQueen, Cars Lightning McQueen Mater Sally Carrera Character, car, car, vehicle, transport png 1348x756px 773.92KB.Lightning McQueen Mater Doc Hudson Cars, Cars 3, red Lightning McQueen, car, desktop Wallpaper, pixar png 2548x1514px 2.46MB.Taking up the fight with the next gen racers? Now you know how you do it. These are just examples of all the different things you can do with the one model you have made. Since we have a vehicle model, optimal race line, simulated driver information, we can use the calculations to accurately represent how the car motion interacts with the aerodynamics in a CFD simulation, or to produce input to a wind tunnel test. So, the coupling effect is important to gain the last percentages that define the winner. In racing applications where speed is critical, any aerodynamic effect is very sensitive to how the car sits on the track, meaning how low and at what attitude the body has, as it influences the air stream under the body. In the video, the importance of downforce is highlighted. We do this by applying another solver that ensures that we can calculate how the vehicle behaves given the driver’s input and then swiftly feeds back the information how the car moves so that visual, audio and motion feedback can be given to the driver in time for the right experience. Again, we start with our model we already have, and this time we export it to the simulator. The simulator lets you know the limits of the car, and enables the engineers figure out what settings fit for a given driver’s style. A critical factor for Jackson Storm’s success it that he has been experiencing the races repeatedly in the simulator – the same success can be seen with any driver. To do this, a steady-state solver is applied to the model, which allows us to get the data we need back within a fraction of a second. Therefore, the car model must be very fast to execute. Easy? Yes, but since you want to evaluate each snapshot multiple times to find the right speed and posture of the car, as well as the right driver input, you end up with a lot of calculations. Then, we chain the points together to get the complete lap. For each snapshot we can explore how unique driver input and car settings affect the performance. In order to design the optimal race line a large amount of snapshots are taken from all around the race track. The picture below shows the car model ready to apply in our model-based engineering quest.įinding and maintaining the right race line is critical to speed. We have a library with all necessary component models, architectures and example vehicles to quickly get you going in creating your own vehicle model. Phase #1 – Develop Your Vehicle Modelįirst thing you need is a model of your car (or the car you want to build), may it be Jackson Storm, Lightning McQueen or any other type like Formula One, NASCAR, Formula E. Let’s walk through how the new generation of racer is utilizing the power of model-based methods properly and how Modelon can help you navigate each of the following phases.
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