| Bonus Resources.txt | 102.4 B | ||
| Get Bonus Downloads Here.url | 204.8 B | ||
| ~Get Your Files Here ! | |||
| 1 - The Mathematical Model | |||
| 1. Design Brief and Objectives.en_US.srt | 8.5 KB | ||
| 1. Design Brief and Objectives.mp4 | 67.8 MB | ||
| 2 - Simulink Model Implementation | |||
| 10. Tuning and Testing the Complete Closed Loop Model.en_US.srt | 39.4 KB | ||
| 10. Tuning and Testing the Complete Closed Loop Model.mp4 | 263.9 MB | ||
| 11. In-Depth Analysis and Derivative Gain.en_US.srt | 18.5 KB | ||
| 11. In-Depth Analysis and Derivative Gain.mp4 | 86.5 MB | ||
| 6. Model Setup and Motor Transfer Function.en_US.srt | 21.2 KB | ||
| 6. Model Setup and Motor Transfer Function.mp4 | 129.8 MB | ||
| 7. Complete car Dynamics Open Loop Model.en_US.srt | 12.3 KB | ||
| 7. Complete car Dynamics Open Loop Model.mp4 | 65.3 MB | ||
| 8. Testing the Open Loop Model.en_US.srt | 24.5 KB | ||
| 8. Testing the Open Loop Model.mp4 | 127.7 MB | ||
| 9. PID Control Implementation.en_US.srt | 7.6 KB | ||
| 9. PID Control Implementation.mp4 | 38.2 MB | ||
| 2. Battery Performance and Model Input.en_US.srt | 11.7 KB | ||
| 2. Battery Performance and Model Input.mp4 | 100.8 MB | ||
| 3. Tesla Model S P85 Brushed DC Motor Equivalent.en_US.srt | 15.6 KB | ||
| 3. Tesla Model S P85 Brushed DC Motor Equivalent.mp4 | 118.5 MB | ||
| 4. The Forces at Play.en_US.srt | 9.5 KB | ||
| 4. The Forces at Play.mp4 | 88.8 MB | ||
| 5. The Car's Plant Dynamics.en_US.srt | 10.7 KB | ||
| 5. The Car's Plant Dynamics.mp4 | 83.3 MB | ||
| Lecture 1.pdf | 777.5 KB | ||
| Lecture 2.pdf | 397.3 KB | ||
| Lecture 3.pdf | 560.6 KB | ||
| Lecture 4.pdf | 782.2 KB | ||
| Lecture 5.pdf | 985 KB |
Model a Car and Design a PID Controller in MATLAB/SIMULINK
https://WebToolTip.com
Last updated 12/2018
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 2h 46m | Size: 1.15 GB
Model and simulate an electric car (Tesla Model S) in MATLAB & SIMULINK and design your own PID speed controller.
What you'll learn
Understand the manufacturing and physics behind a Model S battery.
Derive the mathematical equations behind an electric DC motor.
Understand and harness the Physics behind a moving car.
Derive the mathematical equations that govern the movements of a car.
Implement Transfer Functions into Simulink.
Implement Mathematical equations in Simulink through Matlab functions.
Use and understand common Simulink blocks such as sums, constants, integrators, etc.
Create an Open loop engineering Model in Simulink and test its performance using sink blocks.
Implement a Closed Loop PID Controller in Simulink and learn how to tune it with respect to a desired performance.
Requirements
Basic understanding of physics (Force, Velocity, Acceleration, etc).
High School Diploma mathematics level (Differentiation, etc).
Udemy Course Control Systems: From Mathematical Modelling to PID Control (useful but not mandatory).
| torrent name | size | uploader | age | seed | leech |
|---|---|---|---|---|---|
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Udemy - The High-Ticket Performance Marketing and Ai Ad Agency Model Posted by
freecoursewb in Other
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1.4 GB | freecoursewb | 3 weeks | 0 | 0 |
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Udemy - Claim Factoring Model in RCM - Financing Healthcare Providers Posted by
freecoursewb in Other
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269.3 MB | freecoursewb | 3 weeks | 0 | 0 |
| 3.3 GB | freecoursewb | 4 weeks | 18 | 5 | |
| 1.9 GB | freecoursewb | 1 month | 0 | 0 | |
| 1.6 GB | freecoursewb | 1 month | 16 | 1 |
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