Master Vehicle Dynamics: Complete MATLAB & Simulink Guide 2024
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5:58:51
1 - Introduction.mp4
01:29
2 - Chapter 1 Lateral acceleration.mp4
01:06
3 - Chapter 1 Load transfer.mp4
02:37
4 - Chapter 1 Tires.mp4
02:49
5 - Chapter 1 Cornerig Force Characteristics.mp4
10:02
6 - Chapter 1 Secondary Parameters.mp4
06:21
7 - Chapter 1 Selfaligning Torque.mp4
02:39
8 - Chapter 1 Tire models.mp4
03:29
9 - Chapter 1 Linear models.mp4
00:25
10 - Chapter 1 Nonlinear models.mp4
00:30
11 - Chapter 1 Dugoff model.mp4
04:12
12 - Chapter 1 Magic formula.mp4
02:45
13 - magic formula matlab example.mp4
07:33
14 - Chapter1.pdf
14 - Lecture Slides.html
15 - Intro.mp4
01:13
16 - Chapter 2 Vehicle model.mp4
05:48
17 - Chapter 2 Bicycle model.mp4
18:14
18 - Chapter 2 Introduction to state space.mp4
13:44
19 - Chapter 2 Stability Analysis.mp4
04:55
20 - Chapter 2 Handling Characteristics.mp4
06:30
21 - Chapter 2 Another look at handling.mp4
06:36
22 - Chapter 2 Common mistakes to be avoided.mp4
03:05
23 - Chapter2.pdf
23 - Lecture Slides.html
24 - Introduction to Simulink Slip angle block.mp4
10:48
25 - Chapter 3 Articulated Vehicles.mp4
02:18
26 - Chapter 3 Single degree of freedom model.mp4
06:06
27 - Chapter 3 Three degree of freedom model.mp4
10:00
28 - Chapter 3 Stability Analysis.mp4
04:22
29 - Chapter 3 Steady State Behavior.mp4
04:33
30 - Chapter 3 Articulated vehicle instabilities.mp4
03:15
31 - Chapter3.pdf
31 - Lecture Slides.html
32 - Chapter 4 4WS.mp4
06:43
33 - Chapter 4 4WS vehicle model.mp4
04:41
34 - Chapter 4 4WS strategies.mp4
11:19
35 - Chapter 4 A Selection of control strategies.mp4
07:20
36 - Chapter 4 4WS examples Optional.mp4
05:01
37 - Chapter4.pdf
37 - Lecture Slides.html
38 - Chapter 4 Matlab Simulation Example Optional.mp4
24:59
38 - hw5-vehicle-2024.zip
39 - Chapter 5 Roll Center Roll Axis.mp4
11:04
40 - Chapter5o.pdf
40 - Lecture Slides.html
41 - Chapter 6 Higher DOF models.mp4
04:23
42 - Chapter 6 3 DOF model.mp4
11:06
43 - Chapter6o.pdf
43 - Lecture Slides.html
44 - Chapter 7 Ride Comfort.mp4
09:21
45 - Chapter 7 Body Bounce.mp4
07:55
46 - Chapter 7 Wheel Hop.mp4
02:14
47 - Chapter 7 Quarter Car Model.mp4
16:27
48 - Chapter 7 Quater Car Simulation Problem.mp4
03:41
49 - Chapter 7 Quarter Car Model Simulation in Matlab.mp4
19:46
49 - quarter-car-model.zip
50 - Chapter 7 Quater Car Transfer Function in Matlab.mp4
06:07
51 - Chapter 7 Transfer Functions.mp4
05:46
52 - Chapter 7 Invariant Points Optional.mp4
02:48
53 - Chapter 7 Half Car Model.mp4
09:48
54 - Chapter 7 4DOF Model.mp4
01:49
55 - Chapter7o.pdf
55 - Lecture Slides.html
56 - Chapter 8 Active Suspensions.mp4
06:12
57 - Chapter 8 Basic Active Suspension Model.mp4
02:47
58 - Chapter 8 Introduction to LQR control.mp4
13:11
59 - Chapter 8 LQR control example.mp4
08:41
60 - Chapter 8 Active Quarter Car Model.mp4
04:42
61 - Chapter 8 Active Quarter Car Control Example.mp4
03:36
62 - Chapter8o.pdf
62 - Lecture Slides.html
More details
Course Overview
This comprehensive course teaches vehicle dynamics fundamentals, state-space modeling, and simulation techniques using MATLAB & Simulink. Gain hands-on experience with tire modeling, bicycle models, suspension systems, and control strategies through practical examples.
What You'll Learn
- Analyze vehicle handling using bicycle models and state-space methods
- Implement tire models including Dugoff and Magic Formula in MATLAB
- Design and optimize passive/active suspension systems
Who This Is For
- Engineers seeking to improve vehicle simulation skills
- Control systems specialists working with automotive applications
- Students mastering vehicle dynamics concepts
Key Benefits
- Practical MATLAB/Simulink examples with downloadable resources
- Coverage of both handling and ride comfort analysis
- Includes advanced topics like 4-wheel steering and LQR control
Curriculum Highlights
- Vehicle Handling & Tire Dynamics
- Bicycle Models & State-Space Analysis
- Suspension Systems & Ride Comfort
Focused display
Category
- language english
- Training sessions 54
- duration 5:58:51
- Release Date 2025/06/07
