Hands-On Application Of Vehicle Performance Using MATLAB

Description

It is said that the best way to understand a theory is to put it into practice.

This course is an example-based course in which most of the lectures are given as problems that need to be solved through a proper understanding of the theoretical part. Thus, the student will be able to apply what he learns at a fast rate from one example to another.

What you are going to learn from this course:

1-Understand and analyze the different resisting forces that affect the vehicle while driving and build the mathematical resistance model of the vehicle.

2-Analyze Vehicle dynamics that is related to vehicle performance.

3-Study and generate the characteristic curves of a vehicle’s engine and understand how the engine/motor torque is used by the vehicle to overcome road resistances.

4-Understand the influence of Resisting forces on vehicle Power requirements and Model the road resistances in MATLAB.

5-Understand and calculate the performance characteristics of a vehicle ( eg. max. vehicle speed, Acceleration time, Max Grade, Electric vehicle Range).

6-Grab the Know-how of Predicting vehicle performance under certain required driving conditions.

7-Understand how different parameters influence vehicle performance.

8-Simulation of Vehicle Dynamics using the dynamic characteristic graph and determining vehicle power factor.

9-How to Analyze the factors affecting the power performance of an electric vehicle.

10-Learn how to Perform a Driving range simulation for an electric vehicle at a constant speed.

11-Analyzing the performance of (BEV, Battery-powered electric vehicle) based on power characteristics matching simulation of the vehicle transmission system.

12-Grab the Know-how of calculating and determining the electric motor power according to the vehicle resistance requirement.

13-Learn how to perform transmission system matching with MATLAB simulation for Extended-range Electric Vehicles (E-REV).

14-Learn how to select a motor that matches your designed electric vehicle requirements ( parameter matching ).

15-Grab the Know-how of performing a battery parameter matching to achieve the desired requirement for your designed electric vehicle.

16-Know how to Perform a Driving system matching simulation of a fuel cell electric vehicle.

17-Establishment of fuel cell matching mathematical model and Matching fuel cell parameters with MATLAB.

18-Know about cycle state of an electric vehicle –Driving range simulation according to NEDC driving cycle.

19-Analysis and simulation of the driving range of the electric vehicle under the NEDC driving cycle condition.

20-Study of factors affecting the driving range of an electric vehicle.

21-Simulation of Electric vehicle transmission based on a conditional method to match NEDC cycle requirements.

22-learn how to match the driving motor parameters, and power battery based on the NEDC working condition.

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