Analyzing Vehicle Performance For Petrol,Hybrid And Electric Cars Using MATLAB From Zero to Hero
What you'll learn Understand and analyze the different resisting forces that affect the vehicle while driving and build the mathematical resistance model of the vehicle.
Analyze Vehicle dynamics related to vehicle performance.
Study and generate the characteristic curves of a vehicle's engine and understand how an engine/motor torque is used by the vehicle to overcome road resistance.
Understand the influence of Resisting forces on vehicle Power requirements and Model the road resistances in MATLAB .
Understand and calculate the performance characteristics of a vehicle ( eg. max. Vehicle speed, Acceleration time, Max Grade, Electric vehicle Range)..
Understand vehicle Braking performance and How ABS is used to maintain vehicle stability in MATLAB.
Learn How to analyze the braking performance of the vehicle including braking efficiency.
Grab the Know-how of Predicting vehicle performance under certain required driving conditions .
Understand how different parameters influence vehicle performance.
Simulation of Vehicle Dynamics using the dynamic characteristic graph and determine vehicle power factor.
How to Analyze the factors affecting the power performance of an electric vehicle.
learn how to perfotm a driving range simulation for an electric vehicle at a constant speed.
Analyze the performance of (BEV, Battery-powered electric vehicle) based on power characteristics matching simulation of the vehicle transmission system.
Grab the Know-how of calculating and determining the electric motor power according to the vehicle resistance requirement.
Learn how to perform transmission system matching with MATLAB simulation for Extended range Electric Vehicles (E-REV) .
Learn How to select a motor that matches your designed electric vehicle requirements ( parameter matching ).
Grab the Know-how of performing a battery parameter matching to achieve the desired requirement for your designed electric vehicle.
Know how to perform Driving system matching simulation of a fuel cell electric vehicle.
Establishment of fuel cell matching mathematical model and Matching fuel cell parameters with MATLAB .
Cycle state of an electric vehicle – Driving range simulation according to NEDC driving cycle.
Analysis and simulation of the driving range of the electric vehicle under the NEDC driving cycle condition.
Study of factors affecting the driving range of an electric vehicle.
simulation of Electric vehicle transmission based on a conditional method to match NEDC cycle requirements.
learn how to match the driving motor parameters, power battery based on the NEDC working condition.
Requirements Just basic knowledge of MATLAB,Mathematics,and Calculus.
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.
Who this course is for
You are a beginner to the field of vehicle dynamics and control
You are an enthusiast who wants to join and get insight into the Vehicle Control Field in the future
You want to join the fast-pace-developing field of designing and building your own electric vehicle.
You are research student who is new to Research Life and want to speed up the process of learning about the Automotive field
you are getting prepared to join a Master degree program in vehicle engnieering.
you are joining one of the vehicle engineering famous competitions (e.g. Formula student competition & Formula student electric challenge )