Purpose of Global International Education Program
- Strengthen internal and external public relations of universities by operating short-term technical education programs for foreigners
- We want to promote international exchanges and operate and expand competitive international education programs
Welcome to our comprehensive course on building electric cars using 3D printing.
This program is designed to provide students with hands-on experience in designing, printing, and assembling electric car components. Below you will find the detailed schedule and topics for each session.
Introduction
Electric Vehicle Maker’s Course: Educational Program Introduction
Hardwares
Electric Vehicle Design and Production Using 3D Modeling and Printing
Electric Circuits & Coding
Build Electric Circuits and Assemble an Electric Vehicle
Camera Settings & Improvement
FPV Camera Setting and Improving Electric Vehicle Performance
This course is for Everyone!
Make your own Electric Car and Bring it back home!
Real Industry Education
Applied course for Hyundai Motors Employee educational program High-level Hands on Courses
For everyone
Preliminary knowledge in Electronics, Software or Coding is not required Course materials are provided for everyone
Test your limit
With new skill sets, improve the performance of your car Test your car performance
Lectures
For each Lesson, a professor will be designated Also, course assistant will be there to help
Daily Topic
DAY 1. 3D Printing Basics
Method: Theory / Practice
Materials Needed: Electric Car Kit (electric circuits, controllers, tools)
Topics Covered
Theory behind powertrain for electric vehicles
Wireless communication setup (vehicle, controller)
Wiring and connecting electric circuits (vehicle, controller) / PCB version
Coding (for vehicle control)
DAY 2. Modifying 3D Models and 3D Printing the Car Partss
Method: Theory / Practice
Materials Needed: 3D printer, filament, laptop (with Fusion360, Cura, and Arduino installed)
Topics Covered
Creating 3D models of car parts using Fusion360
Designing and printing a bumper
Designing and printing a camera mount
Improving electric car parts design
DAY 3. Powertrain and Circuit Design Practice
Method: Theory / Practice
Materials Needed: Electric Car Kit (electric circuits, controllers, tools)
Topics Covered
Theory behind powertrain for electric vehicles
Wireless communication setup (vehicle, controller)
Wiring and connecting electric circuits (vehicle, controller) / PCB version
Coding (for vehicle control)
DAY 4. Assembling Vehicle Hardware
Method: Theory / Practice
Materials Needed: 3D Printed Outputs (Chassis, Differential Gear, Disc Brake, Controller)
Topics Covered
Understanding and Creating Electric Car Hardware
Assembling Differential Gears
Assembling Disc Brakes
Assembling Chassis Frames
Completing Electric Car Assembly (Hardware + Circuit)
DAY 5. FPV Setup for Remote Driving and Test Runs
Method: Theory / Practice
Materials Needed: FPV goggle, FPV camera
Topics Covered
Setting up FPV (Goggles / Camera)
Changing FPV Camera Channels
Selecting the Optimal Camera Position on the Vehicle
Driving Practice
Debugging and Identifying Areas for Improvement
DAY 6. Improving Vehicle Performance
Method: Theory / Practice
Materials Needed: Previously provided materials
Topics Covered
Driving Practice Using FPV Remote Control
Improving Electric Car Performance (Electric circuits, Hardware, Coding)
DAY 7. Racing Competition
Method: Theory / Practice
Materials Needed: Previously provided materials
Topics Covered
Electric Car Competition Using FPV Remote Control
Preliminary Round: Individual Driving (Time Trials)
Final Round: 1-on-1 Driving (Tournament)
DAY 8. Self-driving Car Racing Competition
Method: Theory / Practice
Materials Needed: Controller, electric circuits, SD card
Topics Covered
Deep learning theory
Image-Based Model Training
Behavior Cloning for Autonomous Driving
Drive Missions (Driving, Traffic Lights, Obstacle Avoidance, Parking)
Competition (Autonomous Driving Racing)
