Futuristic Automotive AI

The “Futuristic Automotive” course is a thrilling expedition into the cutting-edge world of advanced automotive technology, where the boundaries of innovation are constantly pushed. Dive into the realm of autonomous vehicles and Advanced Driver Assisting Systems (ADAS) as you explore the intricacies of creating and programming self-driving robots like the Think-Car. This course merges the art of coding with AI technology, enabling you to unlock the potential of futuristic automotive solutions.

Duration

30 Hours (2 Hours each session)

Course Fee

1200 AED per month

Course Length

03-04 months

LEARNING OBJECTIVE

    • Define the key features and functionalities of  Think-Car, including its self-driving functions and Advanced Driver Assisting System (ADAS).
    • Identify the components and blocks used to build  Think-Car and understand their roles in its construction.
    • Describe the concepts of coding and AI technology and their applications in creating autonomous robots like  Think-Car.
    • Summarize the process of coding and integrating ADAS functions into  Think-Car’s functionality.
    • Explain how each function of ADAS contributes to the self-driving experience of  Think-Car.
    • Interpret the relationship between coding concepts and the practical implementation of self-driving features.
    • Utilize coding skills to program  Think-Car and enable its self-driving functions.
    • Apply each function of ADAS in the  Think-Car to enhance its driving capabilities.
    • Demonstrate the ability to make the car perform specific tasks using block-based coding.
    • Reflect on the learning process and the application of coding and AI technology to create a self-driving robot.
    • Analyze the effectiveness and limitations of  Think-Car’s self-driving functions and ADAS features.
    • Evaluate the impact of coding on the performance and behavior of the robot.
    • Compare and contrast different ADAS functions and their influence on  Think-Car’s autonomous driving.
    • Integrate multiple ADAS functions into  Think-Car to create a comprehensive autonomous driving experience.
    • Combine coding skills and AI technology to design innovative applications for  Think-Car.
    • Design new scenarios and challenges for  Think-Car to test its self-driving capabilities.
    • Evaluation:
    • Assess the performance and accuracy of  Think-Car’s self-driving functions in various environments.
    • Critique the implementation of ADAS features in  Think-Car and suggest improvements.

SESSION PLANNING

Session-wise Activities

    • Day 01. Lane Keeping Assist
    • Day 02. Intelligent Speed Limit Assist
    • Day 03. Auto Lane Chan
    • Day 04. Adaptive Cruise Control
    • Day 05. Obstacle Avoidance Driving
    • Day 06. Wall Detection Driving
    • Day 07. Auto Alley Driving
    • Day 08. Rear Self-parking
    • Day 09. Parallel Self-parking
    • Day 10. Driver Easy Access
    • Day 11. Driver’s gaze steering
    • Day 12. Additional Activity
    • Day 13: Innovation Day
    • Day 14: Problem Identification
    • Day 15: Project – Integrated project
    • Day 16: Final Project Presentation

Material Required

    • Robotmea Think Car Kit
    • Student Manual
    • Hands-out (if required)
    • Audio-Visual Aid
    • Tables
    • Chairs
    • Presentation/PPT

    Competition preparations (as per need)

Empowering Minds in the Digital Era

Address

Office 339, Office Tower, Al Ghurair Center, Deira Dubai

Contact Number

04-339-3803

Email

info@metaverseage.ae