Artificial Intelligence in Automotive

Overview

The Artificial Intelligence in Automotive Training Course provides participants with an in-depth understanding of the applications of artificial intelligence (AI) in the automotive industry. The course covers various AI techniques and their implementation in automotive systems, including autonomous driving, advanced driver assistance systems (ADAS), predictive maintenance, and vehicle diagnostics. Participants will gain practical knowledge and hands-on experience through interactive sessions, case studies, and industry-relevant projects. By the end of the course, participants will be equipped with the skills necessary to apply AI in automotive development and contribute to the future of intelligent vehicles.

 

Objectives

• Understand the fundamentals of artificial intelligence and its relevance in the automotive industry.
• Explore the applications of AI in autonomous driving, ADAS, predictive maintenance, and vehicle diagnostics.
• Gain practical knowledge of AI algorithms and techniques used in automotive systems.
• Learn how to develop AI models and integrate them into automotive platforms.
• Understand the challenges and ethical considerations in implementing AI in automotive applications.
• Acquire hands-on experience through practical exercises, case studies, and industry projects.
• Stay updated with the latest trends and advancements in AI for the automotive sector.

 

Audience

• Automotive Engineers: Engineers working in the automotive industry, including mechanical engineers, electrical engineers, and software engineers, who are involved in the design, development, and implementation of automotive systems.
• Autonomous Driving Experts: Professionals specializing in autonomous driving technologies, including autonomous vehicle engineers, researchers, and developers, who want to enhance their knowledge of AI applications in the automotive field.
• ADAS Specialists: Individuals involved in the development and integration of Advanced Driver Assistance Systems (ADAS) in vehicles, such as ADAS engineers, researchers, and technicians.
• Data Scientists and AI Specialists: Professionals with expertise in artificial intelligence, machine learning, and data science, who want to specialize in the automotive domain and apply their skills to automotive AI applications.
• Automotive Technicians: Technicians and service professionals involved in vehicle diagnostics, maintenance, and repair, who want to understand how AI can enhance their work and improve vehicle performance.
• Researchers and Academics: Researchers and academics in the fields of artificial intelligence, robotics, automotive engineering, and related areas, who are interested in exploring the intersection of AI and the automotive industry.
• Industry Professionals: Professionals working in automotive manufacturing, suppliers, consulting firms, and related industries, who want to stay updated with the latest advancements in AI and their applications in the automotive sector.

 

Pre- requisites 

• Basic understanding of automotive engineering principles and systems.

• Familiarity with programming concepts and languages, such as Python or C++.

• Basic knowledge of machine learning concepts and algorithms.

• Understanding of data analysis and manipulation techniques.

• Familiarity with relevant mathematical concepts, such as linear algebra and calculus.

• Basic knowledge of autonomous driving and Advanced Driver Assistance Systems (ADAS) is beneficial but not required.

Duration: 5 days – 35 hrs

Course Content

Day 1: Introduction to Artificial Intelligence in Automotive

• Introduction to the course objectives and agenda.
• Overview of artificial intelligence and its significance in the automotive industry.
• Applications of AI in autonomous driving, ADAS, predictive maintenance, and vehicle diagnostics.
• Understanding the challenges and benefits of implementing AI in automotive systems.
• Ethical considerations and safety aspects of AI in automotive applications.

 

Day 2: AI Techniques for Autonomous Driving

• Introduction to autonomous driving and its levels of automation.
• Perception systems: computer vision, sensor fusion, and object detection.
• Decision-making algorithms: path planning, behavior prediction, and control.
• Machine learning for autonomous driving: deep learning, reinforcement learning.
• Case studies and practical examples of AI-enabled autonomous driving systems.

 

Day 3: Advanced Driver Assistance Systems (ADAS)

• Overview of ADAS and its role in enhancing vehicle safety.
• AI-based algorithms for ADAS functionalities: lane detection, adaptive cruise control, collision avoidance, etc.
• Sensor fusion and data integration for ADAS applications.
• Evaluating and testing ADAS algorithms for real-world scenarios.
• Hands-on exercises and simulation for developing ADAS features.

 

Day 4: Predictive Maintenance and Vehicle Diagnostics

• Introduction to predictive maintenance in the automotive industry.
• AI-based techniques for fault detection, prognosis, and remaining useful life estimation.
• Vehicle diagnostics using machine learning and data analytics.
• Real-time monitoring and anomaly detection in automotive systems.
• Case studies and practical examples of predictive maintenance and diagnostics in vehicles.

 

Day 5: Project Work and Industry Perspectives

• Collaborative project work: Participants form teams to work on AI-driven automotive projects.
• Implementing AI algorithms and techniques in the project.
• Project presentations: Teams showcase their projects and discuss the outcomes.
• Guest lectures and industry perspectives on AI in the automotive sector.
• Recap of the course content, Q&A session, and future trends in AI for automotive.