Deep learning for autonomous vehicles
Summary
Deep Learning (DL) is the subset of Machine learning reshaping the future of transportation and mobility. In this class, we will show how DL can be used to teach autonomous vehicles to detect objects, make predictions, and make decisions. (Fun fact: this summary is powered by DL)
Content
1. Introduction:
- Defining Autonomous Vehicles, Artificial Intelligence, Machine Learning, and Deep learning
- Overview of the 3 pillars of Autonomous Vehicles: Perception, Prediction, Planning
- Quick overview of sensing modalities
2. Deep learning for Perception (how to extract meaningful information from raw data?)
- Quick recap on the fundamentals of machine learning (fundamentals of regression and classification)
- Intro to deep learning (Neural Network, CNN, regularization techniques)
- State-of-the-art techniques (e.g., Self supervised learning, Vision Transformer)
3- Deep learning for Prediction
- Intro to Recurrent Neural Networks
- Learning to clone socially-accepted human behavior
- State-of-the-art techniques (e.g., Graph Neural Network, Transformer, Diffusion...)
3- Deep Learning for Planning
4- Beyond Deep Learning: role of ethics
- How to integrate ethical decisions?
Keywords
Deep Learning, Autonomous Vehicle, Artificial intelligence, Machine learning, Self-driving car, human-robot tandem race
Learning Prerequisites
Required courses
- Knowledge of Python
- Understanding of linear algebra and calculus
- Introductory knowledge of Machine Learning concepts
Learning Outcomes
By the end of the course, the student must be able to:
- Define the fundamental steps behind an AI-driven system
- Design the building steps of an autonomous vehicle
- Implement an algorithm for each step
- Explain and understand the challenges and ethical impacts
Transversal skills
- Set objectives and design an action plan to reach those objectives.
- Communicate effectively, being understood, including across different languages and cultures.
- Demonstrate the capacity for critical thinking
Teaching methods
Ex cathedra
Expected student activities
- Attend lectures and participate in discussions
- Complete weekly programming assignments
- Work on hands-on projects to apply deep learning techniques to autonomous vehicle tasks
- Engage in group projects and present findings
- Participate in a final project showcasing the application of deep learning in autonomous vehicles
Assessment methods
- Lab projects (Individual): 30%
- Midterm (Individual): 30%
- Final project (in group): 40%
Supervision
Office hours | Yes |
Assistants | Yes |
Forum | Yes |
Others | Online Platform: Access to course materials, forums for discussion, and submission portals for assignments |
Resources
Virtual desktop infrastructure (VDI)
No
Notes/Handbook
Online Resources: Access to online courses, tutorials, and documentation for deep learning frameworks
Moodle Link
Prerequisite for
- Advanced Courses:Â This course prepares students for more advanced topics in AI, robotics, and control systems
- Industry Roles:Â Equips students with skills relevant for careers in autonomous vehicle development, robotics engineering, and AI research
- Research Projects:Â Provides a foundation for conducting research in deep learning applications within the field of autonomous systems
In the programs
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Spring
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
- Exam form: During the semester (summer session)
- Subject examined: Deep learning for autonomous vehicles
- Courses: 2 Hour(s) per week x 14 weeks
- Exercises: 4 Hour(s) per week x 14 weeks
- Type: optional
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