Self-Supervised Learning
Registration Reopens Fall 2025
Transform Computer Vision with Self-Supervised Learning
Course Description
Dive into the cutting-edge world of self-supervised learning (SSL) for computer vision in this dynamic and hands-on course. SSL is revolutionizing AI by enabling models to learn from vast amounts of unlabeled data, making it a true game-changer.
In this course, you’ll explore popular SSL methods like SimCLR, MoCo, BYOL, and Vision Transformers (DINO), while gaining hands-on experience using PyTorch to build and train your own models. Engage in interactive coding sessions and apply SSL techniques to real-world datasets through project-based assessments, ensuring you gain both theoretical knowledge and practical expertise. Whether you’re an AI enthusiast or a professional looking to advance your skills, this course will equip you with the tools to create more efficient and scalable computer vision models. Join us and be at the forefront of AI innovation!
This course is one of 6 courses in the Advanced AI Techniques pilot Micro-Credential pathway offered by the Translational AI Center at Iowa State University.
Complete any 3 courses listed below to earn the Advanced AI Techniques badge:
- Scientific Machine Learning (SciML)
- Graph Neural Network
- Self-Supervised Learning
- Parallelism in Deep Learning
- 3D Vision – Nerfs & INRs
- Reinforcement Learning
Learn more about Micro-Credentials at Iowa State University!
Prerequisites
- Python programming
- Fundamental idea of Computer Vision
Intended Audience
This course is aimed at software engineers, data scientists, data engineers, data analysts, research scientists, and developers who wish to advance their understanding of computer vision. Previous participants have included professionals from leading technology and AgriTech companies.
Learning Outcomes
Assessments
Course Outline
By the end of the course, you should be able to:
- Understand the fundamentals of self-supervised learning (SSL) and its role in computer vision, including classical and recent methods.
- Implement SSL methods, including contrastive, clustering-based, and generative approaches, using PyTorch.
- Apply and evaluate SSL models for various downstream tasks such as image classification, object detection, and segmentation.
- Optimize and deploy SSL models using techniques like quantization, pruning, and TorchScript/ONNX for real-world applications.
- Explore advanced SSL techniques, future trends, and their applications in different domains of computer vision.
- 3 Quizzes: Test comprehension of fundamental self-supervised learning concepts.
- 1 Coding Assignment: Implementing both classical and state-of-the-art SSL methods. Also, fine-tuning SSL models for different downstream tasks and evaluating their performance.
- Module 1: Fundamentals of Self-Supervised Learning
- Module 2: Implementation of SSL Methods
- Module 3: Applying SSL Models to Downstream Tasks
- Module 4: Advanced SSL Techniques and Future Trends
Course Procedures
The course starts on November 4, 2024. All coursework must be completed by December 31, 2024, in order to earn the micro-credential badge. You will continue to have access to the course materials until August 31, 2025. The approximate time to complete this course is 16 hours.
This course has an instructional period from November 4 to December 6, 2024. During this instructional period, course materials will be released weekly and live synchronous sessions will be held. You may complete the course materials at your own pace. Live Zoom meetings will be conducted for interactive coding sessions. A suitable time for these live sessions will be determined through a group poll. The recordings of those sessions will be available soon after each meeting.
You will receive the Self-Supervised Learning micro-credential badge upon successful completion of the course assessments.
Course Materials
Course materials are provided within the course. No additional purchase is required.
Contact Information
Contact isopd@iastate.edu for more information.
Course Developer
The Translational AI Center breaks down disciplinary silos to bring together core Iowa State artificial intelligence researchers and subject matter experts interested in applying new technologies to their work. For more information, visit Translational AI Center at Iowa State University
At a Glance
Registration Cost: $750.00 $500 USD
(Initial Promo)
*$300 Student & Government Employee
Course Hours: 16 hours
Course Start Date: November 4, 2024
Last Day to Register: November 8, 2024
Instructional Period & Live Sessions: November 4-December 6, 2024
Last Day to Earn a Micro-Credential Badge: December 31, 2024
Time to Complete Badge: 57 Days
*At the time of registration, you’ll be asked to create an account for this course. Use an email address ending in “.edu” or “.gov” to receive a discount. $200.00 will be immediately credit back after purchase.
Instructor
Zaki Jubery, Research Scientist
Zaki Jubery is a research scientist in the Translational AI Center (TrAC) at Iowa State University. His research interests are in (i) High-throughput phenotyping (ii) Crop modeling (iii) Image processing (iv) Applied machine learning in agriculture.
Zaki works on integrating engineering tools into various agricultural applications. He has been dedicated to pioneering research in this field since September 2013.
Zaki earned his Ph.D. in Mechanical Engineering from Washington State University and completed a postdoctoral fellowship at the University of Illinois Urbana-Champaign. Before transitioning to agriculture, his background includes designing, simulating, and manufacturing point-of-care microfluidics sensors for biomedical and industrial applications.