20600 - DEEP LEARNING FOR COMPUTER VISION
Department of Computing Sciences
GIACOMO BORACCHI
Suggested background knowledge
PREREQUISITES
Mission & Content Summary
MISSION
CONTENT SUMMARY
Convolutional neural networks are mature, flexible, and powerful non-linear data-driven models that have successfully been applied to solve complex tasks in science and engineering. The advent of the deep learning paradigm, i.e., the use of neural networks to simultaneously learn an optimal data representation and the classification model, has further the data-driven paradigm. These topics will be described in the course according to the following detailed program:
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Basics of digital images, the image formation process.
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Basics of image transformations and image filtering (correlation and convolution)
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The Image Classification Problem and image classification by hand-crafted features
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Convolutional Neural Networks for Image Classification
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Famous CNN architectures,
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CNN training with data scarcity: transfer learning and data augmentation
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CNN Visualization nd CNN Explanations
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Fully Convolutional CNN and CNN for Image Segmentation
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Object Detection Network
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Unsupervised Models, Autoencoders
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Generative Adversarial Networks for Image Generation
Intended Learning Outcomes (ILO)
KNOWLEDGE AND UNDERSTANDING
- Identify the right CNN architecture to solve different visual recognition problems
- Recognize the best practices, leveraging the most popular dropout, data augmentation
- Describe and get inspiration from the most successful Deep Learning architectures
- Explain the most successful Computer Vision applications to be solved by Deep Learning models
- Illustrate complex techniques beyond the fundamental ones presented during lectures
APPLYING KNOWLEDGE AND UNDERSTANDING
Analyze a specific Computer Vision problem and find which model best solves the task at hand
Use fundamental deep learning algorithms for Computer Vision autonomously
Compare the various models and find the most relevant to be applied in the specific problem
Examine the selected model in order to balance performance, computational complexity and overfitting
Discuss the pros and cons of different Computer Vision techniques for a specific problem
Develop new pipelines adapting to the specific problem at hand
Teaching methods
- Practical Exercises
- Individual works / Assignments
- Collaborative Works / Assignments
DETAILS
The course follows an interactive and hands-on teaching modality with a strong emphasis on practical aspects. On top of the laboratory sessions, customarily held after most lectures, the course leverages project-based learning to enable students to apply the principles covered during lectures to real-world computer vision tasks.
During Practical Session carefully selected sample codes cover the key components of image analysis, and convolutional neural networks for image classification, segmentation, object recognition, and image generation. Students are encouraged to follow along and experiment with the code to gain a solid grasp of the underpinning concepts.
Projects are assigned to groups to foster a deeper understanding of the subject. The students are divided into teams, and will phase two step-projects. The first phase, which will take place during the first half of the course, is meant to teach the students how to use CNN models for solving a basic visual recognition task. In the second phase, students are invited to choose a specific computer vision problem to be solved by advanced deep learning models. The projects need to be diverse among the teams, challenging, and relevant to current real-world applications.
During the project development, students are expected to take advantage of the methods and skills presented during lectures for solving their specific task. At the end of the course, each team presents their projects to the entire class. This presentation fosters a collaborative learning environment where teams can learn from each other's successes and challenges.
Assessment methods
Continuous assessment | Partial exams | General exam | |
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ATTENDING AND NOT ATTENDING STUDENTS
Individual assignments test the students' skills about:
- analyze a specific Computer Vision problem and find which model best solves the task at hand
- use fundamental deep learning algorithms for Computer Vision autonomously
- develop new pipelines adapting to the specific problem at hand
The written exam will also test the students' proficiency in
- comparing the various models and find the most relevant to be applied in the specific problem
- examinin the selected model in order to balance performance, computational complexity and overfitting
- discussing the pros and cons of different Computer Vision techniques for a specific problem
Teaching materials
ATTENDING AND NOT ATTENDING STUDENTS
Learning Materials will be provided by the Teachers in the online platform.