Digital Image Processing

Course guarantor:

Lecturer:

Tutor:

Supervisor:

Department of Software Engineering

Synopsis:

This course presents a comprehensive overview of modern methods for interactive editing of digital images and video. It mainly deals with practical algorithms that are both easy to implement and have an interesting theoretical basis. Visually attractive applications provide better understanding of basic theoretical background that is also valuable outside the domain of digital image processing. This course will introduce algorithms solving the following practical applications: edge-aware editing, tone mapping, HDR compression, de-blurring in frequency domain, abstraction, hybrid images, gradient domain editing, seamless image stitching and cloning, digital photo-montage, color-to-gray conversion, context enhancement, interactive as-rigid-as-possible image deformation, free-form image registration, texture synthesis, interactive segmentation, colorization, painting, adding depth, alpha matting.

Requirements:

Elements of Calculus (BIE-ZMA)

Linear Algebra (BIE-LIN)

Probability and Statistics (BIE-PST)

Programming and Algorithmics 2 (BIE-PA2)

Graph Algorithms and Complexity Theory (BIE-GRA)

English language.

Syllabus of lectures:

1. Monadic Operations

2. Fourier Transform

3. Convolution

4. Linear Filtering

5. Non-linear Filtering

6. Image Editing

7. Image Deformation

8. Image Registration 1

9. Image Registration 2

10. Image Registration 3

11. Image Segmentation 1

12. Image Segmentation 2

13. Reserved

Syllabus of tutorials:

1. Monadic Operations

2. Fourier Transform

3. Convolution

4. Non-linear Filtering

5. Image Editing

6. Image Segmentation

Study Objective:

Study materials:

[1] He J., Kim C.-S., Kuo C.-C. J.: Interactive Segmentation Techniques: Algorithms and Performance Evaluation, Springer, 2014.

[2] Radke R. J.: Computer Vision for Visual Effects, Cambridge University Press, 2012.

[3] Goshtasby A. A.: Image Registration: Principles, Tools and Methods, Springer, 2012.

[4] Paris S., Kornprobst P., Tumblin J., Durand F.: Bilateral Filtering: Theory and Applications, Now Publishers, 2009.

[5] Gonzalez R. C., Woods R. E.: Digital Image Processing (3rd Edition), Prentice Hall, 2008.

[6] Šonka M., Hlaváč V., Boyle R.: Image Processing, Analysis and Machine vision (3rd Edition), Thomson Learning, 2007.

[7] Pratt W.: Digital Image Processing (3rd Edition), John Wiley, 2004.

Note:

https://moodle-vyuka.cvut.cz/course/view.php?id=5095

Further information:

https://moodle-vyuka.cvut.cz/course/view.php?id=5095

No time-table has been prepared for this course

The course is a part of the following study plans:

• Quantum Informatics (elective course)
• Mgr. programe Applied informatics (code ANIE) for the phase of study without specialization (VO)
• Master specialization Embedded systems (VO)
• Master specialization Business Informatics, 2026 (VO)
• Master specialization Software Engineering (VO)
• Master specialization Web Engineering (VO)
• Master specialization Visual computing and Game design (PS)
• Master specialization Computer Security, in Czech, 2026 (elective course)
• Master specialization Computer Systems and Networks, in Czech, 2026 (elective course)
• Master specialization Computer Science, in Czech, 2026 (elective course)
• Master specialization Programming Languages, in Czech, 2026 (elective course)
• Master specialization Artificial Intelligence, in Czech, 2026 (elective course)
• Master programme, for the phase of study without specialisation, ver. for 2026 and higher (elective course)