Course details

Image Processing

ZPO Acad. year 2020/2021 Summer semester 5 credits

Current academic year

Introduction to image processing, image acquiring, point and discrete image transforms, linear image filtering, image distortions, types of noise, optimal image filtering, non-linear image filtering, watermarks, edge detection, segmentation, motion analysis, loseless and lossy image compression

Guarantor

Zemčík Pavel, prof. Dr. Ing., dr. h. c. (DCGM)

Course coordinator

Beran Vítězslav, doc. Ing., Ph.D. (DCGM)

Language of instruction

Czech, English

Completion

Examination (written)

Time span

  • 26 hrs lectures
  • 26 hrs projects

Assessment points

  • 51 pts final exam (written part)
  • 10 pts mid-term test (written part)
  • 39 pts projects

Department

Department of Computer Graphics and Multimedia (UPGM)

Lecturer

Bařina David, Ing., Ph.D. (DCGM)
Beran Vítězslav, doc. Ing., Ph.D. (DCGM)
Španěl Michal, Ing., Ph.D. (DCGM)
Zemčík Pavel, prof. Dr. Ing., dr. h. c. (DCGM)

Instructor

Beran Vítězslav, doc. Ing., Ph.D. (DCGM)

Subject specific learning outcomes and competences

The students will get acquainted with the image processing basics theory (transformations, filtration, noise reduction, etc.). They will learn how to apply such knowledge on real examples of image processing tasks. They will also get acquainted with "higher" imaging algorithms. Finally, they will learn how to practically program image processing applications through projects.
Students will improve their teamwork skills and in exploitation of "C" language.

Learning objectives

To get acquainted with the image processing basics theory (transformations, filtration, noise reduction, etc.). To learn how to apply such knowledge on real examples of image processing tasks. To get acquainted with "higher" imaging algorithms. To learn kow to practically program image processing applications through projects.

Recommended prerequisites

Prerequisite knowledge and skills

The C programming language and fundamentals of computer graphics.

Study literature

  • Hlaváč, V., Šonka, M.: Počítačové vidění, GRADA 1992, ISBN 80-85424-67-3
  • Šonka, M., Hlaváč, V., Boyle, R.: Image processing, Analysis, and Machine Vision, THOMSON 2013, ISBN-13: 978-9386858146
  • IEEE Multimedia, IEEE, USA - série časopisů - různé články
  • Jahne, B.: Handbook of Computer Vision and Applications, Academic Press, 1999, ISBN 0-12-379770-5
  • Russ, J.C.: The Image Processing Handbook, CRC Press 1995, ISBM 0-8493-2516-1

Fundamental literature

  • Hlaváč, V., Šonka, M.: Počítačové vidění, GRADA 1992, ISBN 80-85424-67-3
  • Jahne, B.: Handbook of Computer Vision and Applications, Academic Press, 1999, ISBN 0-12-379770-5
  • Russ, J.C.: The Image Processing Handbook, CRC Press 1995, ISBM 0-8493-2516-1

Syllabus of lectures

  1. Introduction, representation of image, linear filtration  (12. 2. 2021 Zemčík slidesslidesslidesdemo)
  2. Point image transforms (19. 2. 2021 Beran slidesdemo.zip)
  3. Image acquisition (26. 2. 2021 Zemčík slides)
  4. Edge detection, segmentation (5. 3. 2020 Beran slidesexamples)
  5. Image distortion, types of noise, optimal filtration (12. 3. 2021 Španěl slides)
  6. Discrete image transforms, FFT, relationship with filtering (Zemčík 19. 3. 2021 slajdy a slides)
  7. DCT, Wavelets (26. 3. 2020 Bařina slides)
  8. Good Friday - lecture cancelled (2. 4. 2021)
  9. Resampling, warping, morphing (9. 4. 2021 Zemčík slides)
  10. Test, Project status presentation, mathematical morphology (16. 4. 2021 Beran slides)
  11. Watermarks (23. 4. 2021 Zemčík slidesdemo)
  12. Lecture from industry, motion analysis (30. 4. 2021, Zoner company)
  13. Conclusion (7. 5. 2021, Zemčík/Beran slides)

Syllabus - others, projects and individual work of students

  1. Individually assigned project for the whole duration of the course.

Progress assessment

Mid-term test, project (homeworks and individual project).

Course inclusion in study plans

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