Course details

Multimedia

MUL Acad. year 2024/2025 Summer semester 5 credits

Definition of multimedia technology, multimedia peripheral devices, connection between signal processing and multimedia, digital signal processors and their features, "case study" of system design with digital signal processor, Windows sound, video, and raster operation API, formats for image and sound digitization, formats for image and sound encoding, image compression, video compression, sound compression, DirectX raster operations, DirectX sound, OpenGL raster operations, multimedia programming interfaces.

Guarantor

Course coordinator

Language of instruction

Czech, English

Completion

Examination (written)

Time span

  • 26 hrs lectures
  • 13 hrs pc labs
  • 13 hrs projects

Assessment points

  • 51 pts final exam (15 pts written part, 36 pts test part)
  • 10 pts mid-term test (test part)
  • 10 pts numeric exercises
  • 29 pts projects

Department

Lecturer

Instructor

Learning objectives

To learn and understand basic methods of image processing and sound processing as 2D and 1D digital signals. To get acquainted with compression and decompression methods for image and sound data in PC environment. To learn how to exploit programmers' interfaces for image and sound. To get acquainted with data formats for image and sound representation. To get acquainted with basic features of digital signal processors. To learn about raster operations in Windows API, DirectX, and OpenGL and sound interfaces of Windows API and DirectX. To get acquainted with the anticipated development of multimedia data processing.
The students will learn and understand basic methods of image processing and sound processing as 2D and 1D digital signals. They will get acquainted with compression and decompression methods for image and sound data in PC environment. They will also learn how to exploit programmers interfaces' for image and sound and get acquainted with data formats for image and sound representation and with basic features of digital signal processors. They will learn about raster operations in Windows API, DirectX, and OpenGL and with sound interfaces of Windows API and DirectX, too. Finally, they will get acquainted with the anticipated development of multimedia data processing.
The students will learn to search team partners, to work in team, and to defend their work in public. They will also improve their skills in development tools usage and also in practical C/C++ programming.

Recommended prerequisites

Prerequisite knowledge and skills

Basic knowledge of C/C++ programming, basics of signal processing.

Study literature

  • Study support "Multimedia" (in Czech) to download
  • IEEE Multimedia, IEEE, USA – various articles
  • Wodtke, M.: Mind Over Media, McGraw-Hill, New York, USA, 1993, ISBN 0-07-067633-X
  • Yun Q. Shi, Huifang Sun. Image and Video Compression for Multimedia Engineering: Fundamentals, Algorithms, and Standards. CRC Press, 1999. ISBN 978-1-4200-4979-8
  • Simon, R. J.: Multimedia & ODBC API Bible, Watte Group Press, Carte Madera, CA, USA, 1996, ISBN 1-57169-011-5
  • John Watkinson. The MPEG Handbook. CRC Press, 2012. ISBN 978-1-136-02898-6
  • David Salomon, Giovanni Motta. Handbook of Data Compression. Springer, 2010. ISBN 978-1-84882-902-2
  • Iain E. G. Richardson. H.264 and MPEG-4 Video Compression: Video Coding for Next-generation Multimedia. John Wiley & Sons, 2003. ISBN 978-0-470-86960-7

Syllabus of lectures

  1. Introduction, signal processing (slides)
  2. Filtration (slides)
  3. Compression techniques (slides)
  4. Audio formats (slides, new slides)
  5. Sound interfaces (slides)
  6. Image and video compression fundamentals (slides)
  7. Image formats (slides)
  8. Video formats (slides)
  9. Multimedia frameworks (slides), mid-term test
  10. DirectX (slides)
  11. OpenGL (slides)
  12. Formats and technologies in TV (slides)
  13. Conclusion

Syllabus of computer exercises

  1. Introductory lab, introduction to tools
  2. Sound filter design and implementation
  3. Raster operations in Windows API
  4. Video sequence processing
  5. JPEG compression - DCT settings
  6. DirectX interface for sound and image

Syllabus - others, projects and individual work of students

  1. Individually assigned examples for the duration of the course

Progress assessment

Mid-term test, evaluated computer exercises, and individual project.
The monitored teaching activities include mid-term test, evaluated computer exercises, individual project, and final exam. The mid-term test does not have correction option, the final exam has two possible correction terms.

Schedule

DayTypeWeeksRoomStartEndCapacityLect.grpGroupsInfo
Mon lecture 1., 5., 7., 8., 9., 12. of lectures A113 16:0017:5064 1MIT 2MIT NGRI xx Bařina
Mon lecture 2., 3., 4. of lectures A113 16:0017:5064 1MIT 2MIT NGRI xx Zemčík
Mon lecture 10., 11. of lectures A113 16:0017:5064 1MIT 2MIT NGRI xx Milet
Mon lecture 2025-03-17 A113 16:0017:5064 1MIT 2MIT NGRI xx Grézl
Mon lecture 2025-05-05 A113 16:0017:5064 1MIT 2MIT NGRI xx
Thu comp.lab lectures N204 N205 08:0009:5020 1MIT 2MIT xx
Thu comp.lab lectures N204 N205 12:0013:5020 1MIT 2MIT xx

Course inclusion in study plans

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