Chair of Multimedia Telecommunications and Microelectronics


Jarosław Samelak

Jarosław Samelak


(born 1991) received M.Sc. degree from Poznan University of Technology in 2015. He is a Ph.D. student at the Chair of Multimedia Telecommunications and Microelectronics.

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Contact

Room: 108 (Polanka)
Phone: +48 61 665 3851
Mail: jsamelak@multimedia.edu.pl

Awards

Publications

Book chapters

  1. Dragan Kukolj, Libor Bolecek, Ladislav Polak, Tomas Kratochvil, Ondrej Zach, Jan Kufa, Martin Slanina, Tomasz Grajek, Jarosław Samelak, Marek Domański, Dragorad A. Milovanovic,
    Chapter: 3D Content Acquisition and Coding,
    Book: 3D Visual Content Creation, Coding and Delivery, Editors: Pedro Amado Assunção, Atanas Gotchev,
    Signals and Communication Technology: Springer International, 2019, pp. 41-95, ISBN: 978-3-319-77841-9, ISSN: 1860-4862,
    EndNoteCitationDOI

International journals

International conferences

  1. Dominika Klóska, Adrian Dziembowski, Jarosław Samelak,
    Versatile input view selection for efficient immersive video transmission,
    31. International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision, WSCG 2023, Pilsen, Czech Republic, 2023-05-15,
    Full textEndNoteCitation
  2. Jarosław Samelak, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Maciej Wawrzyniak,
    Efficient Immersive Video Compression using Screen Content Coding,
    29th International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision : WSCG 2021, WSCG 2021, Prague, Czech Republic, 17-20 May 2021,
    Full textEndNoteCitation
  3. Adrian Dziembowski, Jarosław Samelak, Marek Domański,
    View selection for virtual view synthesis in free navigation systems,
    International Conference on Signals and Electronic Systems, ICSES 2018, Kraków, Poland, September 10-12 2018,
    Full textEndNoteCitation
  4. Jarosław Samelak, Jakub Stankowski, Marek Domański,
    Efficient frame-compatible stereoscopic video coding using HEVC Screen Content Coding,
    IEEE International Conference on Systems, Signals and Image Processing IWSSIP 2017, Poznań, Poland, 22-24 May 2017,
    Full textEndNoteCitation
  5. Jarosław Samelak, Jakub Stankowski, Marek Domański,
    Adaptation of the 3D-HEVC coding tools to arbitrary locations of cameras,
    International Conference on Signals and Electronic Systems, ICSES 2016, Kraków, Poland, September 5-7 2016,
    Full textEndNoteCitation
  6. Jakub Stankowski, Łukasz Kowalski, Jarosław Samelak, Marek Domański, Tomasz Grajek, Krzysztof Wegner,
    3D-HEVC Extension for Circular Camera Arrangements,
    3DTV Conference: The True Vision-Capture, Transmission and Display of 3D Video, 3DTV- Con 2015, Lisbon, Portugal, 8-10 July 2015,
    Full textEndNoteCitation

International conferences - standardization

  1. Marek Domański, Jarosław Samelak,
    Unified Screen Content and Multiview Video Coding - Experimental results,
    Joint Video Exploration Team JVET of ITU-T SG 16 WP 3 and ISO/IEC JTC1/SC29/WG11, JVET-M0765, Marrakech, Morocco, 9-18 January 2019,
    Full textEndNoteCitation
  2. Jarosław Samelak, Olgierd Stankiewicz, Marek Domański,
    Do we need multiview profiles for future video coding generations?,
    ISO/IEC JTC1/SC29/WG11 Joint Video Exploration Team (JVET), JVET_H0044, Macao, China, October 2017,
    Full textEndNoteCitation
  3. Jarosław Samelak, Jakub Stankowski, Marek Domański,
    Experimental results for frame –compatible multiview video coding using HEVC SCC,
    ISO/IEC JTC1/SC29/WG11 Joint Collaborative Team on Video Coding (JCT-VC), JCTVC-Z0041, Geneva, Switzerland, January 2017,
    Full textEndNoteCitation

National journals

  1. Jarosław Samelak, Cezary Korzeniewski, Łukasz Kowalski, Jakub Stankowski,
    Zoptymalizowana implementacja dekodera HEVC,
    Przegląd Telekomunikacyjny, No. 6/2014, Warszawa, Polska, June 2014, pp. 583-586,
    Full textEndNoteCitation

Dissertations

  1. Jarosław Samelak,
    Prediction techniques for compression of multiview video acquired using systems with various camera arrangements,
    PhD Dissertation at Poznan University of Technology, Faculty of Computing and Telecommunications, 2024,
    Supervisor: prof. dr hab. inż. Marek Domański, Auxiliary supervisor: dr inż. Damian Karwowski,
    Reviewers: prof. Adrian Munteanu, prof. Paweł Strumiłło,
    Abstract (pol)Full text (eng)EndNoteCitation

2024

  1. Jarosław Samelak,
    Prediction techniques for compression of multiview video acquired using systems with various camera arrangements,
    PhD Dissertation at Poznan University of Technology, Faculty of Computing and Telecommunications, 2024,
    Supervisor: prof. dr hab. inż. Marek Domański, Auxiliary supervisor: dr inż. Damian Karwowski,
    Reviewers: prof. Adrian Munteanu, prof. Paweł Strumiłło,
    Abstract (pol)Full text (eng)EndNoteCitation

2023

  1. Dominika Klóska, Adrian Dziembowski, Jarosław Samelak,
    Versatile input view selection for efficient immersive video transmission,
    31. International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision, WSCG 2023, Pilsen, Czech Republic, 2023-05-15,
    Full textEndNoteCitation

2022

  1. Jarosław Samelak, Adrian Dziembowski, Dawid Mieloch,
    Advanced HEVC Screen Content Coding for MPEG Immersive Video,
    Electronics, Vol. 11, No. 23, Dec. 2022, ISSN: 2079-9292,
    Full textEndNoteCitationDOI

    Abstract

    This paper presents the modified HEVC Screen Content Coding (SCC) that was adapted to be more efficient as an internal video coding of the MPEG Immersive Video (MIV) codec. The basic, unmodified SCC is already known to be useful in such an application. However, in this paper, we propose three additional improvements to SCC to increase the efficiency of immersive video coding. First, we analyze using the quarter-pel accuracy in the intra block copy technique to provide a more effective search of the best candidate block to be copied in the encoding process. The second proposal is the use of tiles to allow inter-view prediction inside MIV atlases. The last proposed improvement is the addition of the MIV bitstream parser in the HEVC encoder that enables selecting the most efficient coding configuration depending on the type of currently encoded data. The experimental results show that the proposal increases the compression efficiency for natural content sequences by almost 7% and simultaneously decreases the computational time of encoding by more than 15%, making the proposal very valuable for further research on immersive video coding.

2021

  1. Jarosław Samelak, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Maciej Wawrzyniak,
    Efficient Immersive Video Compression using Screen Content Coding,
    29th International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision : WSCG 2021, WSCG 2021, Prague, Czech Republic, 17-20 May 2021,
    Full textEndNoteCitation

2020

2019

  1. Marek Domański, Jarosław Samelak,
    Unified Screen Content and Multiview Video Coding - Experimental results,
    Joint Video Exploration Team JVET of ITU-T SG 16 WP 3 and ISO/IEC JTC1/SC29/WG11, JVET-M0765, Marrakech, Morocco, 9-18 January 2019,
    Full textEndNoteCitation

  2. Dragan Kukolj, Libor Bolecek, Ladislav Polak, Tomas Kratochvil, Ondrej Zach, Jan Kufa, Martin Slanina, Tomasz Grajek, Jarosław Samelak, Marek Domański, Dragorad A. Milovanovic,
    Chapter: 3D Content Acquisition and Coding,
    Book: 3D Visual Content Creation, Coding and Delivery, Editors: Pedro Amado Assunção, Atanas Gotchev,
    Signals and Communication Technology: Springer International, 2019, pp. 41-95, ISBN: 978-3-319-77841-9, ISSN: 1860-4862,
    EndNoteCitationDOI

2018

  1. Adrian Dziembowski, Jarosław Samelak, Marek Domański,
    View selection for virtual view synthesis in free navigation systems,
    International Conference on Signals and Electronic Systems, ICSES 2018, Kraków, Poland, September 10-12 2018,
    Full textEndNoteCitation

    Abstract

    The paper deals with the problem of the optimal selection of the real views used for the virtual view synthesis in the free navigation systems. The practical free navigation system requires the real-time view synthesis. Therefore, the virtual view cannot be synthesized using the information from all the real cameras, but only few, most proper ones. In the paper the method of fast selection of two proper real views is presented. The proposed approach allows to select the real views for different camera arrangements, thus can be applied to the practical free navigation systems

2017

  1. Jarosław Samelak, Olgierd Stankiewicz, Marek Domański,
    Do we need multiview profiles for future video coding generations?,
    ISO/IEC JTC1/SC29/WG11 Joint Video Exploration Team (JVET), JVET_H0044, Macao, China, October 2017,
    Full textEndNoteCitation

  2. Jarosław Samelak, Jakub Stankowski, Marek Domański,
    Experimental results for frame –compatible multiview video coding using HEVC SCC,
    ISO/IEC JTC1/SC29/WG11 Joint Collaborative Team on Video Coding (JCT-VC), JCTVC-Z0041, Geneva, Switzerland, January 2017,
    Full textEndNoteCitation

  3. Jarosław Samelak, Jakub Stankowski, Marek Domański,
    Efficient frame-compatible stereoscopic video coding using HEVC Screen Content Coding,
    IEEE International Conference on Systems, Signals and Image Processing IWSSIP 2017, Poznań, Poland, 22-24 May 2017,
    Full textEndNoteCitation

2016

  1. Marek Domański, Maciej Bartkowiak, Adrian Dziembowski, Tomasz Grajek, Adam Grzelka, Adam Łuczak, Dawid Mieloch, Jarosław Samelak, Olgierd Stankiewicz, Jakub Stankowski, Krzysztof Wegner,
    New results in free-viewpoint television systems for horizontal virtual navigation,
    2016 IEEE International Conference on Multimedia and Expo ICME 2016, Seattle, USA, 11-15 July 2016,
    Full textEndNoteCitation

    Abstract

    The paper presents the concept of a practical free-viewpoint television system with purely optical depth estimation. The system consists of camera modules that contain pairs or triples of cameras together with the respective microphones. The camera modules can be sparsely located in arbitrary positions around a scene. Each camera module is equivalent to a video camera with a depth sensor and microphones. The hardware requirements, the video and audio processing algorithms and the preliminary experimental results are reported. In particular, for such systems, a compression technique is discussed that is more efficient than the new 3D-HEVC technology. A set of new test sequences obtained with the use of camera pairs are presented.

  2. Jarosław Samelak, Jakub Stankowski, Marek Domański,
    Adaptation of the 3D-HEVC coding tools to arbitrary locations of cameras,
    International Conference on Signals and Electronic Systems, ICSES 2016, Kraków, Poland, September 5-7 2016,
    Full textEndNoteCitation

    Abstract

    In the paper, we describe the extensions of the 3D HEVC compression technology aimed at improved compression efficiency for multi-view sequences acquired from arbitrarily located cameras. Our proposal refines the inter-view prediction by replacing the horizontal shifts with the true mapping in the 3D space. This implies changes in several coding tools, which we describe in details. The paper also reports experimental results on the comparison of the proposed solution to the 3D-HEVC standard codec. We also discuss the influence of the number of views and the view coding order on the compression efficiency.

2015

  1. Marek Domański, Adrian Dziembowski, Tomasz Grajek, Adam Grzelka, Łukasz Kowalski, Maciej Kurc, Adam Łuczak, Dawid Mieloch, Robert Ratajczak, Jarosław Samelak, Olgierd Stankiewicz, Jakub Stankowski, Krzysztof Wegner,
    Methods of High Efficiency Compression for Transmission of Spatial Representation of Motion Scenes,
    IEEE International Conference on Multimedia and Expo ICME 2015, Torino, Italy, June 29-July 3 2015,
    Full textEndNoteCitation

    Abstract

    The paper reports the hitherto obtained results of the research project that deals with scene representations that are suitable for free navigation around the scene. These scene representations are acquired from a limited number of cameras located around the scene. The project is aimed at the development of an efficient compression technology and the experimental environment for testing such technology. The paper reports some new multiview test sequences with the circular camera arrangement, including the hybrid ones that have been acquired using also the depth sensors. Finally, the paper also briefly reports the recent results of the new compression technology being under development. This technology outperforms the state-of-the-art 3D-HEVC.

  2. Jakub Stankowski, Łukasz Kowalski, Jarosław Samelak, Marek Domański, Tomasz Grajek, Krzysztof Wegner,
    3D-HEVC Extension for Circular Camera Arrangements,
    3DTV Conference: The True Vision-Capture, Transmission and Display of 3D Video, 3DTV- Con 2015, Lisbon, Portugal, 8-10 July 2015,
    Full textEndNoteCitation

2014

  1. Jarosław Samelak, Cezary Korzeniewski, Łukasz Kowalski, Jakub Stankowski,
    Zoptymalizowana implementacja dekodera HEVC,
    Przegląd Telekomunikacyjny, No. 6/2014, Warszawa, Polska, June 2014, pp. 583-586,
    Full textEndNoteCitation