Dawid Mieloch

2023

1. Gwangsoon Lee, Jun Young Jeong, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
   Method for processing immersive video and method for producing immersive video,
   Patent office: USPTO, Status: pending,
   Application number: US 17/503940, Filling date: 18.10.2021,
   Publication number: US 2022/0122217, Publication date: 21.04.2022,
   Patent number: US 11651472, Date of Patent: 16.05.2023,
   EndNoteCitation
   
   
2. Adrian Dziembowski, Dawid Mieloch, Jun Young Jeong, Gwangsoon Lee,
   Immersive video postprocessing for efficient video coding,
   IEEE Transactions on Circuits and Systems for Video Technology, Vol. Early Access, 2023, ISSN: 1558-2205,
   Full textEndNoteCitationDOI
   
   Abstract
   

   This paper describes two methods for increasing the efficiency of the MPEG Immersive Video (MIV) coding standard. The methods manipulate the MIV-formatted atlas videos by considering the coding principles of the widely used video encoders, enhancing the encoding efficiency for the immersive video content. The first method, patch average color modification removes the constant component of all YCbCr components of each patch within atlases, resulting in the reduction of the number and magnitude of edges within a texture atlas video. The second proposed method changes the dynamic range of the geometry (depth) atlas, adapting to the quality of input depth maps. Both methods proposed by the authors of this paper were included into the Test Model for MPEG Immersive Video (TMIV), which is the reference implementation of the MIV codec. Moreover, the metadata syntax relating to the first proposed method was adopted to the ISO/IEC 23090-12 standard.

3. Dawid Mieloch, Adrian Dziembowski, Dominika Klóska, Błażej Szydełko, Jun Young Jeong, Gwangsoon Lee,
   A New Approach to Decoder-Side Depth Estimation in Immersive Video Transmission,
   IEEE Transactions on Broadcasting, Vol. Early Access, 2023, ISSN: 1557-9611,
   Full textEndNoteCitationDOI
   
   Abstract
   

   This paper presents a novel approach to decoder-side depth estimation (DSDE) in immersive video transmission. The proposal improves the state-of-the-art coding approach by changing the encoding and decoding processes so that the decoder-side depth estimator can utilize partial geometry information about the scene from several available input depth maps. Proposed changes allow for significantly faster decoding and better quality of virtual viewports presented to the viewer. The paper proposes two approaches, namely input depth map assistance (IDMA) and extended IDMA (eIDMA), both compliant with the bitstream of MPEG immersive video (MIV) standard. IDMA involves sending full depth maps for a selected subset of input views, which are then used to refine and enhance the depth maps for the remaining views. In eIDMA, the decoder additionally reprojects decoded depth maps to the remaining views and enhances them with depth patches containing difficult-to-estimate areas. Proposed methods were tested under the ISO/IEC MPEG Video Coding common test conditions for MIV. The combination of two proposals, the adaptive IDMA, was shown to outperform the current state-of-the-art DSDE approach in the rendered video quality and the computational complexity of decoder. MPEG experts have appreciated the proposed approaches, which will comply with a new DSDE profile of the incoming second edition of the MIV standard.

4. Adrian Dziembowski, Bart Kroon, Dawid Mieloch,
   Discussion on changes in MIV CTC,
   ISO/IEC JTC1/SC29/WG4 MPEG 141, M61996, January 2023,
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5. Dawid Mieloch, Adrian Dziembowski, Błażej Szydełko, Dominika Klóska, Adam Grzelka, Jakub Stankowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
   [MIV] New natural content - MartialArts,
   ISO/IEC JTC1/SC29/WG4 MPEG 141, M61949, January 2023,
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6. Dawid Mieloch,
   Plan for verification test of MPEG immersive video,
   ISO/IEC JTC1/SC29/WG4 MPEG 141, N0306, January 2023,
   EndNoteCitation
   
   
7. Bart Kroon, Dawid Mieloch,
   BoG on MPEG immersive video,
   ISO/IEC JTC1/SC29/WG4 MPEG 142, M66515, April 2023,
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8. Adrian Dziembowski, Dawid Mieloch, Gwangsoon Lee, Jun Young Jeong,
   Atlas flickering removal,
   ISO/IEC JTC1/SC29/WG4 MPEG 142, M63503, April 2023,
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9. Adrian Dziembowski, Dawid Mieloch, Gwangsoon Lee, Jun Young Jeong,
   Chroma dynamic range modification,
   ISO/IEC JTC1/SC29/WG4 MPEG 142, M63397, April 2023,
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10. Adrian Dziembowski, Dawid Mieloch, Gwangsoon Lee, Jun Young Jeong,
    Patch geometry offset modification,
    ISO/IEC JTC1/SC29/WG4 MPEG 142, M63113, April 2023,
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11. Dawid Mieloch, Adrian Dziembowski, Gwangsoon Lee, Jun Young Jeong,
    Proposal of IVDE 8.0,
    ISO/IEC JTC1/SC29/WG4 MPEG 142, M63112, April 2023,
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12. Adrian Dziembowski, Dawid Mieloch, Gwangsoon Lee, Jun Young Jeong,
    Renderer-side edge processing for subjective quality improvement,
    ISO/IEC JTC1/SC29/WG4 MPEG 142, M63109, April 2023,
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13. Bart Kroon, Dawid Mieloch, Joël Jung,
    AhG on MPEG immersive video,
    ISO/IEC JTC1/SC29/WG4 MPEG 142, M62472, April 2023,
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14. Dawid Mieloch,
    Verification test report of MPEG immersive video,
    ISO/IEC JTC1/SC29/WG4 MPEG 142, N0341, April 2023,
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15. Dawid Mieloch, Adrian Dziembowski, Jun Young Jeong, Gwangsoon Lee,
    On the future of decoder-side depth estimation in MPEG immersive video coding,
    Data Compression Conference, DCC 2023, Snowbird, UT, USA, 21-24.03.2023,
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2022

16. Jun Young Jeong, Gwangsoon Lee, Jin Hwan Lee, Dawid Mieloch, Marek Domański, Adrian Dziembowski,
    Immersive video decoding method and immersive video encoding method,
    Patent office: USPTO, Status: pending,
    Application number: US 17/725241, Filling date: 20.04.2022,
    Publication number: US 2022/0345742, Publication date: 27.10.2022,
    EndNoteCitation
    
    
17. Gwangsoon Lee, Jun Young Jeong, Dawid Mieloch, Adrian Dziembowski, Marek Domański,
    Method for processing immersive video and method for producing immersive video,
    Patent office: USPTO, Status: granted,
    Application number: US 17/354985, Filling date: 12.06.2021,
    Publication number: US 2022/0007000, Publication date: 6.01.2022,
    Patent number: US 11457199, Date of Patent: 27.09.2022,
    EndNoteCitation
    
    
18. Dominika Klóska, Błażej Szydełko, Dawid Mieloch,
    Wykorzystanie wejściowych map głębi w estymacji głębi po stronie dekodera,
    Przegląd telekomunikacyjny, 2022, pp. 392-395,
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19. Adrian Dziembowski, Dawid Mieloch,
    Nowe techniki kompresji wizji dla rzeczywistości wirtualnej – MPEG Immersive Video,
    Przegląd telekomunikacyjny, 2022, pp. 116-123,
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20. Dawid Mieloch, Adrian Dziembowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Color-dependent pruning in immersive video coding,
    Journal of WSCG, Vol. 30, No. 1-2, 2022, pp. 91-98,
    Full textEndNoteCitationJournal of WSCG
    
    
21. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Spatiotemporal redundancy removal in immersive video coding,
    Journal of WSCG, Vol. 30, No. 1-2, 2022, pp. 54-62,
    Full textEndNoteCitationJournal of WSCG
    
    
22. Adam Grzelka, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
    The Study of the Video Encoder Efficiency in Decoder-Side Depth Estimation Applications,
    30th International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision : WSCG 2022, Pilsen, Czech Republic, 17-20 May 2022,
    Full textEndNoteCitationComputer Science Research Notes
    
    
23. Dawid Mieloch, Patrick Garus, Marta Milovanović, Joël Jung, Jun Young Jeong, Smitha Lingadahalli Ravi, Basel Salahieh,
    Overview and Efficiency of Decoder-Side Depth Estimation in MPEG Immersive Video,
    IEEE Transactions on Circuits and Systems for Video Technology, Vol. 32, No. 9, September 2022, pp. 6360-6374, ISSN: 1558-2205,
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24. Adrian Dziembowski, Dawid Mieloch,
    „[MIV] Change of letter identifiers of test sequences in MIV CTC,
    ISO/IEC JTC1/SC29/WG4 MPEG 140, M61131, October 2022,
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25. Adrian Dziembowski, Dawid Mieloch, Jun Young Jeong, Gwangsoon Lee,
    MIV Decoder-Side Depth Estimation profile,
    ISO/IEC JTC1/SC29/WG4 MPEG 140, M60667, October 2022,
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26. Adrian Dziembowski, Dawid Mieloch, Jun Young Jeong, Gwangsoon Lee,
    [MIV] Extended geometry assistance SEI,
    ISO/IEC JTC1/SC29/WG4 MPEG 139, M60248, July 2022,
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27. Dawid Mieloch,
    [MIV] MIV Verification Test dry-run preparations,
    ISO/IEC JTC1/SC29/WG4 MPEG 138, M59731, April 2022,
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28. Dawid Mieloch,
    MIV EE1: IVDE depth map generation,
    ISO/IEC JTC1/SC29/WG4 MPEG 138, M59518, April 2022,
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29. Adrian Dziembowski, Dawid Mieloch,
    On increasing the subjective quality of posetraces for low bitrates,
    ISO/IEC JTC1/SC29/WG4 MPEG 138, M59517, April 2022,
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30. Dawid Mieloch, Adrian Dziembowski, Błażej Szydełko, Dominika Klóska, Gwangsoon Lee, Jun Young Jeong,
    [MIV] Decoder-side depth estimation with extended input depth assistance,
    ISO/IEC JTC1/SC29/WG4 MPEG 138, M59516, April 2022,
    Full textEndNoteCitation
    
    
31. Bart Kroon, Vinod Kumar Malamal Vadakital, Joel Jung, Dawid Mieloch, Basel Salahieh,
    [MIV] BoG on MPEG Immersive video,
    ISO/IEC JTC1/SC29/WG4 MPEG 137, M59126, January 2022,
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32. Dawid Mieloch, Adrian Dziembowski, Adam Grzelka,
    [MIV] Exploration Experiments on Future MIV: PUT results,
    ISO/IEC JTC1/SC29/WG4 MPEG 137, M58835, January 2022,
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33. Joel Jung, Dawid Mieloch, S. Fachada, L. Ciccarelli, Adrian Dziembowski,
    Outcomes of exploration experiments – summary report,
    ISO/IEC JTC1/SC29/WG4 MPEG 137, M58495, January 2022,
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34. Dawid Mieloch,
    Verification test preparations of MPEG immersive video,
    WG4_N0235, Online, July 2022,
    EndNoteCitation
    
    
35. Dawid Mieloch,
    Verification test preparations of MPEG immersive video,
    WG4_N0207, Online, April 2022,
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36. Dawid Mieloch,
    Verification test preparations of MPEG Immersive video,
    WG4_N0174, Online, January 2022,
    EndNoteCitation
    
    
37. Adrian Dziembowski, Jun Young Jeong, Dawid Mieloch,
    Report of MPEG Immersive video CTC Anchor Generation,
    WG4_N0173, Online, January 2022,
    EndNoteCitation
    
    
38. Joel Jung, Dawid Mieloch, Lorenzo Ciccarelli, Adrian Dziembowski,
    Exploration Experiments on MPEG Immersive Video,
    WG4_N0171, Online, January 2022,
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39. 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.

40. Adrian Dziembowski, Dawid Mieloch, Jakub Stankowski, Adam Grzelka,
    IV-PSNR – the objective quality metric for immersive video applications,
    IEEE Transactions on Circuits and Systems for Video Technology, Vol. 32, 1 June 2022, pp. 7575 - 7591, ISSN: 1558-2205,
    Full textEndNoteCitationDOICode repository
    
    Abstract
    

    This paper presents a new objective quality metric that was adapted to the complex characteristics of immersive video (IV) which is prone to errors caused by processing and compression of multiple input views and virtual view synthesis. The proposed metric, IV-PSNR, contains two techniques that allow for the evaluation of quality loss for typical immersive video distortions: corresponding pixel shift and global component difference. The performed experiments compared the proposal with 31 state-of-the-art quality metrics, showing their performance in the assessment of quality in immersive video coding and processing, and in other applications, using commonly used image quality assessment databases – TID2013 and CVIQ. As presented, IV-PSNR outperforms other metrics in immersive video applications and still can be efficiently used in the evaluation of different images and videos. Moreover, basing the metric on the calculation of PSNR allowed the computational complexity to remain low. Publicly available, efficient implementation of IV-PSNR software was provided by the authors of this paper and is used by ISO/IEC MPEG for evaluation and research on the upcoming MPEG Immersive video (MIV) coding standard.

41. Błażej Szydełko, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee,
    Recursive block splitting in feature-driven decoder-side depth estimation,
    ETRI Journal, 2022, pp. 1-13,
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2021

42. Gwangsoon Lee, Jun Young Jeong, Hong Chang Shin, Kug Jin Yun, Marek Domański, Olgierd Stankiewicz, Dawid Mieloch, Adrian Dziembowski, Adam Grzelka, Jakub Stankowski,
    Method and apparatus for encoding/decoding image for virtual view synthesis,
    Patent office: USPTO, Status: granted,
    Application number: US 16/823663, Filling date: 19.03.2020,
    Publication number: US 2021/0006831, Publication date: 7.01.2021,
    Patent number: US 11064218, Date of Patent: 13.07.2021,
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43. Dawid Mieloch, Dominika Klóska, Magdalena Woźniak,
    Point-to-Block Matching in Depth Estimation,
    29th International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision : WSCG 2021, WSCG 2021, Prague, Czech Republic, 17-20 May 2021,
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44. Błażej Szydełko, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Effectiveness of recursive splitting in feature extraction for subset of views,
    ISO/IEC JTC1/SC29/WG4 MPEG 136, M58334, October 2021,
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45. Dominika Klóska, Dawid Mieloch, Adrian Dziembowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Decoder-side depth estimation with input depth assistance,
    ISO/IEC JTC1/SC29/WG4 MPEG 136, M58048, October 2021,
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46. Błażej Szydełko, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Partial geometry assistance information,
    ISO/IEC JTC1/SC29/WG4 MPEG 136, M58047, October 2021,
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47. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Texture prefiltering in depth estimation,
    ISO/IEC JTC1/SC29/WG4 MPEG 136, M58046, October 2021,
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48. Joel Jung, Vinod Kumar Malamal Vadakital, Dawid Mieloch,
    Outcomes of exploration experiments – summary report,
    ISO/IEC JTC1/SC29/WG04 MPEG 136, M58002, October 2021,
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49. Dawid Mieloch, Adrian Dziembowski,
    Exploration Experiments on Future MIV: PUT results,
    ISO/IEC JTC 1/SC 29/WG 4 MPEG 136, M57833, October 2021,
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50. Adrian Dziembowski, Dawid Mieloch, Jarosław Samelak,
    3D-HEVC in MIV verification tests,
    ISO/IEC JTC 1/SC 29/WG 4 MPEG 136, M57753, October 2021,
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51. Adrian Dziembowski, Dawid Mieloch,
    Corrected quaternion to Euler angle conversion for MIV DSDE,
    ISO/IEC JTC 1/SC 29/WG 4 MPEG 135, M57563, July 2021,
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52. Dawid Mieloch, Adrian Dziembowski,
    The comparisons of encoder-side and decoder-side depth estimation,
    ISO/IEC JTC 1/SC 29/WG 4 MPEG 135, M57349, July 2021,
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53. Dawid Mieloch,
    New depth maps for Barn, Breakfast, and Hall sequences,
    ISO/IEC JTC 1/SC 29/WG 4 MPEG 135, M57348, July 2021,
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54. Błażej Szydełko, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee,
    Analysis of further block splitting in feature-driven DSDE,
    ISO/IEC JTC 1/SC 29/AG 5 MPEG 135, M57347, July 2021,
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55. Vinod Kumar Malamal Vadakital, Joel Jung, Dawid Mieloch,
    Outcomes of exploration experiments – summary report,
    ISO/IEC JTC1/SC29/WG04 MPEG 135, M57276, July 2021,
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56. Dawid Mieloch,
    Exploration Experiments on Future MIV: PUT results,
    ISO/IEC JTC1/SC29/WG4 MPEG 135, M57169, July 2021,
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57. Adrian Dziembowski, Jakub Stankowski, Dawid Mieloch,
    On the importance of chroma in immersive video quality assessment,
    ISO/IEC JTC1/SC29/AG5 MPEG 135, M57119, July 2021,
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58. Adrian Dziembowski, Dawid Mieloch, Jakub Stankowski,
    Performance of full-reference objective metrics in immersive video,
    ISO/IEC JTC1/SC29/AG5 MPEG 135, M57118, July 2021,
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59. Gordon Clare, Patrick Garus, Felix Henry, Błażej Szydełko, Dawid Mieloch, Adrian Dziembowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    [MIV] Combination of m56626 and m56335 for Geometry Assistance SEI message,
    ISO/IEC JTC1/SC29/WG04 MPEG 134, M56950, April 2021,
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60. Joel Jung, Vinod Kumar Malamal Vadakital, Dawid Mieloch,
    Report of the Exploration Experiments on Future MPEG Immersive Video,
    ISO/IEC JTC1/SC29/WG2 MPEG 134, M56601, April 2021,
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61. Dawid Mieloch,
    Exploration Experiments on Future MIV: PUT results,
    ISO/IEC JTC1/SC29/WG2 MPEG 134, M56563, April 2021,
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62. Adam Grzelka, Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    MIV CE2.11: Encoder-side rendering,
    ISO/IEC JTC1/SC29/WG04 MPEG 134, M56369, April 2021,
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63. Błażej Szydełko, Dawid Mieloch, Adrian Dziembowski, Gwangsoon Lee, Jun Young Jeong,
    Rectangular blocks in encoder-derived features for decoder-side depth estimation,
    ISO/IEC JTC1/SC29/WG04 MPEG 134, M56335, April 2021,
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64. Adrian Dziembowski, Christoph Bachhuber, Joel Jung, Bart Kroon, Gwangsoon Lee, Dawid Mieloch, Basel Salahieh, Franck Thudor,
    MIV anchors,
    ISO/IEC JTC1/SC29/WG04 MPEG 134, M56334, April 2021,
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65. Dawid Mieloch, Adrian Dziembowski,
    CE 2.7 in TMIV 7.2,
    ISO/IEC JTC1/SC29/WG04 MPEG 133, M55754, January 2021,
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66. Dawid Mieloch, Adrian Dziembowski,
    Proposal of IVDE 3.0,
    ISO/IEC JTC1/SC29/WG04 MPEG 133, M55751, 11-15 January 2021,
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67. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    MIV CE3.2-related: Temporal patch splitting,
    ISO/IEC JTC1/SC29/WG04 MPEG 133, M55750, 11-15 January 2021,
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68. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    MIV CE2.11-related: Encoder-side rendering,
    ISO/IEC JTC1/SC29/WG04 MPEG 133, M55749, 11-15 January 2021,
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69. Dawid Mieloch, Adrian Dziembowski,
    Exploration Experiments on Future MIV: PUT results,
    ISO/IEC JTC1/SC29/WG04 MPEG 133, M55748, 11-15 January 2021,
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70. Adrian Dziembowski, Joel Jung, Bart Kroon, Gwangsoon Lee, Dawid Mieloch, Basel Salahieh,
    MIV anchors,
    ISO/IEC JTC1/SC29/WG04 MPEG 133, M55671, 11-15 January 2021,
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71. Joel Jung, Dawid Mieloch, Adrian Dziembowski, Sarah Fachada, Lorenzo Ciccarelli,
    Exploration Experiments on Future MPEG Immersive Video,
    WG4_N0145, Online, October 2021,
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72. Adrian Dziembowski, Joel Jung, Bart Kroon, Dawid Mieloch,
    Report of MPEG Immersive Video CTC anchor generation,
    WG4_N0118, Online, July 2021,
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73. Joel Jung, Vinod Kumar Malamal Vadakital, Dawid Mieloch,
    Exploration Experiments on Future MPEG Immersive Video,
    WG4_N0115, Online, July 2021,
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74. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
    Summary on MPEG-I Visual Activities,
    WG4_N0086, Online, April 2021,
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75. Dawid Mieloch,
    Manual of Immersive Video Depth Estimation 3,
    WG4_N0058, Online, January 2021,
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76. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
    Summary on MPEG-I Visual Activities,
    WG4_N0052, Online, January 2021,
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77. Bart Kroon, Dawid Mieloch, Gauthier Lafruit,
    The MPEG Immersive video coding standard,
    Visual Communications and Image Processing (VCIP 2021), Munich, Germany, 5-8 December 2021,
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78. Jakub Szekiełda, Adrian Dziembowski, Dawid Mieloch,
    The Influence of Coding Tools on Immersive Video 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,
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79. 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,
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80. Dawid Mieloch, Adrian Dziembowski, Marek Domański,
    Depth Map Refinement for Immersive Video,
    IEEE Access, Vol. 9, 2021, pp. 10778 - 10788,
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81. Adrian Dziembowski, Dawid Mieloch, Sławomir Różek, Marek Domański,
    Color Correction for Immersive Video Applications,
    IEEE Access, Vol. 9, 2021,
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2020

82. Dawid Mieloch, Magdalena Juś, Dominika Klóska,
    New inter-view matching method in IVDE,
    MPEG132/m55753, Online, October 2020,
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83. Joel Jung, Vinod Kumar Malamal Vadakital, Dawid Mieloch,
    Report of the Exploration Experiments on Future MPEG Immersive Video,
    MPEG132/m55712, Online, October 2020,
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84. Marek Domański, Tomasz Grajek, Sławomir Maćkowiak, Dawid Mieloch, Sławomir Różek, Olgierd Stankiewicz, Jakub Stankowski,
    [VCM] Test material for stereoscopic and multiview video coding for machines,
    MPEG131/m55108, Rennes, France, October 2020,
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85. Dawid Mieloch, Adrian Dziembowski, Jakub Stankowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    MIV CE1.2-related: Geometry scaling,
    MPEG131/m54967, Rennes, France, October 2020,
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86. Dawid Mieloch,
    New depth maps for Frog and Fencing sequences,
    MPEG131/m54947, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
87. Dawid Mieloch, Adrian Dziembowski,
    PUT results for EE2 on Coding for Future MPEG Immersive Video,
    MPEG131/m54944, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
88. Adrian Dziembowski, Dawid Mieloch,
    PUT results for EE1 on Coding for Future MPEG Immersive Video,
    MPEG131/m54943, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
89. Jakub Szkiełda, Jakub Stankowski, Adrian Dziembowski, Dawid Mieloch,
    On the computational time of MIV-related experiments,
    MPEG131/m54897, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
90. Adrian Dziembowski, Dawid Mieloch, Olgierd Stankiewicz, Jakub Nikonowicz, Marek Domański,
    Noise modelling in TMIV,
    MPEG131/m54895, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
91. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Color correction in TMIV,
    MPEG131/m54894, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
92. Dawid Mieloch, Adrian Dziembowski, Marek Domański,
    MIV CE2.7: Adaptive texture-based pruning,
    MPEG131/m54893, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
93. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    MIV CE3.2: Color-based patch analysis,
    MPEG131/m54892, Rennes, France, October 2020,
    Full textEndNoteCitation
    
    
94. Adrian Dziembowski, Dawid Mieloch,
    [MPEG-I Visual] MIV Geometry Absent for perspective content,
    MPEG130/m54755, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
95. Vinod Kumar Malamal Vadakital, Adrian Dziembowski, Dawid Mieloch,
    Using VVC Class-F configuration improves the performance of MIV,
    MPEG131/m54390, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
96. Dawid Mieloch, Gwangsoon Lee, Jun Young Jeong,
    [MPEG-I Visual] IVDE and TMIV CTC depth maps comparison,
    MPEG131/m54278, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
97. Dawid Mieloch, Adrian Dziembowski,
    EE Depth results,
    MPEG131/m54277, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
98. Dawid Mieloch, Adrian Dziembowski, Marek Domański,
    Immersive Video CE2.7: Texture-dependent pruning,
    MPEG131/m54177, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
99. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
    Immersive Video CE1.2: Geometry scaling,
    MPEG131/m54176, Geneva, Switzerland, June 2020,
    Full textEndNoteCitation
    
    
100. Adrian Dziembowski, Dawid Mieloch,
     Comments on EE 6DoF,
     MPEG130/m53941, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
101. Jarosław Samelak, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     [MPEG-I Visual] Impact of HEVC profile on TMIV performance,
     MPEG130/m53910, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
102. Gwangsoon Lee, Jun Young Jeong, Ho min Eum, Jeongil Seo, Adrian Dziembowski, Dawid Mieloch,
     CE3-related: Additional patch dilation in temporal patch redundancy removal,
     MPEG130/m53701, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
103. Dawid Mieloch, Adrian Dziembowski, Jakub Stankowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
     [MPEG-I Visual] Segmentation-based geometry upsampling in TMIV,
     MPEG130/m53572, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
104. Dawid Mieloch,
     [MPEG-I Visual] Estimated depth maps for ClassroomVideo sequence,
     MPEG130/m53567, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
105. Jarosław Samelak, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     [MPEG-I Visual] HEVC-SCC in TMIV,
     MPEG130/m53427, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
106. Adrian Dziembowski, Dawid Mieloch, Adam Grzelka, Jakub Stankowski, Marek Domański, Gwangsoon Lee, Jun Young Jeong,
     CE3-related: Color-based patch splitting and sorting,
     MPEG130/m53408, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
107. Dawid Mieloch, Adrian Dziembowski, Jakub Stankowski, Olgierd Stankiewicz, Marek Domański, Gwangsoon Lee, Yun Young Jeong,
     [MPEG-I Visual] Immersive video depth estimation,
     MPEG130/m53407, Alpbah, Austria, April 2020,
     Full textEndNoteCitation
     
     
108. Bin Wang, Yule Sun, Lu Yu, Adrian Dziembowski, Dawid Mieloch,
     [MPEG-I Visual] Immersive Video CE3.6: Combination of patch merge and patch split,
     MPEG129/m52347, Brussels, Belgium, January 2020,
     Full textEndNoteCitation
     
     
109. Adrian Dziembowski, Dawid Mieloch, Adam Grzelka, Jakub Stankowski, Marek Domański, Gwangsoon Lee,
     Immersive Video CE3-related: Spatio-temporal patch redundancy removal,
     MPEG129/m51604, Brussel, Belgium, January 2020,
     Full textEndNoteCitation
     
     
110. Adrian Dziembowski, Dawid Mieloch, Adam Grzelka, Jakub Stankowski, Marek Domański, Gwangsoon Lee,
     Immersive Video CE3.2: Temporal patch redundancy removal,
     MPEG129/m51603, Brussel, Belgium, January 2020,
     Full textEndNoteCitation
     
     
111. Adrian Dziembowski, Dawid Mieloch, Adam Grzelka, Jakub Stankowski, Marek Domański, Gwangsoon Lee,
     Immersive Video CE3.1: Patch splitting,
     MPEG129/m51602, Brussel, Belgium, January 2020,
     Full textEndNoteCitation
     
     
112. Dawid Mieloch, Adrian Dziembowski, Marek Domański,
     [MPEG-I Visual] Natural outdoor test sequences,
     MPEG129/m51598, Brussel, Belgium, January 2020,
     Full textEndNoteCitation
     
     
113. Adrian Dziembowski, Dawid Mieloch, Sławomir Różek, Marek Domański,
     [MPEG-I Visual] Color refinement method for Immersive Video,
     MPEG129/m51583, Brussel, Belgium, January 2020,
     Full textEndNoteCitation
     
     
114. Adrian Dziembowski, Sławomir Różek, Dawid Mieloch, Marek Domański,
     [MPEG-I Visual] Color-corrected IntelFrog sequence,
     MPEG129/m51561, Brussel, Belgium, January 2020,
     Full textEndNoteCitation
     
     
115. Joel Jung, Vinod Kumar Malamal Vadakital, Dawid Mieloch,
     Exploration Experiments on Future MPEG Immersive Video,
     WG4_N0010, Online, October 2020,
     EndNoteCitation
     
     
116. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
     Summary on MPEG-I Visual Activities,
     WG4_N0007, Online, October 2020,
     Full textEndNoteCitation
     
     
117. Eduardo Juárez, Gauthier Lafruit, Jun Young Jeong, Adrian Dziembowski, Dawid Mieloch,
     Exploration Experiments on processing for future MPEG Immersive Video,
     N19492, Online, July 2020,
     EndNoteCitation
     
     
118. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
     Summary on MPEG-I Visual Activities,
     N19488, Online, July 2020,
     Full textEndNoteCitation
     
     
119. Dawid Mieloch,
     Manual of Immersive Video Depth Estimation,
     N19224, Online, April 2020,
     Full textEndNoteCitation
     
     
120. Eduardo Juárez, Gauthier Lafruit, Gun Bang, Jun Young Jeong, Adrian Dziembowski, Dawid Mieloch,
     Exploration Experiments on processing for immersive video,
     N19221, Online, April 2020,
     EndNoteCitation
     
     
121. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
     Summary on MPEG-I Visual Activities,
     N19218, Online, April 2020,
     Full textEndNoteCitation
     
     
122. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
     Summary on MPEG-I Visual Activities,
     N18994, Brussels, Belgium, January 2020,
     Full textEndNoteCitation
     
     
123. Dawid Mieloch, Olgierd Stankiewicz, Marek Domański,
     Depth Map Estimation for Free-Viewpoint Television and Virtual Navigation ,
     IEEE Access, Vol. 8, 2020, pp. 5760-5776,
     Full textEndNoteCitationDOI
     
     

2019

124. Adrian Dziembowski, Dawid Mieloch, Olgierd Stankiewicz, Marek Domański,
     Virtual View Synthesis for 3DoF+ Video ,
     34th Picture Coding Symposium, PCS 2019, Ningbo, China, 12-15 November 2019,
     Full textEndNoteCitation
     
     
125. Adam Grzelka, Adrian Dziembowski, Dawid Mieloch, Olgierd Stankiewicz, Jakub Stankowski, Marek Domański,
     Impact of Video Streaming Delay on User Experience with Head-Mounted Displays,
     34th Picture Coding Symposium, PCS 2019, Ningbo, China, 12-15 November 2019,
     Full textEndNoteCitation
     
     
126. Dawid Mieloch,
     Estymacja głębi w telewizji swobodnego punktu widzenia,
     Przegląd Telekomunikacyjny, Vol. 88, No. 6/2019, 2019, pp. 400-404,
     Full textEndNoteCitationDOI
     
     
127. Dawid Mieloch, Adrian Dziembowski, Marek Domański, Gwangsoon Lee,
     New depth maps for IntelFrog sequence,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m50798, Geneva, Switzerland, 7-11 October 2019,
     Full textEndNoteCitation
     
     
128. Adam Grzelka, Mateusz Lorkiewicz, Adrian Dziembowski, Dawid Mieloch,
     PUT proposal of PoznanFencing posetraces,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m50646, Geneva, Switzerland, 7-11 October 2019,
     Full textEndNoteCitation
     
     
129. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee,
     PUT/ETRI proposal for improved TMIV rendering method,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m50645, Geneva, Switzerland, 7-11 October 2019,
     Full textEndNoteCitation
     
     
130. Dawid Mieloch, Marek Domański, Gwangsoon Lee,
     New depth maps for PoznanFencing sequence,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m50644, Geneva, Switzerland, 7-11 October 2019,
     Full textEndNoteCitation
     
     
131. Adrian Dziembowski, Dawid Mieloch, Marek Domański, Gwangsoon Lee,
     PUT/ETRI Response to Immersive Video CE-3: Atlas Preparation,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m49963, Geneva, Switzerland, 7-11 October 2019,
     Full textEndNoteCitation
     
     
132. Marek Domański, Adrian Dziembowski, Dawid Mieloch, Olgierd Stankiewicz, Jakub Stankowski, Adam Grzelka, Gwangsoon Lee, Jun Young Jeong, Jeongil Seo,
     Call for Proposals on 3DoF+: Aggregation of the results of submission assessments obtained by the subjective tests with naïve subjects,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m47985, Geneva, Switzerland, March 2019,
     Full textEndNoteCitation
     
     
133. Marek Domański, Adrian Dziembowski, Dawid Mieloch, Olgierd Stankiewicz, Jakub Stankowski, Adam Grzelka, Gwangsoon Lee, Jun Young Jeong, Jeongil Seo,
     Technical description of proposal for Call for Proposals on 3DoF+ Visual prepared by Poznań University of Technology (PUT) and Electronics and Telecommunications Research Institute (ETRI),
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m47407, Geneva, Switzerland, March 2019,
     Full textEndNoteCitation
     
     
134. Marek Domański, Olgierd Stankiewicz, Gwangsoon Lee, Jeongil Seo, Adrian Dziembowski, Dawid Mieloch, Krzysztof Wegner,
     Depth estimation for omnidirectional video with various representations,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m46124, Marrakech, Morocco, 13-19 January 2019,
     Full textEndNoteCitation
     
     
135. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
     Summary on MPEG-I Visual Activities,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, N18786, Geneva, Switzerland, October 2019,
     Full textEndNoteCitation
     
     
136. Dawid Mieloch, Gauthier Lafruit, Bart Kroon,
     Summary on MPEG-I Visual Activities,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, N18560, Gothenburg, Sweden, July 2019,
     Full textEndNoteCitation
     
     
137. Adrian Dziembowski, Dawid Mieloch,
     Immersive Video CE-2: Crosscheck of 49085,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m49562, Gothenburg, Sweden, 8-12 June 2019,
     Full textEndNoteCitation
     
     
138. Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     Color-corrected Poznan Fencing sequence,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m48095, Gothenburg, Sweden, 8-12 June 2019,
     Full textEndNoteCitation
     
     
139. Olgierd Stankiewicz, Marek Domański, Dawid Mieloch, Adrian Dziembowski,
     High-frequency residual layer separation for immersive video coding,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m48094, Gothenburg, Sweden, 8-12 June 2019,
     Full textEndNoteCitation
     
     
140. Dawid Mieloch, Adrian Dziembowski, Marek Domański, Gwangsoon Lee,
     PUT/ETRI Response to Immersive Video CE-5: Depth and color refinement,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m48092, Gothenburg, Sweden, 8-12 June 2019,
     Full textEndNoteCitation
     
     
141. Dawid Mieloch, Adrian Dziembowski, Olgierd Stankiewicz, Marek Domański, Gwangsoon Lee,
     PUT/ETRI Response to Immersive Video CE-2: Temporal and spatial aggregation,
     ISO/IEC JTC1/SC29/WG11 MPEG2019, m48090, Gothenburg, Sweden, 8-12 June 2019,
     Full textEndNoteCitation
     
     

2018

142. Dawid Mieloch,
     Depth Estimation in Free-Viewpoint Television,
     PhD Dissertation at Poznan University of Technology, Faculty of Electronics and Telecommunications, 2018,
     Supervisor: prof. dr hab. inż. Marek Domański, Reviewers: prof. Paweł Strumiłło, prof. Gauthier Lafruit,
     Abstract (pol)Full text (eng)EndNoteCitation
     
     
143. Adrian Dziembowski, Dawid Mieloch, Krzysztof Wegner, Olgierd Stankiewicz, Marek Domański,
     Proposal of enhanced version of View Synthesis Reference Software with multiple input views,
     ISO/IEC JTC1/SC29/WG11 MPEG2018, M42941, Ljubljana, Slovenia, 13-20 July 2018,
     Full textEndNoteCitation
     
     
144. Marek Domański, Adrian Dziembowski, Tomasz Grajek, Adam Grzelka, Krzysztof Klimaszewski, Dawid Mieloch, Robert Ratajczak, Olgierd Stankiewicz, Jakub Siast, Jakub Stankowski, Krzysztof Wegner,
     Free-viewpoint television demonstration for sports events,
     ISO/IEC JTC1/SC29/WG11 MPEG2018, M41991, Gwangju, South Korea, 22-26 January 2018,
     Full textEndNoteCitation
     
     
145. Marek Domański, Dominika Łosiewicz, Tomasz Grajek, Olgierd Stankiewicz, Krzysztof Wegner, Adrian Dziembowski, Dawid Mieloch,
     Extended VSRS for 360 degree video,
     ISO/IEC JTC1/SC29/WG11 MPEG2018, M41990, Gwangju, South Korea, 22-26 January 2018,
     Full textEndNoteCitation
     
     
146. Dawid Mieloch, Adam Grzelka,
     Segmentation-based Method of Increasing The Depth Maps Temporal Consistency,
     International Journal of Electronics and Telecommunications, Vol. 64, No. 3, Electronics and Telecommunications Committee of Polish Academy of Sciences, Warsaw, 2018, pp. 293-298, ISSN: 0867-6747,
     Full textEndNoteCitationDOI
     
     Abstract
     

     In this paper, a modification of the graph-based depth estimation is presented. The purpose of proposed modification is to increase the quality of estimated depth maps, reduce the time of the estimation, and increase the temporal consistency of depth maps. The modification is based on the image segmentation using superpixels, therefore in the first step of the proposed modification a segmentation of previous frames is used in the currently processed frame in order to reduce the overall time of the depth estimation. In the next step, a depth map from the previous frame is used in the depth map optimization as the initial values of a depth map estimated for the current frame. It results in the better representation of silhouettes of objects in depth maps and in the reduced computational complexity of the depth estimation process. In order to evaluate the performance of the proposed modification the authors performed the experiment for a set of multiview test sequences that varied in their content and an arrangement of cameras. The results of the experiments confirmed the increase of the depth maps quality — the quality of depth maps calculated with the proposed modification is higher than for the unmodified depth estimation method, apart from the number of the performed optimization cycles. Therefore, use of the proposed modification allows to estimate a depth of the better quality with almost 40% reduction of the estimation time. Moreover, the temporal consistency, measured through the reduction of the bitrate of encoded virtual views, was also considerably increased.

147. Olgierd Stankiewicz, Marek Domański, Adrian Dziembowski, Adam Grzelka, Dawid Mieloch, Jarosław Samelak,
     A free-viewpoint television system for horizontal virtual navigation,
     IEEE Transactions on Multimedia, Vol. 20, No. 8, IEEE, 5th January 2018, pp. 2182-2195,
     Full textEndNoteCitationDOI
     
     
148. Krzysztof Wegner, Dominika Łosiewicz, Marek Domański, Adrian Dziembowski, Tomasz Grajek, Adam Grzelka, Dawid Mieloch, Robert Ratajczak, Olgierd Stankiewicz, Jakub Stankowski, Krzysztof Wegner,
     Real-time virtual navigation provision by simple means,
     International Conference on Signals and Electronic Systems, ICSES 2018, Kraków, Poland, September 10-12 2018,
     EndNoteCitation
     
     Abstract
     

     The paper reports the results on virtual navigation in a sports hall. The video data is gathered and processed off-line thus producing the multiview plus depth representation of a scene. This representation is an input to the rendering server. Even a typical PC computer is able to serve a number of users that freely and independently navigate in real - time and watch virtual video. The users are able to navigate in the scene changing the virtual viewpoint and virtual view direction. The service is provided through a webpage, so a viewer does not need to install any software on smartphone, tablet or notebook. The paper discusses the technical solutions together with the rationale for their choice.

149. Jakub Stankowski, Adam Grzelka, Dawid Mieloch, Krzysztof Wegner,
     Processing Pipeline for Real-Time Remote Delivery of Virtual View in FTV Systems,
     International Conference on Signals and Electronic Systems, ICSES 2018, Kraków, Poland, September 10-12 2018,
     EndNoteCitation
     
     Abstract
     

     This article presents a processing pipeline for rendering servers used in free viewpoint television systems to provide virtual views requested by the user of the free navigation service. Such functionality requires a processing scheme to ensure a fast synthesis of virtual views and to operate with very large amount of data, because FTV systems are characterized by the large number of used cameras. The proposed solutions heavily utilize parallelization and multithreaded operations, together with the use of WebSocket. The proposal was to show that the solution guarantees the delivery of the new virtual view in real time, what ensures the high quality of the experience for the user of the free navigation service.

150. Dawid Mieloch,
     Intrinsic Parameters Estimation for a Multiview System,
     International Conference on Signals and Electronic Systems, ICSES 2018, Kraków, Poland, September 10-12 2018,
     Full textEndNoteCitation
     
     Abstract
     

     This paper presents a new method of estimation of camera parameters which uses spherical structures as calibration objects. The method allows estimation of intrinsic parameters and parameters of the optical distortion of a camera and is adapted to the multi-camera systems. The algorithms shown in the paper, as well as implementations of the optical center and lens distortion coefficients estimation use novel solutions developed for the purpose of this paper. The presented method is tested experimentally by the authors. The results of the experiment prove that the method provides the accuracy of the estimation of the camera parameters comparable to the widely used state-of-the-art methods, therefore can be successfully used with any multi-camera

2017

151. Adrian Dziembowski, Adam Grzelka, Dawid Mieloch,
     Zwiększanie rozdzielczości obrazu i mapy głębi w celu poprawy jakości syntezy widoków wirtualnych,
     Przegląd Telekomunikacyjny, Vol. 86, No. 6, Poznań, Poland, 2017, pp. 405-408, ISSN: 1230-3496,
     Full textEndNoteCitation
     
     
152. Dawid Mieloch, Adrian Dziembowski, Adam Grzelka,
     Estymacja głębi dla systemów wielowidokowych,
     Przegląd Telekomunikacyjny, Vol. 86, No. 6, Poznań, Poland, 2017, pp. 479-482, ISSN: 1230-3496,
     Full textEndNoteCitation
     
     
153. Krzysztof Wegner, Olgierd Stankiewicz, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     Evaluation of step-in/step-out capability of state-of-the-art view synthesis technology,
     ISO/IEC JTC1/SC29/WG11 MPEG2017, M40809, Torino, Italy, 17-21 July 2017,
     Full textEndNoteCitation
     
     
154. Krzysztof Wegner, Olgierd Stankiewicz, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     Omnidirectional 6-DoF/3-DoF+ rendering,
     ISO/IEC JTC1/SC29/WG11 MPEG2017, M40806, Torino, Italy, 17-21 July 2017,
     Full textEndNoteCitation
     
     
155. Krzysztof Wegner, Olgierd Stankiewicz, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     Exploration experiments on omnidirectional 6-DoF/3-DoF+ rendering,
     ISO/IEC JTC1/SC29/WG11 MPEG2017, M41807, Macao, China, October 2017,
     Full textEndNoteCitation
     
     
156. Dawid Mieloch, Adrian Dziembowski, Adam Grzelka, Olgierd Stankiewicz, Marek Domański,
     Temporal Enhancement of Graph-Based Depth Estimation Method,
     IEEE International Conference on Systems, Signals and Image Processing IWSSIP 2017, Poznań, Poland, 22-24 May 2017,
     Full textEndNoteCitation
     
     
157. Adrian Dziembowski, Adam Grzelka, Dawid Mieloch, Olgierd Stankiewicz, Marek Domański,
     Enhancing View Synthesis with Image and Depth Map Upsampling,
     IEEE International Conference on Systems, Signals and Image Processing IWSSIP 2017, Poznań, Poland, 22-24 May 2017,
     Full textEndNoteCitation
     
     
158. Dawid Mieloch, Adrian Dziembowski, Adam Grzelka, Olgierd Stankiewicz, Marek Domański,
     Graph-based multiview depth estimation using segmentation,
     IEEE International Conference on Multimedia and Expo ICME 2017, Hong Kong, 10-14 July 2017,
     Full textEndNoteCitation
     
     
159. Marek Domański, Adrian Dziembowski, Tomasz Grajek, Adam Grzelka, Krzysztof Klimaszewski, Dawid Mieloch, Robert Ratajczak, Olgierd Stankiewicz, Jakub Siast, Jakub Stankowski, Krzysztof Wegner,
     Demonstration of a simple free viewpoint television system,
     IEEE International Conference on Image Processing ICIP 2017, Bejing, China, 17-20 September 2017,
     Full textEndNoteCitation
     
     

2016

160. Adrian Dziembowski, Adam Grzelka, Dawid Mieloch, Sławomir Maćkowiak,
     Wielowidokowa synteza w systemach telewizji swobodnego punktu widzenia,
     Przegląd Telekomunikacyjny, Vol. 88, No. 6, 2016, pp. 233-236, ISSN: 1230-3496,
     Full textEndNoteCitation
     
     
161. Dawid Mieloch, Adrian Dziembowski, Adam Grzelka,
     Segmentacja obrazu w estymacji map głębi,
     Przegląd Telekomunikacyjny, Vol. 88, No. 6, 2016, pp. 241-244, ISSN: 1230-3496,
     Full textEndNoteCitation
     
     
162. Marek Domański, Adrian Dziembowski, Adam Grzelka, Dawid Mieloch,
     Optimization of camera positions for free-navigation applications,
     International Conference on Signals and Electronic Systems, ICSES 2016, Kraków, Poland, September 5-7 2016,
     Full textEndNoteCitation
     
     Abstract
     

     In the article we deal with the problem of camera positioning in sparse multiview systems with applications to free navigation. The limited number of the cameras, though makes the system relatively practical, implies problems with proper depth estimation and virtual view synthesis, due to increased amount of the occluded areas. We present experimental results for the optimal positioning of the cameras, depending on two factors – characteristics of an acquired scene and the multi-camera system (linear or circular camera setup). The results show the correlation between the number of occlusions in the scene and a gain from using camera pairs instead of uniformly distributed cameras.

163. 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.

164. Adrian Dziembowski, Adam Grzelka, Dawid Mieloch, Olgierd Stankiewicz, Krzysztof Wegner, Marek Domański,
     Multiview Synthesis – improved view synthesis for virtual navigation,
     32nd Picture Coding Symposium, PCS 2016, Nuremberg, Germany, December 4-7, 2016,
     Full textEndNoteCitation
     
     Abstract
     

     In the paper, we propose a new method for the virtual view synthesis called as Multiview Synthesis. In our approach, virtual views are synthesized using two neighboring real views, but the disoccluded areas are not inpainted, but filled by the information from the further real views – additional views, traditionally not included in the view synthesis. The whole synthesis is performed with triangles rather than with individual pixels. In the proposed Multiview Synthesis, additional steps of adaptive color correction, blurred edge removal and spatial edge blurring are also included. The experimental results show that both the objective and subjective quality of the synthesized views is significantly higher than the quality of views obtained using the state-of-the-art MPEG reference view synthesis software.

165. Marek Domański, Adrian Dziembowski, Adam Grzelka, Łukasz Kowalski, Dawid Mieloch, Jarosław Samelak, Jakub Stankowski, Olgierd Stankiewicz, Krzysztof Wegner,
     Experimental video coding software for Free Navigation applications,
     ISO/IEC JTC1/SC29/WG11 MPEG2016, M39527, Chengdu, China, 17-21 October 2016,
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166. Marek Domański, Adrian Dziembowski, Adam Grzelka, Łukasz Kowalski, Dawid Mieloch, Jarosław Samelak, Jakub Stankowski, Olgierd Stankiewicz, Krzysztof Wegner,
     Coding results for Poznan Fencing 2 and Poznan Blocks 2 test sequences in Free Navigation scenario,
     ISO/IEC JTC1/SC29/WG11 MPEG2016, M39215, Chengdu, China, 17-21 October 2016,
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167. Marek Domański, Adrian Dziembowski, Adam Grzelka, Dawid Mieloch,
     Study on nouniform distributions of cameras located on an arc,
     ISO/IEC JTC1/SC29/WG11 MPEG2016, M38248, Geneva, Switzerland, 30 May - 03 June 2016,
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168. Marek Domański, Adrian Dziembowski, Adam Grzelka, Dawid Mieloch, Olgierd Stankiewicz, Krzysztof Wegner,
     Multiview test video sequences for free navigation exploration obtained using pairs of cameras,
     ISO/IEC JTC1/SC29/WG11 MPEG2016, M38247, Geneva, Switzerland, 30 May - 03 June 2016,
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169. Marek Domański, Adrian Dziembowski, Adam Grzelka, Łukasz Kowalski, Dawid Mieloch, Jarosław Samelak, Olgierd Stankiewicz, Jakub Stankowski, Krzysztof Wegner,
     [FTV AHG] Extended results of Poznan University of Technology proposal for Call for Evidence on Free-Viewpoint Television,
     ISO/IEC JTC1/SC29/WG11 MPEG2016, M38246, Geneva, Switzerland, 30 May - 03 June 2016,
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170. Marek Domański, Adrian Dziembowski, Adam Grzelka, Łukasz Kowalski, Dawid Mieloch, Jarosław Samelak, Olgierd Stankiewicz, Jakub Stankowski, Krzysztof Wegner,
     Technical Description of Poznan University of Technology proposal for Call for Evidence on Free-Viewpoint Television,
     ISO/IEC JTC1/SC29/WG11 MPEG2016, M37893, San Diego, US, 22-26 February 2016,
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171. Adrian Dziembowski, Marek Domański, Adam Grzelka, Dawid Mieloch, Jakub Stankowski, Krzysztof Wegner,
     The influence of a lossy compression on the quality of estimated depth maps,
     23rd International Conference on Systems, Signals and Image Processing, IWSSIP 2016, Bratislava, Slovakia, 23-25 May 2016, pp. 1-4, ISBN: 978-1-4673-9555-7 , ISSN: 2157-8702,
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     Abstract
     

     The paper considers the influence of a lossy compression of multiview video on the quality of estimated depth maps. We have encoded a set of views with commonly known compression techniques used in compact IP cameras: HEVC (MPEG H part 2 / H.265), AVC (MPEG 4 part 10 / H.264) and MPEG 2 part 2 / H.262. Basing on the decoded data we have estimated depth maps and rendered a set of the intermediate virtual views. A drop of the quality was studied by comparison of virtual views rendered out of the depth maps estimated from an uncompressed video. The obtained results show that with a reasonable compression rate, lower quality of virtual views is acceptable for real implementable FTV systems.

172. Adrian Dziembowski, Adam Grzelka, Dawid Mieloch, Olgierd Stankiewicz, Marek Domański,
     Depth map upsampling and refinement for FTV systems,
     International Conference on Signals and Electronic Systems, ICSES 2016, Kraków, Poland, September 5-7 2016,
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     Abstract
     

     In free-viewpoint television, high-quality depth maps are substantial for a virtual view synthesis for free navigation purposes. In this paper, we propose a new method of depth map quality improvement and resolution increase. Our method is intended for low resolution depth maps acquired through estimation using multiview video. The proposed depth map quality improvement is based on segmentation of an acquired high-resolution image. In the estimated depth map, searching for outliers is performed in the neighborhood created from similar segments in the acquired view. Experimental results show high effectiveness of the presented method of depth maps refinement, especially for object edges.

2015

173. 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,
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     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.

174. Marek Domański, Adrian Dziembowski, Dawid Mieloch, Adam Łuczak, Olgierd Stankiewicz, Krzysztof Wegner,
     A Practical Approach to Acquisition and Processing of Free Viewpoint Video,
     31st Picture Coding Symposium PCS 2015, Cairns, Australia, 31 May - 3 June 2015, pp. 10-14,
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175. Marek Domański, Adrian Dziembowski, Tomasz Grajek, Adam Grzelka, Maciej Kurc, Adam Łuczak, Dawid Mieloch, Jakub Siast, Olgierd Stankiewicz, Krzysztof Wegner,
     [FTV AHG] Video and depth multiview test sequences acquired with circular camera arrangement – “Poznan Service” and “Poznan People”,
     ISO/IEC JTC1/SC29/WG11 MPEG2015, M36569, Warsaw, Poland, 20-27 June 2015,
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176. Marek Domański, Krzysztof Klimaszewski, Adrian Dziembowski, Dawid Mieloch, Adam Łuczak, Olgierd Stankiewicz, Krzysztof Wegner,
     Freeview Navigation (FN) anchor generation using 3D-HEVC with depth for "Poznan Blocks" sequence,
     ISO/IEC JTC1/SC29/WG11 MPEG2015, M36565, Warsaw, Poland, 20-27 June 2015,
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177. Marek Domański, Adrian Dziembowski, Maciej Kurc, Adam Łuczak, Dawid Mieloch, Jakub Siast, Olgierd Stankiewicz, Krzysztof Wegner,
     Poznan University of Technology test multiview video sequences acquired with circular camera arrangement – “Poznan Team” and “Poznan Blocks” sequences,
     ISO/IEC JTC1/SC29/WG11 MPEG2015, M35846, Geneva, Switzerland, 14-20 February 2015,
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178. Marek Domański, Adrian Dziembowski, Krzysztof Klimaszewski, Adam Łuczak, Dawid Mieloch, Olgierd Stankiewicz, Krzysztof Wegner,
     Comments on further standardization for free-viewpoint television,
     ISO/IEC JTC1/SC29/WG11 MPEG2015, M35842, Geneva, Switzerland, 14-20 February 2015,
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2014

179. Marek Domański, Adrian Dziembowski, Agnieszka Kuehn, Dawid Mieloch,
     Telewizja swobodnego punktu widzenia – nowa usługa czy futurystyczna wizja?,
     Przegląd Telekomunikacyjny, No. 8-9/2014, August/September 2014, pp. 734-737,
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180. Adrian Dziembowski, Agnieszka Kuehn, Adam Łuczak, Dawid Mieloch, Krzysztof Wegner,
     Realizacja eksperymentalnego systemu telewizji swobodnego punktu widzenia z łukowym ustawieniem kamer,
     Przegląd Telekomunikacyjny, No. 6/2014, June 2014, pp. 161-164,
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181. Marek Domański, Dawid Mieloch, Adrian Dziembowski, Olgierd Stankiewicz, Krzysztof Wegner,
     Super multiview image compression: results for Bee sequence (FTV EE3),
     ISO/IEC JTC 1/SC 29/WG 11, m35070, Strasbourg, France, 20-24 October 2014,
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182. Krzysztof Wegner, Olgierd Stankiewicz, Adrian Dziembowski, Dawid Mieloch, Marek Domański,
     First version of depth maps for Poznan Blocks multiview video test sequence,
     ISO/IEC JTC 1/SC 29/WG 11, M32248, San Jose, USA, January 2014,
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183. Marek Domański, Adrian Dziembowski, Agnieszka Kuehn, Maciej Kurc, Adam Łuczak, Dawid Mieloch, Jakub Siast, Olgierd Stankiewicz, Krzysztof Wegner,
     Poznan Blocks – a multiview video test sequence and camera parameters for Free Viewpoint Television,
     ISO/IEC JTC 1/SC 29/WG 11, M32243, San Jose, USA, January 2014,
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184. Marek Domański, Adrian Dziembowski, Agnieszka Kuehn, Maciej Kurc, Adam Łuczak, Dawid Mieloch, Jakub Siast, Olgierd Stankiewicz, Krzysztof Wegner,
     Experiments on acquisition and processing of video for free-viewpoint television,
     3DTV Conference 2014, Budapest, Hungary, 2-4 July 2014,
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