Please use this identifier to cite or link to this item: http://hdl.handle.net/1942/22675
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dc.contributor.authorWIJNANTS, Maarten-
dc.contributor.authorROVELO RUIZ, Gustavo-
dc.contributor.authorQUAX, Peter-
dc.contributor.authorLAMOTTE, Wim-
dc.date.accessioned2016-11-21T14:58:17Z-
dc.date.available2016-11-21T14:58:17Z-
dc.date.issued2016-
dc.identifier.citationMM '16 Proceedings of the 2016 ACM on Multimedia Conference, ACM,p. 1267-1276-
dc.identifier.isbn9781450336031-
dc.identifier.urihttp://hdl.handle.net/1942/22675-
dc.description.abstractThe bulk of contemporary online video traffic is encoded in a traditional manner, hereby neglecting most, if not all, of the semantics of the underlying visual scene. One essential piece of semantic information in the context of video streaming is awareness of the objects that jointly constitute the scene. A canonical example of a benefit associated with such object awareness is the ability to subdivide a video fragment in respectively a background and one or more foreground objects. This paper reports on a pragmatically designed video streaming approach that exploits object-related knowledge in order to improve the real-time adaptability of video streaming sessions (manifested in the form of increased granularity in terms of streaming quality control). The proposed approach is completely compliant with present-day video codecs and HTTP Adaptive Streaming schemes, most notably H.264 and MPEG-DASH. Findings from subjecting the proposed video streaming technique to a comparative subjective evaluation suggest that scenarios exist where the presented approach holds the capacity to improve on traditional streaming in terms of user-perceived video quality.-
dc.description.sponsorshipThe research leading to these results has received funding from the European Union's Seventh Framework Programme (FP7/2007-2013) under grant agreement nr 610370, ICoSOLE ("Immersive Coverage of Spatially Outspread Live Events", http://www.icosole.eu).-
dc.language.isoen-
dc.publisherACM-
dc.rightsCopyright held by the owner/author(s). Publication rights licensed to ACM.-
dc.subject.otherH.264; MPEG-DASH; MPEG-4; WebGL; object-based video-
dc.titleA Pragmatically Designed Adaptive and Web-compliant Object-based Video Streaming Methodology: Implementation and Subjective Evaluation-
dc.typeProceedings Paper-
local.bibliographicCitation.conferencedate15 - 19 October 2016-
local.bibliographicCitation.conferencename2016 ACM Multimedia Conference (ACMMM2016)-
local.bibliographicCitation.conferenceplaceAmsterdam, The Netherlands-
dc.identifier.epage1276-
dc.identifier.spage1267-
local.bibliographicCitation.jcatC1-
dc.description.notesWijnants, M (reprint author), Hasselt Univ, tUL, iMinds, Expertise Ctr Digital Media, Wetenschapspk 2, B-3590 Diepenbeek, Belgium. maarten.wijnants@uhasselt.be; gustavo.rovelo@uhasselt.be; peter.quax@uhasselt.be; wim.lamotte@uhasselt.be-
local.publisher.placeNew York, USA-
dc.relation.references[1] Adobe After Effects CC tutorials. Use the Roto Brush. Online, https://helpx.adobe.com/after-effects/how-to/aftereffects-roto-brush-cc.html, 2016. [2] P. R. Alface, J.-F. Macq, F. Lee, and W. Bailer. Adaptive coding of high-resolution panoramic video using visual saliency. In Proceedings of the 1st International Workshop on Interactive Content Consumption at EuroITV 2013, June 2013. [3] S. A. Goor and L. Murphy. An adaptive MPEG-4 streaming system based on object prioritisation. In Proceedings of Irish Signals and Systems Conference, July 2003. [4] A. Hakeem, K. Shafique, and M. Shah. An object-based video coding framework for video sequences obtained from static cameras. In Proceedings of ACM MULTIMEDIA '05, pages 608-617, New York, NY, USA, 2005. ACM. [5] M.-H. Hsiao, H.-P. Kuo, H.-C. Wu, Y.-K. Chen, and S.-Y. Lee. Object-based video streaming technique with application to intelligent transportation systems. In IEEE International Conference on Networking, Sensing and Control, volume 1, pages 315-320, March 2004. [6] ISO/IEC 14496-2:1999. Information technology -- Coding of audio-visual objects -- Part 2: Visual, 1999. [7] ISO/IEC 23009-1. Information technology -- Dynamic adaptive streaming over HTTP (DASH) -- Part 1: Media presentation description and segment formats, 2014. [8] ITU-T P.910. Subjective video quality assessment methods for multimedia applications, April 2008. [9] D. Kimber, T. Dunnigan, A. Girgensohn, F. Shipman, T. Turner, and T. Yang. Trailblazing: Video playback control by direct object manipulation. In 2007 IEEE International Conference on Multimedia and Expo, pages 1015-1018, July 2007. [10] C. Nguyen, Y. Niu, and F. Liu. Direct manipulation video navigation in 3D. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, CHI '13, pages 1169-1172, New York, NY, USA, 2013. ACM. [11] S. P echard, R. P epion, and P. L. Callet. Suitable methodology in subjective video quality assessment: A resolution dependent paradigm. In International Workshop on Image Media Quality and its Applications, IMQA2008, Kyoto, Japan, September 2008. [12] S. Poullot and S. Satoh. VabCut: A video extension of GrabCut for unsupervised video foreground object segmentation. In 2014 International Conference on Computer Vision Theory and Applications, volume 2, pages 362{371, January 2014. [13] A. Puri and A. Eleftheriadis. MPEG-4: An object-based multimedia coding standard supporting mobile applications. Mobile Networks and Applications, 3(1):5-32, June 1998. [14] P. Quax, P. Issaris,W. Vanmontfort, andW. Lamotte. Evaluation of distribution of panoramic video sequences in the eXplorative Television project. In 22nd International Workshop on Network and Operating System Support for Digital Audio and Video, NOSSDAV '12, pages 45-50, New York, NY, USA, 2012. ACM. [15] H. Schwarz, D. Marpe, and T. Wiegand. Overview of the Scalable Video Coding extension of the H.264/AVC standard. IEEE Transactions on Circuits and Systems for Video Technology, 17(9):1103-1120, September 2007. [16] A. Vetro and H. Sun. An overview of MPEG-4 object-based encoding algorithms. In International Conference on Information Technology: Coding and Computing, pages 366-369, April 2001. [17] A. Vetro, H. Sun, and Y. Wang. Object-based transcoding for adaptable video content delivery. IEEE Transactions on Circuits and Systems for Video Technology, 11(3):387-401, March 2001. [18] W3C Candidate Recommendation.Media Source Extensions. Online, https://www.w3.org/TR/media-source/, November 2015. [19] H. Wang, V.-T. Nguyen, W. T. Ooi, and M. C. Chan. Mixing tile resolutions in tiled video: A perceptual quality assessment. In 24th International Workshop on Network and Operating System Support on Digital Audio and Video, NOSSDAV '14, pages 25-30, New York, NY, USA, 2014. ACM. [20] J. Wuenschmann, T. Roll, C. Feller, and A. Rothermel. Analysis and improvements to the object based video encoder MPEG 4 part 25. In 2011 IEEE International Conference on Consumer Electronics - Berlin, pages 115-119, September 2011.-
local.type.refereedRefereed-
local.type.specifiedProceedings Paper-
dc.identifier.doi10.1145/2964284.2964300-
dc.identifier.isi000387733800108-
dc.identifier.urlhttp://dl.acm.org/citation.cfm?id=2964300&CFID=680151690&CFTOKEN=37495422-
local.bibliographicCitation.btitleMM '16 Proceedings of the 2016 ACM on Multimedia Conference-
item.contributorWIJNANTS, Maarten-
item.contributorROVELO RUIZ, Gustavo-
item.contributorQUAX, Peter-
item.contributorLAMOTTE, Wim-
item.fulltextWith Fulltext-
item.validationecoom 2017-
item.fullcitationWIJNANTS, Maarten; ROVELO RUIZ, Gustavo; QUAX, Peter & LAMOTTE, Wim (2016) A Pragmatically Designed Adaptive and Web-compliant Object-based Video Streaming Methodology: Implementation and Subjective Evaluation. In: MM '16 Proceedings of the 2016 ACM on Multimedia Conference, ACM,p. 1267-1276.-
item.accessRightsRestricted Access-
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