Abstract
With the advances of video services and user devices, now users can view multiple live video streams being taken at multiple angles on multiple devices at the same time. However, in order to actually perform such a service, a synchronization technique between plural video streams being played simultaneously on different screens is required. In this paper, we examine in detail the synchronization problems that may arise from the generation, transmission and consumption of multiple video streams. And we propose a structure and method to address the synchronization problem.
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References
Global Internet Phenomena Report (2016), Sandvine Incorp., Waterloo, ON, Canada
Lee GM, Lee CS, Rhee WS, Choi JK (2009) Functional architecture for NGN-based personalized IPTV services. IEEE Trans Broadcast 55(2):329–342
Mikoczy E (2008) Next generation of multimedia services - NGN based IPTV architecture. In: 2008 15th international conference on systems, signals and image processing, Bratislava, pp 523–526
Lim Y, Aoki S, Bouazizi I, Song J (2014) New MPEG transport standard for next generation hybrid broadcasting system with IP. IEEE Trans Broadcast 60(2):160–169
Walker GK, Stockhammer T, Mandyam G, Wang YK, Lo C (2016) ROUTE/DASH IP streaming-based system for delivery of broadcast, broadband, and hybrid services. IEEE Trans Broadcast 62(1):328–337
Ohanian T (2016) Moving toward zero infrastructure broadcasting. SMPTE Motion Imaging J 125(8):49–59
Angrisani L, Capriglione D, Ferrigno L, Miele G (2013) An internet protocol packet delay variation estimator for reliable quality assessment of video-streaming services. IEEE Trans Instrum Meas 62(5):914–923
Ramos FMV (2013) Mitigating IPTV zapping delay. IEEE Commun Mag 51(8):128–133
Siebert P, Caenegem TNMV, Wagner M (2009) Analysis and improvements of zapping times in IPTV systems. IEEE Trans. Broadcasting 55(2):407–418
Wang J, Xu W, Wang J (2016) A study of live video streaming system for mobile devices. In: 2016 First IEEE international conference on computer communication and the internet (ICCCI), Wuhan, pp 157–160
Li X, Salehi MA, Bayoumi M (2016) VLSC: Video live streaming using cloud services. In: 2016 IEEE international conferences on big data and cloud computing (BDCloud), social computing and networking (SocialCom), sustainable computing and communications (SustainCom) (BDCloud-SocialCom-SustainCom), Atlanta, GA, pp 595–600
ISO/IEC JTC1/SC29/WG11 MPEG 23009-1 (2014) Information technology dynamic adaptive streaming over HTTP (DASH) Part 1: media presentation description and segment formats, May 2014
Parmar MTH (2012) Adobe’s Real Time Messaging Protocol. Adobe Syst. Inc.
ISO/IEC JTC1/SC29/WG11 MPEG 23008-1 (2014) MPEG media transport, June 2014
HECAS Live Streamer and Player (2017). HECAS Inc. http://www.hecaslab.com
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© 2018 Springer Science+Business Media Singapore
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Park, H., Jeon, K., Yang, J., Kim, K.J. (2018). A Study on Video Stream Synchronization from Multi-Source to Multi-Screen. In: Kim, K., Joukov, N. (eds) Mobile and Wireless Technologies 2017. ICMWT 2017. Lecture Notes in Electrical Engineering, vol 425. Springer, Singapore. https://doi.org/10.1007/978-981-10-5281-1_55
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DOI: https://doi.org/10.1007/978-981-10-5281-1_55
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Online ISBN: 978-981-10-5281-1
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