Browse > Article
http://dx.doi.org/10.9708/jksci.2013.18.8.053

A Study on the Design of Uniform Quality Guaranteed Streaming Video System  

Park, Young-Hwan (Dept. of Computer & Information Engineering, Chongju University)
Park, Chan-Khon (Dept. of Computer & Information Engineering, Chongju University)
Abstract
The existing research on the QoS of the Streaming video system(SVS) adjust the video stream being sent from the network perspective, the focus is to prevent data loss and delay. The other hand, changing the quality of the video stream will not receive the guaranteed QoS from the perspective of the users who want uniform quality. In order to solve these problems, this paper applied to ensure that the benefits in the amount of bits per frame occurs Encoder CBR streaming video is kept constant and uniform picture quality advantages of VBR streaming video VBR to CBR Encoder and CBR to VBR Decoder, Video was designed to control the playback stream for And to ensure a uniform quality of the user based on the design and implementation of uniform quality guaranteed SVS. PSNR evaluated for several characteristics of the sample video to demonstrate the superiority of the SVS ensure uniform quality, the proposed Performance evaluation of the SVS ensure uniform quality CBW the ABR from 100% to ensure uniform image quality from 85% to environmental excellence is proved.
Keywords
Streaming video system; QoS; Uniform quality;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Yun Q. Shi, Huifang Sun, "Image and Video Compression for Multimedia Engineering: Fundamentals, Algorithms, and Standards Second Edition", CRC Press, 2008.
2 T. V. Lakshman, Antonio Ortega, Amy. R. Reibman, "VBR Video: Tradeoffs and potentials", Proc. IEEE, Vol. 86, No. 5, May 1998.
3 T. Kim, M. H. Ammar, "Optimal quality adaptation for MPEG-4 fine-grained scalable video", IEEE INFOCOM, 2003.
4 B. Wang, W. Wei, Z. Guo, and D. Towsley, "Multipath live streaming via TCP: scheme, performance and benefits", Proc. ACM CoNEXT conference, pp. 1-12, 2007.
5 R. Rejaie, M. Handley. D. Estrin, "RAP: An end-to-end rate based congestion control mechanism for real-time streams in the internet", IEEE INFOCOMM, 1999.
6 I. Rhee, V. Ozdemir, Y. Yi, "TEAR: TCP emulation at receivers - flow control for multimedia streaming", Technical Report, NCSU, 2000.
7 D. Bansal, H. Balakrishnan, "Binomial congestion control algorithms", IEEE INFOCOM, 2001.
8 M. Handley, S. Floyd, J. Pahdye, and J. Widmer, "TCP Friendly Rate Control (TFRC): Protocol Specification", IETF, Request For Comments 5348, September 2008.
9 E. Tan, J. Chen, S. Ardon, E. Lochin, "Video TFRC", IEEE International Conference on Communications 2008, May 2008.
10 J. D. Salehi, "Supporting stored video: Reducing rate variability and end-to-end resource requirements through optimal smoothing", Proc. ACM SIGMETRICS, pp. 222-231, May 1996.
11 R. Rejaie, M. Handley, D. Estrin, "Layered quality adaptation for Internet video streaming", IEEE Journal of Selected Areas in Communications, vol. 18, no. 12, pp. 2530-2543, December 2000.   DOI   ScienceOn
12 M. Lee, J. Kwak, H. Song, D. Park, "An Efficient Transmission Rate Control Algorithm for MPEG VOD Service", Journal of KCIES, Vol 3, No 8, pp. 1027-1038, 2002.   과학기술학회마을
13 Y. Park, C. Park, "A Study on the Playback Controls in Uniform Quality Guarantee Streaming Video System", J. Ind. Sci., Cheongju Univ., vol. 30, no. 1, pp. 141-146, 2012.
14 D. Nguyen, J. Ostermann, "Congestion control for scalable video streaming using the scalability extension of H.264/AVC", IEEE Journal of Selected Topics in Signal Processing, vol. 1, no. 2, pp. 246-253, August 2007.   DOI   ScienceOn
15 Live Networks, Inc, LIVE555 Streaming Media, http://www.live555.com/liveMedia
16 B. Libaek, O. Kure, "Generic application level rate control for scalable video using shadow probing", Proc. of the International Conference on Systems and Networks Communications, pp. 131-137, Sep. 2009.
17 Y. Park, C. Park, "VBR to CBR algorithm for QoS Guarantee in Streaming Video System", Conf. KMMS, vol. 14, no. 1, pp. 107, 2011.
18 Y. Park, C. Park, "Design of Video CODEC for Maintain Uniform Quality in Streaming Video System", Conf. KMMS, vol. 15, no. 1, pp. 162, 2012.
19 A. Tirumala, F. Qin, J. Dugan, J. Ferguson, and K. Gibbs, Iperf-The TCP/UDP bandwidth measurement tool, http://iperf.fr, 2004.
20 VideoLan Organization, VLC media player SDK, http://www.videolan.org/developers
21 Y. Hashimoto, S. Sampei, and N. Morinaga, "Channel Monitor-Based Unequal Error Protection with Dynamic OFDM Subcarrier Assignment for Video Transmission", Vehicular Technology Conference, Proceedings. VTC 2002-Fall, pp. 913-917, September 2002.
22 K. Kanjanawanishkul, B. Uyyanonvara, "Fast Adaptive Algorithm for Time-Critical Color Quantization Application", Proc. VIIth Digital Image Computing: Techniques and Applications, pp. 781-791, December 2003.
23 Akram M. Zeki and Azizah A. Manaf, "A Novel Digital Watermarking Technique Based on ISB (Intermediate Significant Bit)", World Academy of Science, Engineering and Technology 50, 2009.
24 R Zhao, J Zhao, F Dai, F Zhao, "A new image secret sharing scheme to identify cheaters", Computer Standards & Interfaces Volume 31, Issue 1, pp. 252-257, January 2009.   DOI   ScienceOn
25 J. Lee, K. Han, "Multimedia Contents Streaming Service using the Section Information Retrieval on P2P Network", Journal of KMMS, vol. 10, no. 10, pp. 1328-1337, 2007.
26 Mohammad A. Talaat, Magdi A. Koutb, Hoda S. Sorour, "PSNR Evaluation for Media Traffic over TFRC", International Journal of Computer Networks and Communications, vol. 1, no. 3, pp. 71-76, October 2009.