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Video classification for video quality prediction 被引量:1

Video classification for video quality prediction
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摘要 In this paper we propose a novel method for video quality prediction using video classification. In essence, our ap- proach can serve two goals: (1) To measure the video quality of compressed video sequences without referencing to the original uncompressed videos, i.e., to realize No-Reference (NR) video quality evaluation; (2) To predict quality scores for uncompressed video sequences at various bitrates without actually encoding them. The use of our approach can help realize video streaming with ideal Quality of Service (QoS). Our approach is a low complexity solution, which is specially suitable for application to mobile video streaming where the resources at the handsets are scarce. In this paper we propose a novel method for video quality prediction using video classification. In essence, our ap- proach can serve two goals: (1) To measure the video quality of compressed video sequences without referencing to the original uncompressed videos, i.e., to realize No-Reference (NR) video quality evaluation; (2) To predict quality scores for uncompressed video sequences at various bitrates without actually encoding them. The use of our approach can help realize video streaming with ideal Quality of Service (QoS). Our approach is a low complexity solution, which is specially suitable for application to mobile video streaming where the resources at the handsets are scarce.
作者 KURCEREN Ragip BUDHIA Udit
机构地区 Multimedia Technologies Laboratory Mobilygen Corporation
出处 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2006年第5期919-926,共8页 浙江大学学报(英文版)A辑(应用物理与工程)
关键词 VIDEO classification VIDEO quality NO-REFERENCE (NR) QUALITY of Service (QoS) VIDEO STREAMING Video classification, Video quality, No-Reference (NR), Quality of Service (QoS), Video streaming
分类号 TP391.41 [自动化与计算机技术—计算机应用技术]
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参考文献8

  • 1[1]Cheng,H.,Lubin,J.,2005.Reference-Free Objective Quality Metrics for MPEG Coded Video.Proceedings of SPIE International Conference on Human Vision and Electronic Imaging X,5666:160-167.
  • 2[2]ITU-T H.264,2003.Advanced Video Coding for Generic Audiovisual Services.
  • 3[3]Patent Application No.09/431,160,1999.In-service Video Quality Measurement System Using an Arbitrary Bandwidth Ancillary Data Channel.Http://www.its.bldrdoc.gov/n3/video/vqmdownload_US.btm.
  • 4[4]Patent Number 5,446,492,1995.A Perception-based Video Quality Measurement System.
  • 5[5]Patent Number 5,596,364,1997.Perception-based Audiovisual Synchronization Measurement System.
  • 6[6]Tan,S.H.,Pang,K.K.,Ngan,K.N.,1996.Classified perceptual coding with adaptive quantization.IEEE Trans.on Circuits and Systems for Video Technology,6(4):375-388.[doi:10.1109/76.510930]
  • 7[7]Wang,Z.,Sheikh,H.R.,Bovik,A.C.,2003.Objective video quality assessment.In:Furht,B.,Marqure,O.(Eds.),The Handbook of Video Databases:Design and Applications.CRC Press,p.1041-1078.Available from http://www.cns.nyu.edu/~zwang/files/publications.html.
  • 8[8]Zhang,Q.,Zhu,W.W.,Zhang,Y.Q.,2005.End-to-end QoS for video delivery over wireless Internet.Proceedings of the IEEE,93(1):123-134.[doi:10.1109/JPROC.2004.839603]

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Journal of Zhejiang University-Science A(Applied Physics & Engineering)
2006年 第5期

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