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Concealment of Whole-Picture Loss in Hierarchical B-Picture Scalable Video Coding IEEE TRANSACTIONS ON MULTIMEDIA, VOL. 11, NO. 1, JANUARY 2009 Xiangyang.

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Presentation on theme: "Concealment of Whole-Picture Loss in Hierarchical B-Picture Scalable Video Coding IEEE TRANSACTIONS ON MULTIMEDIA, VOL. 11, NO. 1, JANUARY 2009 Xiangyang."— Presentation transcript:

1 Concealment of Whole-Picture Loss in Hierarchical B-Picture Scalable Video Coding IEEE TRANSACTIONS ON MULTIMEDIA, VOL. 11, NO. 1, JANUARY 2009 Xiangyang Ji, Debin Zhao, and Wen Gao 1

2 Outline ﻪIntroduction ﻪProposed Error Concealment Strategy ﻪExperimental Results ﻪConclusion 2

3 Introduction ﻪError concealment(EC) algorithm ﻩa post-processing tool at decoder ﻩconceal the erroneous region due to transmission errors according to the correctly received information. ﻪTemporal error concealment is one of the most important approaches to combat transmission errors. ﻩtemporal replacement (TR) [3]: each damaged macroblock is directly replaced by the co-located one in the temporally previous picture with zero motion. 3 [3] J. W. Suh and Y. S. Hu, “Error concealment based on directional interpolation,” IEEE Trans. Consumer Electron., vol. 43, no. 3, pp. 295–302, Aug. 1997.

4 Introduction ﻪTR can be improved by a boundary matching algorithm (BMA) [4]. ﻩ a suitable motion vector for a damage MB can be selected from the candidates based on side match distortion measure. ﻪThis paper not apply BMA due to the high computational estimation. 4 [4] W. M. Lam, A. R. Reibman, and B. Liu, “Recovery of lost or erroneously received motion vectors,” in Proc. IEEE Int. Conf. Acoustics, Speech, and Signal Process., Apr. 1993, vol. 5, pp. 417–420.

5 Introduction ﻪTo conceal the damaged MB, its neighboring MBs need to be correctly received. ﻩsplit the current MB and its neighboring MBs into different slices. ﻩone slice data typically fits one packet. ﻩFlexible Macroblock Ordering (FMO) ﻪBut, FMO is only supported for Baseline and Extended Profiles NOT for Main Profile and High Profile in H.264/AVC and SVC. 5

6 Purpose ﻪTackle the whole-picture loss problem. ﻪThe advantage of the temporal relationship can be taken when hierarchical B-picture coding is used to support temporal scalability. 6

7 Proposed Strategy ﻪTake the temporal relationship among the adjacent video pictures into account. ﻪThe motion information of the lost picture is derived simply and efficiently based on the principle of temporal direct mode (TDM). 7

8 Proposed Strategy ﻪThe MV of the damaged MB can be derived from the MVs of the co-located MBs. ﻩtemporally neighboring left and/or right B-pictures at next higher temporal level. ﻪThis method could also be used to conceal lost key picture as a P-picture. 8

9 Outline ﻪIntroduction ﻪProposed Error Concealment Strategy ﻩHierarchical B-Picture Coding ﻩMotion Parameters Recovery Based on the Enhanced TDM (ETDM_EC) ﻩFurther Improvement on Motion Parameters Recovery (WTDM_EC) ﻪExperimental Results ﻪConclusion 9

10 Hierarchical B-Picture Coding 10

11 B-Picture Prediction (1/2) ﻪA B-picture allows two prediction blocks from List 0 and List 1 reference buffers which contain an arbitrary set of reference pictures in forward and/or backward directions [16]. ﻪAt encoder, its motion-compensated prediction signal can be obtained by 11 [16] A. M. Tourapis, F.Wu, and S. Li, “Direct mode coding for bipredictive slices in the H.264 standard,” IEEE Trans. Circuits Syst. Video Technol., vol. 15, no. 1, pp. 119–126, Jan. 2005.

12 B-Picture Prediction (2/2) ﻪAt decoder, for a block S in the lost picture, which is concealed as a B-picture, its prediction signal can be achieved by 12

13 Motion Parameters Recovery Based on the Enhanced TDM (ETDM_EC) ﻪIn the case of the whole-picture loss, the motion vectors of each block have to be recovered based on the temporal motion correlation. ﻪAssume motion among the adjacent pictures is translational, the motion vector of the block in the lost B- picture can be estimated based on Temporal Direct Mode (TDM), as proposed in [17]. 13 [17] Y. Chen, J. Boyce, and K. Xie, “Frame loss error concealment for SVC,” Joint Video Team(JVT), Doc. JVT-Q046, Oct. 2005.

14 Temporal Direct Mode (TDM) (1/2) ﻪ of the co-located block in point to the temporally most recent List 0 picture. 14 (4)

15 Temporal Direct Mode (TDM) (2/2) ﻪ of the co-located block in does not point to the temporally most recent List 0 picture. 15 (5)

16 TDM- Cases ﻪIf the picture pointed by or of the co-located block in the corresponding or picture, can not be accessed. 16 (5)(4)

17 Enhanced TDM Error Concealment 17

18 Further Improvement on Motion Parameters Recovery (WTDM_EC) ﻪFor a lost B-picture which is not at the highest temporal level. ﻩthe temporal motion relationship tends to considerably weaken as the temporal distances become longer. ﻪIf the key picture is lost and recovered as a P-picture, the motion vectors of its block usually can not be derived based on TDM. 18

19 Further Improvement on Motion Parameters Recovery (WTDM_EC) 19

20 Further Improvement on Motion Parameters Recovery (WTDM_EC) 20 (6) (7)

21 Further Improvement on Motion Parameters Recovery (WTDM_EC) 21

22 Outline ﻪIntroduction ﻪProposed Error Concealment Strategy ﻪExperimental Results ﻪConclusion 22

23 Experimental Parameters ﻪH.264/AVC SVC reference software: JSVM_8_6. ﻪTest sequences: Mobile, Stefan, Foreman, Bus, Tempete and Coastguard. ﻪGroup of Pictures: 16. ﻪFrame rate: 30 Hz. ﻪFrame size: 352 X 288 CIF. ﻪI-picture is inserted for every 32 pictures. ﻪQuantization parameters for highest temporal level are composed of 28, 32, 36 and 40. ﻪFour packet loss patterns with average packet loss rates of 3%, 5%, 10%, and 20% 23

24 Rate Distortion Curves (1/2) 24

25 Rate Distortion Curves (2/2) 25

26 Quality Gain of Proposed Strategy 26

27 Mobile (1/5) ﻪ195 th frame, temporal level 4 27 Anchor_EC Proposed Strategy Correct

28 Mobile (2/5) ﻪ230 th frame, temporal level 3 28 Anchor_EC WTDM_EC Correct ETDM_EC

29 Mobile (3/5) ﻪ156 th frame, temporal level 2 29 Anchor_EC WTDM_EC Correct ETDM_EC

30 Mobile (4/5) ﻪ104 th frame, temporal level 1 30 WTDM_EC Correct Anchor_EC & ETDM_EC

31 Mobile (5/5) ﻪ256 th key frame 31 WTDM_EC Correct Anchor_EC & ETDM_EC

32 Outline ﻪIntroduction ﻪProposed Error Concealment Strategy ﻪExperimental Results ﻪConclusion 32

33 Conclusion ﻪThe proposed algorithm derive the motion vector of the damaged block in the lost picture by utilizing the motion information in the temporally neighboring. ﻪThe proposed method also can be easily extended to the slice loss case with the error resilient tool like FMO. ﻪThe further improvement on motion parameters recovery perhaps introduce an extra delay for video decoding within one GOP. 33

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