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Power saving control for the mobile DVB-H receivers based on H.264/SVC standard
Eugeny Belyaev, Vitaly Grinko, Ann Ukhanova
Saint-Petersburg State University of Aerospace Instrumentation
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Agenda
Description of the power saving in DVB-H standard
Scalable extension of the H.264/AVC standard (SVC)
Proposed scheme of power consumption control
Simulation results and conclusions
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Minimizing of power consumption in DVB-H receiver1
1ETSI TR 102 377 V1.1.1 (2005-02): Digital Video Broadcasting (DVB); DVB-HImplementation Guidelines, European Telecommunication Standards Institute
The main idea - receiver works for a short time interval, during it the part of the video data is received, then the receiver powers off completely
Power saving is a function of constant and burst bitrates, burst size, synchronization time and delta-t jitter
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For DVB-H single layer coding system all the parameters in the formula are defined values and the level of power saving can not be influenced on receiver
Case 1: User can not choose the level of power consumption by himself
Case 2: With scalable codec we can change parameter Cb on the receiver side and change level of power consumption
DVB-H power saving based on single layer video compression
31 0.96 100%
4b b
s t jb s
C CP S D
B B
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Scalable video coding extension H.264/AVC2 standard
2Advanced video coding for generic audiovisual services. ITU-T Recommendation H.264 and ISO/IEC 14496-10 (AVC), 2009.
Various ways of forming scalable video stream:
•Temporal scalability •Spatial scalability •SNR scalability•Combined scalability
Scalable stream means that receiver can playback video data by receiving only the part of the video stream
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Temporal scalability
The concept of hierarchically encoded B-frames
Each temporal layer is marked by an additional identifier T. T is equal to 0 for frame of the temporal base layer and is increased by 1 from one temporal
layer to the next. Each layer has its own frame rate.
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Spatial scalability3
3H. Schwarz, D. Marpe, and T. Wiegand, “Overview of the Scalable Video Coding Extension of the H.264 / AVC Standard“, IEEE Trans. on Circuits and Systems for Video Technology, vol. 17, 2007
The dependency identifier D for the base layer is equal to 0, and it is increased by 1 from one spatial layer to the next.
Each layer has its own frame resolution.
D=0
D=1
0 1 2 3 4
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SNR scalability4
4H. Schwarz, M.Wien, “The Scalable Video Coding Extension of the H.264/AVCStandard“ IEEE Signal Processing Magazine, vol. 25, Is. 2, pp. 135-141, 2008.
Q=0 Q=1 Q=2
Test sequence: foreman
The quality identifier Q for the base layer is equal to 0, and it is increased by 1 from one quality layer to the next.
Each layer has its own SNR.
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Combined scalability5
5 P. Amon, T. Rathgen, and D. Singer, “File Format for Scalable Video Coding“, IEEETransactions on Circuits and Systems for Video Technology, vol. 17, No. 9, pp.1174-1185, 2007.
Note: to extract the stream with the required parameters all other layers with less values of the identifiers should have been already extracted
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Proposed scheme of power consumption control
Receiver is choosing the necessary (D,T,Q) identifiers. These parameters define the necessary video bit rate Cb.
Depending on the priorities it is possible to choose receiving modes with high level of power saving (modes a and b) or receiving modes with high level of visual quality (modes c and d).
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Simulation results6
6 Joint Scalable Video Model 9.15 software package, CVS server for the JSVM software. http://iphome.hhi.de/
Power saving and quality trade-off
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Conclusion
Scalable coding open new opportunities for the system like DVB-H
User can choose trade-off between power consumption and the visual quality of the received video: frame rate SNR frame resolution
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Questions?
Thank you!