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ICIP
2004
IEEE
2004
IEEE
Rate-distortion bounds for motion compensated rate scalable video coders
In this paper, we derive and evaluate theoretical ratedistortion performance bounds for scalable video compression algorithms which use a single motion-compensated prediction (MCP) loop. These bounds are derived using rate-distortion theory based on an optimum mean-square error (MSE) quantizer. By specifying translatory motion and using an approximation of the predicted error frame power spectral density, it is possible to derive parametric versions of the rate-distortion functions which are based solely on the input power spectral density and the accuracy of the motion-compensated prediction. The theory is applicable to systems which allow prediction drift, such as the SNR-scalability in MPEG-2, as well as those with zero prediction drift such as the MPEG-4 fine grained scalable standard.
Real-time TrafficError Frame Power | ICIP 2004 | Image Processing | Power Spectral Density | Prediction Drift | Rate-distortion Theory | Single Motion-compensated Prediction |
Related Content
| Added | 24 Oct 2009 |
| Updated | 24 Oct 2009 |
| Type | Conference |
| Year | 2004 |
| Where | ICIP |
| Authors | Gregory W. Cook, Josep Prades-Nebot, Edward J. Delp |
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