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TIP
2010
2010
Optimizing Motion Compensated Prediction for Error Resilient Video Coding
—This paper is concerned with optimization of the motion compensated prediction framework to improve the error resilience of video coding for transmission over lossy networks. First, accurate end-to-end distortion estimation is employed to optimize both motion estimation and prediction within an overall rate-distortion framework. Low complexity practical variants are proposed: a method to approximate the optimal motion via simple distortion and source coding rate models, and a source-channel prediction method that uses the expected decoder reference frame for prediction. Second, reference frame generation is revisited as a problem of filter design to optimize the error resilience versus coding efficiency tradeoff. The special cases of leaky prediction and weighted prediction (i.e., finite impulse response filtering), are analyzed. A novel reference frame generation approach, called “generalized source-channel prediction”, is proposed, which involves infinite impulse response...
Real-time Traffic| Added | 31 Jan 2011 |
| Updated | 31 Jan 2011 |
| Type | Journal |
| Year | 2010 |
| Where | TIP |
| Authors | Hua Yang, Kenneth Rose |
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