Abstract
Multi-hypothesis motion-compensated prediction extends traditional motion-compensated prediction used in video coding schemes. Known algorithms for block-based multi-hypothesis motion-compensated prediction are, for example, overlapped block motion compensation (OBMC) and bidirectionally predicted frames (B-frames). This paper presents a generalization of these algorithms in a rate-distortion framework. All blocks which are available for prediction are called hypotheses. Further, we explicitly distinguish between the search space and the superposition of hypotheses. Hypotheses are selected from a search space and their spatio-temporal positions are transmitted by means of spatio-temporal displacement codewords. Constant predictor coefficients are used to combine linearly hypotheses of a multi-hypothesis. The presented design algorithm provides an estimation criterion for optimal multi-hypotheses, a rule for optimal displacement codes, and a condition for optimal predictor coefficients. Statistically dependent hypotheses of a multi-hypothesis are determined by an iterative algorithm. Experimental results show that Increasing the number of hypotheses from 1 to 8 provides prediction gains up to 3 dB in prediction error.
Keywords
AlgorithmSuperposition principleMotion estimationMathematicsBlock (permutation group theory)GeneralizationCoding (social sciences)Rate–distortion theoryDistortion (music)Displacement (psychology)Motion (physics)Statistical hypothesis testingComputer scienceArtificial intelligenceData compressionStatisticsBandwidth (computing)
Affiliated Institutions
Related Publications
Motion-Compensated Television Coding: Part I
We present methods of estimating displacements of moving objects from one frame to the next in a television scene and using such displacements for frame-to-frame prediction. Dis...
Atomic Decomposition by Basis Pursuit
The time-frequency and time-scale communities have recently developed a large number of overcomplete waveform dictionaries --- stationary wavelets, wavelet packets, cosine packe...
Fast model-based estimation of ancestry in unrelated individuals
Population stratification has long been recognized as a confounding factor in genetic association studies. Estimated ancestries, derived from multi-locus genotype data, can be u...
Finite-Dimensional Approximation of Gaussian Processes
Gaussian process (GP) prediction suffers from O(n3) scaling with the data set size n. By using a finite-dimensional basis to approximate the GP predictor, the computational comp...
Multiple Hypotheses Testing with Weights
In this paper we offer a multiplicity of approaches and procedures for multiple testing problems with weights. Some rationale for incorporating weights in multiple hypotheses te...
Publication Info
- Year
- 2002
- Type
- article
- Pages
- 239-248
- Citations
- 59
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
59
OpenAlex
Cite This
Markus Flierl,
Thomas Wiegand,
Bernd Girod
(2002).
A locally optimal design algorithm for block-based multi-hypothesis motion-compensated prediction.
, 239-248.
https://doi.org/10.1109/dcc.1998.672152
Identifiers
- DOI
- 10.1109/dcc.1998.672152