Analysis of a variational model for motion compensated inpainting
DOI10.3934/ipi.2017046zbMath1376.49018OpenAlexW2758325863MaRDI QIDQ2408416
Publication date: 12 October 2017
Published in: Inverse Problems and Imaging (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3934/ipi.2017046
calculus of variationsoptical flow estimationfunctions of bounded variationsvideo inpaintingfunctional relaxation
Variational problems in a geometric measure-theoretic setting (49Q20) Methods involving semicontinuity and convergence; relaxation (49J45) Absolutely continuous real functions of several variables, functions of bounded variation (26B30) Machine vision and scene understanding (68T45)
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Cites Work
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- Fonctions à hessien borné
- Properties of \(L^{1}-TGV^{2}\) : The one-dimensional case
- Variational problems in SBV and image segmentation
- Comparison results for some types of relaxation of variational integral functionals
- Weak convergence of completely additive vector functions on a set
- Sublinear functions of measures and variational integrals
- Determining optical flow
- A BV functional and its relaxation for joint motion estimation and image sequence recovery
- Compact embeddings of broken Sobolev spaces and applications
- Weakly Differentiable Functions
- A Mathematical Study of the Relaxed Optical Flow Problem in the Space $BV (\Omega)$
- Computing Optical Flow via Variational Techniques
- Deinterlacing Using Variational Methods
- Video Super-Resolution Using Simultaneous Motion and Intensity Calculations
- Computer Vision - ECCV 2004
- Total Generalized Variation
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