International Journal of Computer Vision
What Do Features Tell about Images?
Scale-Space '01 Proceedings of the Third International Conference on Scale-Space and Morphology in Computer Vision
A Linear Image Reconstruction Framework Based on Sobolev Type Inner Products
International Journal of Computer Vision
α scale spaces on a bounded domain
Scale Space'03 Proceedings of the 4th international conference on Scale space methods in computer vision
Self-Similarity: Part I—Splines and Operators
IEEE Transactions on Signal Processing
Generalized sampling: a variational approach .I. Theory
IEEE Transactions on Signal Processing
IEEE Transactions on Information Theory
SSVM '09 Proceedings of the Second International Conference on Scale Space and Variational Methods in Computer Vision
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The reconstruction problem is usually formulated as a variational problem in which one searches for that image that minimizes a so called prior (image model) while insisting on certain image features to be preserved. When the prior can be described by a norm induced by some inner product on a Hilbert space the exact solution to the variational problem can be found by orthogonal projection. In previous work we considered the image as compactly supported in L2(R2) and we used Sobolev norms on the unbounded domain including a smoothing parameter γ 0 to tune the smoothness of the reconstruction image. Due to the assumption of compact support of the original image components of the reconstruction image near the image boundary are too much penalized. Therefore we minimize Sobolev norms only on the actual image domain, yielding much better reconstructions (especially for γ ≫ 0). As an example we apply our method to the reconstruction of singular points that are present in the scale space representation of an image.