Amodal volume completion: 3D visual completion
Computer Vision and Image Understanding
ACM SIGGRAPH 2007 papers
A Sharpness-Dependent Filter for Recovering Sharp Features in Repaired 3D Mesh Models
IEEE Transactions on Visualization and Computer Graphics
Fixing geometric errors on polygonal models: a survey
Journal of Computer Science and Technology
Amodal volume completion: 3D visual completion
Computer Vision and Image Understanding
Plausible 3d colour surface completion using non-parametric techniques
IMA'05 Proceedings of the 11th IMA international conference on Mathematics of Surfaces
Polygon mesh repairing: An application perspective
ACM Computing Surveys (CSUR)
Context-based coherent surface completion
ACM Transactions on Graphics (TOG)
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We consider the completion of the hidden or missing portions of 3D objects after the visible portions have been acquired with 2陆D (or 3D) range capture. Our approach uses a combination of global surface fitting, to derive the underlying geometric surface completion, together with an extension, from 2D to 3D, of non-parametric texture synthesis in order to complete localised surface texture relief and structure. Through this combination and adaptation of existing completion techniques we are able to achieve realistic, plausible completion of 2陆D range captures.