Title :
An automatic assembly and completion framework for fragmented skulls
Author :
Yin, Zhao ; Wei, Li ; Manhein, Mary ; Li, Xin
Abstract :
We develop a completion pipeline for fragmented and damaged skulls. The goal of this work is to convert scanned incomplete skull fragments to a complete skull model for subsequent forensic or archeological tasks such as facial reconstruction. The proposed assembly and completion algorithms can also be used to repair other fragmented objects with inherent symmetry. A two-step assembly framework is proposed: (1) rough assembly by an ICP-like template matching algorithm integrated with the slippage features and spin-image descriptors; (2) assembly refinement by a global optimization on least square transformation error (LSTE) of break-curves. The assembled skull is finally repaired by a symmetry-based completion algorithm. Experiments on repairing scanned skull fragments demonstrate the efficacy and robustness of this framework.
Keywords :
computer vision; image matching; image reconstruction; least squares approximations; ICP-like template matching algorithm; assembly algorithm; assembly refinement; completion algorithm; computer vision; damaged skull; facial reconstruction; fragmented skull; global optimization; least square transformation error; slippage feature; spin-image descriptor; symmetry-based completion algorithm; Assembly; Feature extraction; Geometry; Maintenance engineering; Pipelines; Silicon; Skull;
Conference_Titel :
Computer Vision (ICCV), 2011 IEEE International Conference on
Conference_Location :
Barcelona
Print_ISBN :
978-1-4577-1101-5
DOI :
10.1109/ICCV.2011.6126540
