2007
DOI: 10.1109/tpami.2007.1017
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Three-Dimensional Face Recognition in the Presence of Facial Expressions: An Annotated Deformable Model Approach

Abstract: Abstract-In this paper, we present the computational tools and a hardware prototype for 3D face recognition. Full automation is provided through the use of advanced multistage alignment algorithms, resilience to facial expressions by employing a deformable model framework, and invariance to 3D capture devices through suitable preprocessing steps. In addition, scalability in both time and space is achieved by converting 3D facial scans into compact metadata. We present our results on the largest known, and now … Show more

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Cited by 416 publications
(278 citation statements)
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References 33 publications
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“…First, the absence of a consistent parameterization among face meshes or point clouds makes it impossible to directly obtain registered features with a uniform sampling pattern; this prevents appearance-based methods or the sparse representation framework from being applied. More importantly, facial expressions can cause severe global geometry variations, resulting in degraded recognition performance [3,17] or heavy computational load [4,12].…”
Section: Introductionmentioning
confidence: 99%
“…First, the absence of a consistent parameterization among face meshes or point clouds makes it impossible to directly obtain registered features with a uniform sampling pattern; this prevents appearance-based methods or the sparse representation framework from being applied. More importantly, facial expressions can cause severe global geometry variations, resulting in degraded recognition performance [3,17] or heavy computational load [4,12].…”
Section: Introductionmentioning
confidence: 99%
“…Besides, this cannot be applied to 2D images, so it is not possible to work with existent databases. Some papers using this approach are [3] and [5].…”
Section: Using 3d Models For Face Recognitionmentioning
confidence: 99%
“…Faltemier et al 10 proposed a method for curvature and shape index based nose tip detection to localize the position of the nose tip and then align the whole input image to a template using the ICP algorithm. Kakadiaris et al 16 implemented a multistage alignment method including three algorithmic steps: Spin-images based alignment, ICP-based alignment and Simulated Annealing on Z-Buffers alignment. However, both of these approaches used the whole face area during their alignments.…”
Section: Approaches Of 3d Face Registration/alignmentmentioning
confidence: 99%