3D Face Recognition using Patch Geodesic Derivative Pattern
Authors
Abstract:
In this paper, a novel Patch Geodesic Derivative Pattern (PGDP) describing the texture map of a face through its shape data is proposed. Geodesic adjusted textures are encoded into derivative patterns for similarity measurement between two 3D images with different pose and expression variations. An extensive experimental investigation is conducted using the publicly available Bosphorus and BU-3DFE databases covering face recognition under pose and expression changes. The performance of the proposed method is compared with the performance of the state-of-the-art benchmark approaches. The encouraging experimental results demonstrate that the proposed method is a new solution for 3D face recognition in single model databases.
similar resources
3d face recognition using patch geodesic derivative pattern
in this paper, a novel patch geodesic derivative pattern (pgdp) describing the texture map of a face through its shape data is proposed. geodesic adjusted textures are encoded into derivative patterns for similarity measurement between two 3d images with different pose and expression variations. an extensive experimental investigation is conducted using the publicly available bosphorus and bu-3...
full text2.5D face recognition using Patch Geodesic Moments
In this paper, we propose a novel Patch Geodesic Distance (PGD) to transform the texture map of an object through its shape data for robust 2.5D object recognition. Local geodesic paths within patches and global geodesic paths for patches are combined in a coarse to fine hierarchical computation of PGD for each surface point to tackle the missing data problem in 2.5D images. Shape adjusted text...
full text3D Face Recognition using iso-Geodesic Surfaces
In this paper, we propose an original framework for description and matching of three dimensional faces for recognition. Basic traits of a face are encoded by extracting iso-geodesic stripes from the surface of a face model. A compact representation is constructed through a modeling technique capable to express the basic shape of iso-geodesic stripes and quantitatively measure their spatial rel...
full text3D Face Recognition using ICP and Geodesic Computation Coupled Approach
In this paper, we present a new face recognition approach based on dimensional surface matching. While most of existing methods use facial intensity images, a newest ones focus on introducing depth information to surmount some of classical face recognition problems such as pose, illumination, and facial expression variations. The presented matching algorithm is based first on ICP (Iterative Clo...
full textSelection and Extraction of Patch Descriptors for 3D Face Recognition
In 3D face recognition systems, 3D facial shape information plays an important role. 3D face recognizers usually depend on point cloud representation of faces where faces are represented as a set of 3D point coordinates. In many of the previous studies, faces are represented holistically and the discriminative contribution of local regions are assumed to be equivalent. In this work, we aim to d...
full text3D Face Recognition Using Geodesic Facial Curves to Handle Expression, Occlusion and Pose Variations
this paper illustrates the use of radial facial curves on 3D meshes to mode facial deformation caused by expression, occlusion and variation in poses and to recognize faces despite large expression, in presence of occlusion and pose variations. Here we represent facial surface by indexed collection of radial geodesic curves on 3D face meshes emanating from nose tip to the boundary of mesh and c...
full textMy Resources
Journal title
volume 02 issue 3
pages 127- 132
publication date 2013-06-01
By following a journal you will be notified via email when a new issue of this journal is published.
Keywords
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023