10,569 research outputs found
Automatic 3D facial expression recognition using geometric and textured feature fusion
3D facial expression recognition has gained more and more interests from affective computing society due to issues such as pose variations and illumination changes caused by 2D imaging having been eliminated. There are many applications that can benefit from this research, such as medical applications involving the detection of pain and psychological effects in patients, in human-computer interaction tasks that intelligent systems use in today's world. In this paper, we look into 3D Facial Expression Recognition, by investigating many feature extraction methods used on the 2D textured images and 3D geometric data, fusing the 2 domains to increase the overall performance. A One Vs All Multi-class SVM Classifier has been adopted to recognize the expressions Angry, Disgust, Fear, Happy, Neutral, Sad and Surprise from the BU-3DFE and Bosphorus databases. The proposed approach displays an increase in performance when the features are fused together
In-the-wild Facial Expression Recognition in Extreme Poses
In the computer research area, facial expression recognition is a hot
research problem. Recent years, the research has moved from the lab environment
to in-the-wild circumstances. It is challenging, especially under extreme
poses. But current expression detection systems are trying to avoid the pose
effects and gain the general applicable ability. In this work, we solve the
problem in the opposite approach. We consider the head poses and detect the
expressions within special head poses. Our work includes two parts: detect the
head pose and group it into one pre-defined head pose class; do facial
expression recognize within each pose class. Our experiments show that the
recognition results with pose class grouping are much better than that of
direct recognition without considering poses. We combine the hand-crafted
features, SIFT, LBP and geometric feature, with deep learning feature as the
representation of the expressions. The handcrafted features are added into the
deep learning framework along with the high level deep learning features. As a
comparison, we implement SVM and random forest to as the prediction models. To
train and test our methodology, we labeled the face dataset with 6 basic
expressions.Comment: Published on ICGIP201
Geometric Expression Invariant 3D Face Recognition using Statistical Discriminant Models
Currently there is no complete face recognition system that is invariant to all facial expressions.
Although humans find it easy to identify and recognise faces regardless of changes in illumination,
pose and expression, producing a computer system with a similar capability has proved to
be particularly di cult. Three dimensional face models are geometric in nature and therefore
have the advantage of being invariant to head pose and lighting. However they are still susceptible
to facial expressions. This can be seen in the decrease in the recognition results using
principal component analysis when expressions are added to a data set.
In order to achieve expression-invariant face recognition systems, we have employed a tensor
algebra framework to represent 3D face data with facial expressions in a parsimonious
space. Face variation factors are organised in particular subject and facial expression modes.
We manipulate this using single value decomposition on sub-tensors representing one variation
mode. This framework possesses the ability to deal with the shortcomings of PCA in less constrained
environments and still preserves the integrity of the 3D data. The results show improved
recognition rates for faces and facial expressions, even recognising high intensity expressions
that are not in the training datasets.
We have determined, experimentally, a set of anatomical landmarks that best describe facial
expression e ectively. We found that the best placement of landmarks to distinguish di erent
facial expressions are in areas around the prominent features, such as the cheeks and eyebrows.
Recognition results using landmark-based face recognition could be improved with better placement.
We looked into the possibility of achieving expression-invariant face recognition by reconstructing
and manipulating realistic facial expressions. We proposed a tensor-based statistical
discriminant analysis method to reconstruct facial expressions and in particular to neutralise
facial expressions. The results of the synthesised facial expressions are visually more realistic
than facial expressions generated using conventional active shape modelling (ASM). We
then used reconstructed neutral faces in the sub-tensor framework for recognition purposes.
The recognition results showed slight improvement. Besides biometric recognition, this novel
tensor-based synthesis approach could be used in computer games and real-time animation
applications
Automatic landmark annotation and dense correspondence registration for 3D human facial images
Dense surface registration of three-dimensional (3D) human facial images
holds great potential for studies of human trait diversity, disease genetics,
and forensics. Non-rigid registration is particularly useful for establishing
dense anatomical correspondences between faces. Here we describe a novel
non-rigid registration method for fully automatic 3D facial image mapping. This
method comprises two steps: first, seventeen facial landmarks are automatically
annotated, mainly via PCA-based feature recognition following 3D-to-2D data
transformation. Second, an efficient thin-plate spline (TPS) protocol is used
to establish the dense anatomical correspondence between facial images, under
the guidance of the predefined landmarks. We demonstrate that this method is
robust and highly accurate, even for different ethnicities. The average face is
calculated for individuals of Han Chinese and Uyghur origins. While fully
automatic and computationally efficient, this method enables high-throughput
analysis of human facial feature variation.Comment: 33 pages, 6 figures, 1 tabl
Neural 3D Morphable Models: Spiral Convolutional Networks for 3D Shape Representation Learning and Generation
Generative models for 3D geometric data arise in many important applications
in 3D computer vision and graphics. In this paper, we focus on 3D deformable
shapes that share a common topological structure, such as human faces and
bodies. Morphable Models and their variants, despite their linear formulation,
have been widely used for shape representation, while most of the recently
proposed nonlinear approaches resort to intermediate representations, such as
3D voxel grids or 2D views. In this work, we introduce a novel graph
convolutional operator, acting directly on the 3D mesh, that explicitly models
the inductive bias of the fixed underlying graph. This is achieved by enforcing
consistent local orderings of the vertices of the graph, through the spiral
operator, thus breaking the permutation invariance property that is adopted by
all the prior work on Graph Neural Networks. Our operator comes by construction
with desirable properties (anisotropic, topology-aware, lightweight,
easy-to-optimise), and by using it as a building block for traditional deep
generative architectures, we demonstrate state-of-the-art results on a variety
of 3D shape datasets compared to the linear Morphable Model and other graph
convolutional operators.Comment: to appear at ICCV 201
2D Face Recognition System Based on Selected Gabor Filters and Linear Discriminant Analysis LDA
We present a new approach for face recognition system. The method is based on
2D face image features using subset of non-correlated and Orthogonal Gabor
Filters instead of using the whole Gabor Filter Bank, then compressing the
output feature vector using Linear Discriminant Analysis (LDA). The face image
has been enhanced using multi stage image processing technique to normalize it
and compensate for illumination variation. Experimental results show that the
proposed system is effective for both dimension reduction and good recognition
performance when compared to the complete Gabor filter bank. The system has
been tested using CASIA, ORL and Cropped YaleB 2D face images Databases and
achieved average recognition rate of 98.9 %
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