Active Appearance Models (AAMs) are one of the most popular and well-established techniques for modeling deformable objects in computer vision. In this paper, we study the problem of fitting AAMs using Compositional Gradient Descent (CGD) algorithms. We present a unified and complete view of these algorithms and classify them with respect to three main characteristics: i) cost function; ii) type of composition; and iii) optimization method. Furthermore, we extend the previous view by: a) proposing a novel Bayesian cost function that can be interpreted as a general probabilistic formulation of the well-known project-out loss; b) introducing two new types of composition, asymmetric and bidirectional, that combine the gradients of both image a...
We describe a very simple framework for deriving the most-well known optimization problems in Active...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
generative models of facial shape and appearance, which extend the well-known paradigm of Active App...
This thesis presents a detailed and complete study of compositional gradient descent (CGD) algorithm...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
Fitting algorithms for Active Appearance Models (AAMs) are usually considered to be robust but slow ...
Finding landmarks on objects like faces is a challenging computer vision problem, especially in real...
Parametric models of shape and texture such as Ac-tive Appearance Models (AAMs) are diverse tools fo...
The proposed Active Orientation Models (AOMs) are generative models of facial shape and appearance. ...
Active Appearance Models (AAMs) and the closely related concepts of Morphable Models and Active Blob...
Finding landmarks on objects like faces is a challenging computer vision problem, especially in real...
We propose the combination of dense Histogram of Oriented Gradients (HOG) features with Active Appea...
We propose the combination of dense Histogram of Oriented Gradients (HOG) features with Active Appea...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
We present Active Orientation Models (AOMs), generative models of facial shape and appearance, which...
We describe a very simple framework for deriving the most-well known optimization problems in Active...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
generative models of facial shape and appearance, which extend the well-known paradigm of Active App...
This thesis presents a detailed and complete study of compositional gradient descent (CGD) algorithm...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
Fitting algorithms for Active Appearance Models (AAMs) are usually considered to be robust but slow ...
Finding landmarks on objects like faces is a challenging computer vision problem, especially in real...
Parametric models of shape and texture such as Ac-tive Appearance Models (AAMs) are diverse tools fo...
The proposed Active Orientation Models (AOMs) are generative models of facial shape and appearance. ...
Active Appearance Models (AAMs) and the closely related concepts of Morphable Models and Active Blob...
Finding landmarks on objects like faces is a challenging computer vision problem, especially in real...
We propose the combination of dense Histogram of Oriented Gradients (HOG) features with Active Appea...
We propose the combination of dense Histogram of Oriented Gradients (HOG) features with Active Appea...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
We present Active Orientation Models (AOMs), generative models of facial shape and appearance, which...
We describe a very simple framework for deriving the most-well known optimization problems in Active...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
generative models of facial shape and appearance, which extend the well-known paradigm of Active App...