Active appearance models (AAMs) are generative parametric models commonly used to track faces in video sequences. A limitation of AAMs is they are not robust to occlusion. A recent extension reformulated the search as an iteratively re-weighted least-squares problem. In this paper we focus on the choice of error function for use in a robust AAM search. We evaluate eight error functions using two performance metrics: accuracy of occlusion detection and fitting robustness. We show for any reasonable error function the performance in terms of occlusion detection is the same. However, this does not mean that fitting performance is the same. We describe experiments for measuring fitting robustness for images containing real occlusion. The best a...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
The Active Appearance Model (AAM) algorithm has proved to be a successful method for matching stati...
We describe a very simple framework for deriving the most-well known optimization problems in Active...
We demonstrate a fast, robust method of interpreting face images using an Active Appearance Model (A...
An Active Appearance Model (AAM) allows complex models of shape and appearance to be matched to new ...
This paper proposes an active contour-based active appearance model (AAM) that is robust to a clutte...
Active appearance models (AAMs) are widely used to fit statistical models of shape and appearance to...
Active Shape Model (ASM) has proved to be a powerful tool for interpreting face images. However, it ...
Fitting algorithms for Active Appearance Models (AAMs) are usually considered to be robust but slow ...
Facial expression recognition consists of determining what kind of emotional content is presented in...
Abstract: The deterministic active appearance model (AAM) tracker fails to track objects under occlu...
Active Shape Model (ASM) has proved to be a powerful tool for interpreting face images. However, it ...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
The Active Appearance Model (AAM) algorithm has proved to be a successful method for matching stati...
We describe a very simple framework for deriving the most-well known optimization problems in Active...
We demonstrate a fast, robust method of interpreting face images using an Active Appearance Model (A...
An Active Appearance Model (AAM) allows complex models of shape and appearance to be matched to new ...
This paper proposes an active contour-based active appearance model (AAM) that is robust to a clutte...
Active appearance models (AAMs) are widely used to fit statistical models of shape and appearance to...
Active Shape Model (ASM) has proved to be a powerful tool for interpreting face images. However, it ...
Fitting algorithms for Active Appearance Models (AAMs) are usually considered to be robust but slow ...
Facial expression recognition consists of determining what kind of emotional content is presented in...
Abstract: The deterministic active appearance model (AAM) tracker fails to track objects under occlu...
Active Shape Model (ASM) has proved to be a powerful tool for interpreting face images. However, it ...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
Active Appearance Models (AAMs) are generative models of shape and appearance that have proven very ...
Active Appearance Models (AAMs) are statistical models of shape and appearance widely used in comput...
The Active Appearance Model (AAM) algorithm has proved to be a successful method for matching stati...
We describe a very simple framework for deriving the most-well known optimization problems in Active...