The statistical analysis of large corpora of human body scans requires that these scans be in alignment, either for a small set of key landmarks or densely for all the vertices in the scan. Existing techniques tend to rely on hand-placed landmarks or algorithms that extract landmarks from scans. The former is time consuming and subjective while the latter is error prone. Here we show that a model-based approach can align meshes automatically, producing alignment accuracy similar to that of previous methods that rely on many landmarks. Specifically, we align a low-resolution, artist-created template body mesh to many high-resolution laser scans. Our alignment procedure employs a robust iterative closest point method with a regularization tha...
New scanning technologies are increasing the importance of 3D mesh data and the need for algorithms ...
We present an algorithm for the automatic alignment of two 3D shapes (data and model), without any a...
The complexity of natural scenes and the amount of information acquired by terrestrial laser scanner...
The statistical analysis of large corpora of human body scans requires that these scans be in alignm...
Human body scanners generate meshes, consisting of over 100,000 points and triangles, defining a hum...
This paper presents feature-based alignment (FBA), a general method for efficient and robust model-t...
Statistical models of 3D human shape and pose learned from scan databases have developed into valuab...
International audienceStatistical models of 3D human shape and pose learned from scan databases have...
wo methods for registering laser-scans of human heads and transforming them to a new semantically co...
Two methods for registering laser-scans of human heads and transforming them to a new semantically c...
Extracting anthropometric or tailoring measurements from 3D human body scans is important for applic...
Analysis on a dataset of 3D scanned surfaces have presented problems because of incompleteness on th...
The automatic localization of facial landmarks, also referred to as facial landmarking or facialalig...
peer reviewedThis paper presents a method to automatically recover a realistic and accurate body sha...
We consider the problem of computing accurate point-to-point correspondences among a set of human bo...
New scanning technologies are increasing the importance of 3D mesh data and the need for algorithms ...
We present an algorithm for the automatic alignment of two 3D shapes (data and model), without any a...
The complexity of natural scenes and the amount of information acquired by terrestrial laser scanner...
The statistical analysis of large corpora of human body scans requires that these scans be in alignm...
Human body scanners generate meshes, consisting of over 100,000 points and triangles, defining a hum...
This paper presents feature-based alignment (FBA), a general method for efficient and robust model-t...
Statistical models of 3D human shape and pose learned from scan databases have developed into valuab...
International audienceStatistical models of 3D human shape and pose learned from scan databases have...
wo methods for registering laser-scans of human heads and transforming them to a new semantically co...
Two methods for registering laser-scans of human heads and transforming them to a new semantically c...
Extracting anthropometric or tailoring measurements from 3D human body scans is important for applic...
Analysis on a dataset of 3D scanned surfaces have presented problems because of incompleteness on th...
The automatic localization of facial landmarks, also referred to as facial landmarking or facialalig...
peer reviewedThis paper presents a method to automatically recover a realistic and accurate body sha...
We consider the problem of computing accurate point-to-point correspondences among a set of human bo...
New scanning technologies are increasing the importance of 3D mesh data and the need for algorithms ...
We present an algorithm for the automatic alignment of two 3D shapes (data and model), without any a...
The complexity of natural scenes and the amount of information acquired by terrestrial laser scanner...