of a triangle to convert individual triangles to a volumetric representation. A layered model is constructed to animate the reconstructed high-resolution surface. The model consists of 3 layers: a skeleton for animation from key-frame or motion capture; a low-resolution control model for real-time mesh deformation; and a high-resolution model to represent the captured surface detail. Initially the skeleton model is manually placed inside the low-resolution control model and high-resolution scanned data. Automatic techniques are introduced to map both the control model and captured data into a single layered model. The high-resolution captured data is mapped onto the low-resolution control model using the normal volume. The resulting model enables efficient, seamless animation by manipulation of the skeleton while maintaining the captured high-resolution surface detail. The animation of high-resolution captured data based on a low-resolution generic model of the object opens up the possibility of rapid capture and animation of new objects based on libraries of generic models.