A simulator for maxillofacial surgery integrating 3D cephalometry and orthodontia

We present a framework for recognition of 3D objects by integrating 2D and 3D sensory data. The major thrust of this work is to efficiently utilize all relevant data, both 2D and 3D, in the early stages of recognition, in order to reduce the computational requirements of the recognition process. To

Al&met-The boundary element method (BEM) simulation for 3-D blunt crack problems is studied. A calculation model for 3-D blunt cracks is established based on the plane strain analogy. The displacement and stress fields near the crack front are calculated by a 3-D BEM computer program and then the st

A J-integral (j) for the pointwise description of the fracture driving force along a 3-D crack front is studied for the three-point bend specimen. Results of a 3-D nonlinear finite element analysis arc used to compute J along the crack front. The analytical values are compared to experimenta\_l 'mea

## Abstract A method is presented to discretize inclined non‐planar 2D fractures within a 3D finite element grid for subsurface flow and transport simulations. Each 2D fracture is represented as a triangulated surface. Each triangle is then discretized by 2D fracture elements that can be horizontal