Papers Published

1. D. L. A. Camacho and R. H. Hopper and G. M. Lin and B. S. Myers, An improved method for finite element mesh generation of geometrically complex structures with application to the skullbase, Journal Of Biomechanics, vol. 30 no. 10 (October, 1997), pp. 1067 -- 1070 .
   (last updated on 2008/07/23)

   Abstract:
   An automated method has been developed to generate finite element meshes of geometrically complex structures from CT images using solely hexahedral elements. This technique improves upon previous voxel-based mesh reconstruction approaches by smoothing the irregular boundaries at model surfaces and material interfaces. Over a range of mesh densities, RMS error in surface Von Mises stress was higher in the unsmoothed circular ring models (0.11-0.24 MPa) than in the smoothed models (0.080-0.15 MPa) at each mesh density. The element-to-element oscillation in surface element stress, as measured by the average second spatial derivative of Von Mises stress along the outer surface of the ring, was higher in the unsmoothed models (11.5-15.0 kPa mm(-2)) than in the smoothed models (4.0-6.8 kPa mm(-2)). Similarly, in a human skullbase model, the element-to-element oscillation in surface Von Mises stress was higher in the unsmoothed model (5.52 kPa mm(-2)) than in the smoothed model (1.83 kPa mm(-2)). Using this technique, finite element models of complex geometries can be rapidly reconstructed which produce less error at the surface than voxel-based models with discontinuous surfaces. (C) 1997 Published by Elsevier Science Ltd.