The novel STEVE (i.e., Space-Time-Enclosing Volume Extraction) algorithm is described here for the very first time. It generates iso-valued hypersurfaces that may be implicitly contained in four-dimensional (4D) data sets, such as temporal sequences of three-dimensional images from time-varying computed tomography. Any final hypersurface that will be generated by STEVE is guaranteed to be free from accidental rifts, i.e., it always fully encloses a region in the 4D space under consideration. Furthermore, the information of the interior/exterior of the enclosed regions is propagated to each one of the tetrahedrons, which are embedded into 4D and which in their union represent the final, iso-valued hypersurface(s). STEVE is usually executed in a purely data-driven mode, and it uses lesser computational resources than other techniques that also generate simplex-based manifolds of codimension 1.
Cite
@article{arxiv.1302.5683,
title = {STEVE - Space-Time-Enclosing Volume Extraction},
author = {B. R. Schlei},
journal= {arXiv preprint arXiv:1302.5683},
year = {2016}
}