Sentence examples for bounding sphere from inspiring English sources

The BD-Tree is a bounding sphere hierarchy for output-sensitive collision detection with such models.

Our system is based on QSplat, a multiresolution rendering system for dense polygon meshes that employs a bounding sphere hierarchy data structure and splat rendering.

This efficiency of the algorithm is further increased for systems of very aspherical particles by using bounding sphere complexes (BSC).

By introducing a bounding sphere, the obtained results from the proposed algorithm reveal that the computational time on average is 0.0490μs per test which is reduced by 23% comparing to one of the recent algorithm proposed in the literature.

We present performance results for our implementation of the algorithm, demonstrating that for dense systems of very aspherical ellipsoids the novel techniques of using neighbor lists and bounding sphere complexes, offer as much as two orders of magnitude improvement in efficiency over direct adaptations of traditional event-driven molecular dynamics algorithms.

The Lorentz reciprocal theorem is used to link the surface tractions on the body to integrals involving the background velocity and stress fields on an imaginary bounding sphere (or hemisphere for wall-bounded flows).

We describe a system for representing and progressively displaying these meshes that combines a multiresolution hierarchy based on bounding spheres with a rendering system based on points.

For example, the benchmark results show that optimal bounding spheres for inputs with tens of millions of points can be computed in just a few milliseconds.

Its bounding spheres can be updated after deformation in any order, and at a cost independent of the geometric complexity of the model; in fact the cost can be as low as one multiplication and addition per tested sphere, and at most linear in the number of reduced deformation coordinates.

It consists of series of tubules, flattened sacs called cisternae, and membrane-bound spheres called vesicles.

Oparin's work with coacervates confirmed that enzymes fundamental for the biochemical reactions of metabolism functioned more efficiently when contained within membrane-bound spheres than when free in aqueous solutions.