3.数据结构 namespaceGJKTutorials{//支撑函数接口publicinterfaceSupportFunction2D{publicVector2Support(Vector2normal);}[System.Serializable]publicstructTriangle2D:SupportFunction2D{publicVector2a;publicVector2b;publicV
Gilbert-Johnson-Keerthi algorithmCFDWe investigate how the flamelet combustion model coupled with the collision distance algorithm reproduces turbulent reacting flows. The wrinkling length scale of the flame is modelled as function of the turbulent fluctuating velocity due to shear stress and wake effects...
A fast and robust C implementation of the Gilbert-Johnson-Keerthi (GJK) algorithm with interfaces for C#, Go, Matlab and Python. A Unity Plug-inis also available in another repository. Useful links:API references,documentationandautomated benchmarks. ...
We investigate a novel technique to obtain the mesh porosity (volume and area) based on the Gilbert-Johnson-Keerthi (GJK) distance algorithm for flow modelling. The GJK algorithm is used to check collisions between two convex objects. This concept is applied to check the collision between an ...
The Gilbert-Johnson-Keerthi (GJK) algorithm is an iterative improvement technique for finding the minimum distance between two convex objects. It can easily be extended to work with concave objects and return the pair of closest points. [4] The key operation of GJK is testing whether a Voronoi...
C J Ong,E G Gilbert.The Gilbert–Johnson–Keerthi distance algorithm: a fast version for incremental motions. proceeding of IEEE International Conference on Robotics and Automation . 1997E. G. Gilbert and C. J. Ong. The Gilbert-Johnson-Keerthi distance algorithm: A fast version for incremental...
Gilbert. "Fast version of the Gilbert- Johnson-Keerthi distance algorithm: Additional results and comparisons." IEEE Transactions on Robotics and Automation 17.4 (2001): 531-539.ONG, C.-J. AND GILBERT, E. 2001. Fast versions of the Gilbert-Johnson- Keerthi distance algorithm: additional results...
We investigate how the flamelet combustion model coupled with the collision distance algorithm reproduces turbulent reacting flows. The wrinkling length scale of the flame is modelled as function of the turbulent fluctuating velocity due to shear stress and wake effects calculated by a porous ...
Parallel and vectored data structures may be used in a single instruction multiple data processor that applies the Gilbert-Johnson-Keerthi algorithm. As a result, the performance of multi-core processors doing graphics processing may be increased in some cases....
Parallel and vectorized data structures can be in a schematically - (single instruction multiple data) - processor are used, of the gilbert - johnson - keerthi - algorithm uses. Consequently, it is possible, in some cases, the power of more core processors, the graphic processing workflow, be...