Global Energy Minimization for Simplex Mesh Optimization: A Radius Ratio Approach to Sliver Elimination

The quality of simplex mesh is crucial for the stability and accuracy of numerical simulations in finite element analysis and computational geometry. However, the presence of sliver elements in 3D simplex mesh can severely impact the results. This paper presents a novel method based on a radius ratio energy function to optimize the quality of simplex mesh elements. This method can effectively eliminate sliver elements, thereby enhancing mesh quality.The gradient of the proposed energy function can be decomposed into a matrix-vector product. With minor processing, the matrix becomes symmetric positive definite, and this symmetric positive definite matrix can serve as a preconditioner to significantly accelerate the optimization process. Experimental results demonstrate that this method has significant advantages in eliminating sliver elements and improving mesh quality.