This paper presents a new medical data visualiz ation method called multi-resolution blending rendering which has been deve lope d for visualizing the large medical volume data sets. Different from those multi -resolution rendering methods which simplify the structures by polygon mesh opt imization technique, the new method uses different resolution levels to represen t different parts of a structure at the same time. So, it can preserve the integ rality of the structure and emphasize the important part of the structure when simplifying the structure. The new method also takes advantage of the good qualit ies of the wavelet transform and constructs the multi-resolution blending model of the structureby orthogonal wavelet transform and transition operator. The experiment proves that our method can effectively simplify the model of the structure, enormously reduce the number of the triangle of the structure and speedup the structure rendering. It is especially suitable for interactive observations on a complex medical structure.

The existing algorithms for displaying the cutting isosurface of the structure are not suitable for interactive display because they spend too much time on calculation when a fair amount of data is submitted to processing. This paper presents a new algorithm for accelerating the cutting of structure by using the area partition and the increment calculation to reduce the unnecessary calculation in cutting the structure. It is suitable for real time interactive displaying, especially in the case of a vast amount of data.