Practical quality control tools for curves and surfaces

Curves (geometry) and surfaces created by Computer Aided Geometric Design systems in the engineering environment must satisfy two basic quality criteria: the geometric shape must have the desired engineering properties; and the objects must be parameterized in a way which does not cause computational difficulty for geometric processing and engineering analysis. Interactive techniques are described which are in use at Boeing to evaluate the quality of aircraft geometry prior to Computational Fluid Dynamic analysis, including newly developed methods for examining surface parameterization and its effects

Highlight-line algorithm for realtime surface-quality assessment

A new method of surface-quality assessment is presented. The model of highlight lines is introduced, and its properties and applications in surface-quality evaluation are demonstrated. The differential equation of the highlight-line model is derived, and the difficulty involved in seeking its analytical solutions is discussed. Alternatively, the creation of highlight lines is formulated as a surface-plane intersection problem, and solved using surface-contouring techniques. A fast highlight-line algorithm is developed utilizing an efficient traced contouring technique. The algorithm is robust, fully automatic, and, therefore, well suited for realtime quality-assessment tasks.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/31671/1/0000607.pd