Company Filing History:
Years Active: 2019-2022
Title: Wayne Catalfano: Innovator in NURBS Surface Fitting
Introduction
Wayne Catalfano is a prominent inventor based in Novi, MI (US). He has made significant contributions to the field of computer graphics and modeling, particularly in the area of Non-Uniform Rational B-Splines (NURBS) surfaces. With a total of 4 patents, his work has advanced the techniques used in fitting complex geometric representations.
Latest Patents
Wayne's latest patents include innovative methods for scalable and precise fitting of NURBS surfaces to large-size mesh representations. One embodiment of his invention provides techniques for fitting a mesh representation that includes a plurality of mesh points with a NURBS surface. A subdividing engine is utilized to subdivide the mesh representation into a plurality of patches in a parametric domain. Additionally, a vertex solving engine computes vertex boundary continuity constraints for each vertex associated with the patches. An edge solving engine computes edge boundary continuity constraints for each edge, while a patch solving engine fits the patches with at least one partial NURBS surface based on these constraints. Another patent focuses on computing boundary continuity constraints for patching curve networks, detailing methods and systems for determining respective surface patches for each face in a model.
Career Highlights
Wayne Catalfano is currently employed at Autodesk, Inc., where he continues to innovate and develop advanced modeling techniques. His work has been instrumental in enhancing the capabilities of design software used by professionals in various industries.
Collaborations
Wayne has collaborated with notable colleagues, including Xuejun Sheng and Jingyang John Chen, contributing to a dynamic and innovative work environment.
Conclusion
Wayne Catalfano's contributions to the field of NURBS surface fitting have established him as a key figure in computer graphics innovation. His patents reflect a deep understanding of complex modeling techniques that continue to influence the industry.