国家数学与交叉科学中心合肥分中心报告【Jessica Zhang】

发布者:系统管理员发布时间:2013-06-24浏览次数:19

 

报告人:Jessica Zhang (Carnegie Mellon University)

报告题目:Image-Based Mesh Generation and Volumetric T-spline Construction

报告时间:2013年7月2日上午10:00

报告地点:管理楼1218教室

报告摘要:With finite element method (FEM) and scanning technology seeing increased use in active research areas such as biomechanics, there is an emerging need for high-fidelity geometric modeling and quality mesh generation of the spatially realistic domains.  In this talk, I will highlight our research in this area along with details of meshing pipelines, especially octree-based algorithms to extract adaptive and quality 2D (triangular or quadrilateral) and 3D (tetrahedral or hexahedral) meshes of volumetric domains. Automatic mesh generation and robust quality improvement for complex domains with non-manifold boundaries, sharp feature preservation in all-hexahedral meshing for CAD assemblies, and guaranteed-quality mesh generation will be discussed.

 

In the second part of this talk, I will show our latest research on volumetric T-spline construction from boundary representations. For arbitrary topology objects, we first use the input boundary information or a smooth harmonic scalar field to split the model into components. A polycube with equivalent topology to the input geometry is built and it serves as the parametric domain for the trivariate T-spline. Parametric mapping is then used together with Boolean operations to build a one-to-one correspondence between the input surface and the polycube boundary. After that, we choose the deformed octree subdivision of the polycube as the initial T-mesh, and make it valid through pillowing, quality improvement and applying templates to handle extraordinary nodes. The obtained T-spline is C2-continuous everywhere over the surface except for the local region surrounding polycube corner nodes.

 

Short Bio:

 

Yongjie (Jessica) Zhang is an Associate Professor in Mechanical Engineering at Carnegie Mellon University with a courtesy appointment in Biomedical Engineering. She received her B.Eng. in Automotive Engineering, and M.Eng. in Engineering Mechanics, all from Tsinghua University, China, and M.Eng. in Aerospace Engineering and Engineering Mechanics, and Ph.D. in Computational Engineering and Sciences from the University of Texas at Austin. Her research interests include computational geometry, mesh generation, computer graphics, visualization, finite element method, isogeometric analysis and their application in computational biomedicine and engineering. She has co-authored over 90 publications in peer-reviewed international journals and conference proceedings. She is the recipient of NSF CAREER Award, Office of Naval Research Young Investigator Award, USACM Gallagher Young Investigator Award, George Tallman Ladd Research Award, and Donald L. & Rhonda Struminger Faculty Fellow.

 

 

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