M.Sc. Junpeng Wang
I’m a Ph.D. student (11.2018~Now) in the group Computer Graphics&Visualization headed by Prof. Westermann. My thesis defense is expected to happen by the end of this year. My research focuses on stress tensor visualization techniques and their application in structural design and optimization.
Technical University of Munich
Informatics 15 - Chair of Computer Graphics and Visualization (Prof. Westermann)
Postal address
Postal:
Boltzmannstr. 3
85748 Garching b. München
- Phone: +49 (89) 289 - 19480
- junpeng.wang@tum.de
Topics for Bachelor and Master Theses
Currently, I have two thesis topics for master students, both about structural topology optimization. Below please find the topic descriptions.
Publications
Efficient High-Quality Rendering of Ribbons and Twisted Lines
Christoph Neuhauser, Junpeng Wang, Michael Kern, Rüdiger Westermann
Vision, Modeling, and Visualization 2022 (VMV 2022)
[PDF] [Video] [BIB] [Source Code]
♦ A Streamline-guided De-Homogenization Approach for Structural Design
Junpeng Wang, Rüdiger Westermann and Jun Wu
ASME Journal of Mechanical Design, 2022
[Preprint] [BIB] [Data]
♦ Stress trajectory guided structural design and topology optimization
Junpeng Wang, Jun Wu, and Rüdiger Westermann
ASME IDETC-CIE: 42nd Computers and Information in Engineering Conference (CIE), 2022
[PDF] [BIB]
♦ 3D-TSV: The 3D Trajectory-based Stress Visualizer
Junpeng Wang, Christoph Neuhauser, Jun Wu, Xifeng Gao, and Rüdiger Westermann
Advances in Engineering Software, 2022
[PDF] [BIB] [Source Code]
♦ Stress Topology Analysis for Porous Infill Optimization
Junpeng Wang, Jun Wu and Rüdiger Westermann
Structural and Multidisciplinary Optimization, 2022
[Paper] [BiB] [Demo Code]
♦ Interactive Focus+Context Rendering for Hexahedral Mesh Inspection
Christoph Neuhauser, Junpeng Wang, Rüdiger Westermann
IEEE Transactions on Visualization and Computer Graphics, 2021
[PDF] [BIB] [Source Code]
♦ A Globally Conforming Lattice Structure for 2D Stress Tensor Visualization
Junpeng Wang, Jun Wu and Rüdiger Westermann
Computer Graphics Forum (EuroVis 2020), 2020
[PDF] [BiB]
♦ Coupled BE–FE based vibroacoustic modal analysis and frequency sweep using a generalized resolvent sampling method
Tengfei Liang, Junpeng Wang, Jinyou XIao and Lihua Wen
Computer Methods in Applied Mechanics and Engineering, 2019
♦ A Numerical Method for Estimating the Nonlinear Eigenvalue Numbers of Boundary Element (in Chinese)
Junpeng Wang, Tengfei Liang and Lihua Wen
Journal of Northwestern Polytechnical University, 2019
♦ The RSRR method for solving large-scale nonlinear eigenvalue problems in boundary element method
Jinyou XIao, Junpeng Wang, Tengfei Liang and Lihua Wen
Engineering Analysis with Boundary Elements, 2018
♦ An Efficient Numerical Method for Large-scale Modal Analysis using Boundary Element Method (in Chinese)
Junpeng Wang, Tengfei Liang and Lihua Wen
Chinese Journal of Theoretical and Applied Mechanics, 2017