Dr. Junpeng Wang

I'm a Postdoc (since 06.2023) in the group Computer Graphics & Visualization chaired by Prof. Westermann. Beforehand, I was a PhD candidate in the same place (11.2018 ~ 06.2023). My research interests include (i) lightweight structural design and optimization with a special focus on geometry-based approaches and (ii) scientific visualization, typically on tensor and mesh data.

Picture of Junpeng Wang

Technical University of Munich

Informatics 15 - Chair of Computer Graphics and Visualization (Prof. Westermann)

Postal address

Boltzmannstr. 3
85748 Garching b. München


2023.06 I passed the defense of my Ph.D. on 22.06.2023. Afterward, I'll continue my career in the same group as a Postdoc.
2023.04 My Ph.D. defense is scheduled on 22.06.2023

Supervised Theses

Topic Student Type of Thesis
A High-Performance Geometric Multigrid Solver using Vulkan Hira Demirkol Master



♦ 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

♦ Stress Topology Analysis for Porous Infill Optimization
Junpeng Wang, Jun Wu and Rüdiger Westermann
Structural and Multidisciplinary Optimization, 2022
[Paper] [BiB] [Demo Code]

♦ 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, Jinyou Xiao 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, Jinyou Xiao and Lihua Wen
Chinese Journal of Theoretical and Applied Mechanics, 2017