From 17a9b5808e333db383f32e245992b2683cba34c5 Mon Sep 17 00:00:00 2001 From: CAS-USTC-Meow Date: Sat, 18 Nov 2023 16:32:53 +0800 Subject: [PATCH] Simulation-2023-11-18 --- paperSources/Advances in Engineering Software.yml | 9 +++++++++ ...V The 3D Trajectory-based Stress Visualizer.md | 15 +++++++++++++++ 2 files changed, 24 insertions(+) create mode 100644 paperSources/Advances in Engineering Software.yml create mode 100644 papers/Advances in Engineering Software/2022/3D-TSV The 3D Trajectory-based Stress Visualizer.md diff --git a/paperSources/Advances in Engineering Software.yml b/paperSources/Advances in Engineering Software.yml new file mode 100644 index 0000000..45cd439 --- /dev/null +++ b/paperSources/Advances in Engineering Software.yml @@ -0,0 +1,9 @@ +# Advances in Engineering Software paper list +# This is intended for Advances in Engineering Software papers that don't appear in SIGGRAPH & SIGGRAPH Asia. + +sourceInfo: + name: Advances in Engineering Software + fullname: Advances in Engineering Software +papers: + 2022: + - name: "3D-TSV: The 3D Trajectory-based Stress Visualizer" diff --git a/papers/Advances in Engineering Software/2022/3D-TSV The 3D Trajectory-based Stress Visualizer.md b/papers/Advances in Engineering Software/2022/3D-TSV The 3D Trajectory-based Stress Visualizer.md new file mode 100644 index 0000000..fe875d7 --- /dev/null +++ b/papers/Advances in Engineering Software/2022/3D-TSV The 3D Trajectory-based Stress Visualizer.md @@ -0,0 +1,15 @@ +--- +layout: 'paper-reading' +papertitle: '3D-TSV: The 3D Trajectory-based Stress Visualizer' +paperauthors: Junpeng Wang, Christoph Neuhauser, Jun Wu, Xifeng Gao and Rüdiger Westermann +papersource: 'Advances in Engineering Software' +paperurl: 'http://arxiv.org/abs/2112.09202' +papertags: Topology Optimization,Structure Design +date: 2023-11-18 +--- + +基本信息: +- 简介:We present the 3D Trajectory-based Stress Visualizer (3D-TSV), a visual analysis tool for the exploration of the principal stress directions in 3D solids under load. 3D-TSV provides a modular and generic implementation of key algorithms required for a trajectory-based visual analysis of principal stress directions, including the automatic seeding of space-filling stress lines, their extraction using numerical schemes, their mapping to an effective renderable representation, and rendering options to convey structures with special mechanical properties. In the design of 3D-TSV, several perceptual challenges have been addressed when simultaneously visualizing three mutually orthogonal stress directions via lines. We present a novel algorithm for generating a space-filling and evenly spaced set of mutually orthogonal lines. The algorithm further considers the locations of lines to obtain a more regular appearance, and enables the extraction of a level-of-detail representation with adjustable sparseness of the trajectories along a certain stress direction. +- 相关材料: + - 视频:https://youtu.be/99Jn938ZoVk + - 讨论班: 2023-11-18 \ No newline at end of file