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Main Authors: Heinzl, Christoph, Raidou, Renata Georgia, Potter, Kristi, Takeshima, Yuriko, Kirby, Mike, Requena, Guillermo
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.03355
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author Heinzl, Christoph
Raidou, Renata Georgia
Potter, Kristi
Takeshima, Yuriko
Kirby, Mike
Requena, Guillermo
author_facet Heinzl, Christoph
Raidou, Renata Georgia
Potter, Kristi
Takeshima, Yuriko
Kirby, Mike
Requena, Guillermo
contents Materials science has a significant impact on society and its quality of life, e.g., through the development of safer, more durable, more economical, environmentally friendly, and sustainable materials. Visual computing in materials science integrates computer science disciplines from image processing, visualization, computer graphics, pattern recognition, computer vision, virtual and augmented reality, machine learning, to human-computer interaction, to support the acquisition, analysis, and synthesis of (visual) materials science data with computer resources. Therefore, visual computing may provide fundamentally new insights into materials science problems by facilitating the understanding, discovery, design, and usage of complex material systems. This seminar is considered as a follow-up of the Dagstuhl Seminar 19151 Visual Computing in Materials Sciences, held in April 2019. Since then, the field has kept evolving and many novel challenges have emerged, with regard to more traditional topics in visual computing, such as topology analysis or image processing and analysis, to recently emerging topics, such as uncertainty and ensemble analysis, and to the integration of new research disciplines and exploratory technologies, such machine learning and immersive analytics. With the current seminar, we target to strengthen and extend the collaboration between the domains of visual computing and materials science (and across visual computing disciplines), by foreseeing challenges and identifying novel directions of interdisciplinary work. We brought visual computing and visualization experts from academia, research centers, and industry together with domain experts, to uncover the overlaps of visual computing and materials science and to discover yet-unsolved challenges, on which we can collaborate to achieve a higher societal impact.
format Preprint
id arxiv_https___arxiv_org_abs_2407_03355
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Advancing Visual Computing in Materials Science (Shonan Seminar 189)
Heinzl, Christoph
Raidou, Renata Georgia
Potter, Kristi
Takeshima, Yuriko
Kirby, Mike
Requena, Guillermo
Image and Video Processing
I.3.8; I.4.9; I.5.4; I.2.m; J.2
Materials science has a significant impact on society and its quality of life, e.g., through the development of safer, more durable, more economical, environmentally friendly, and sustainable materials. Visual computing in materials science integrates computer science disciplines from image processing, visualization, computer graphics, pattern recognition, computer vision, virtual and augmented reality, machine learning, to human-computer interaction, to support the acquisition, analysis, and synthesis of (visual) materials science data with computer resources. Therefore, visual computing may provide fundamentally new insights into materials science problems by facilitating the understanding, discovery, design, and usage of complex material systems. This seminar is considered as a follow-up of the Dagstuhl Seminar 19151 Visual Computing in Materials Sciences, held in April 2019. Since then, the field has kept evolving and many novel challenges have emerged, with regard to more traditional topics in visual computing, such as topology analysis or image processing and analysis, to recently emerging topics, such as uncertainty and ensemble analysis, and to the integration of new research disciplines and exploratory technologies, such machine learning and immersive analytics. With the current seminar, we target to strengthen and extend the collaboration between the domains of visual computing and materials science (and across visual computing disciplines), by foreseeing challenges and identifying novel directions of interdisciplinary work. We brought visual computing and visualization experts from academia, research centers, and industry together with domain experts, to uncover the overlaps of visual computing and materials science and to discover yet-unsolved challenges, on which we can collaborate to achieve a higher societal impact.
title Advancing Visual Computing in Materials Science (Shonan Seminar 189)
topic Image and Video Processing
I.3.8; I.4.9; I.5.4; I.2.m; J.2
url https://arxiv.org/abs/2407.03355