OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization
Tools for intuitive visualization of dynamic datasets are highly demanded for capturing information and revealing potential patterns, especially in understanding the trend of data changes. We propose a novel resolution-independent heuristic algorithm, termed Orthogonal Stable Treemap (OST), to impli...
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sg-ntu-dr.10356-1621432022-10-05T07:08:43Z OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization Wang, Yan Chao Xing, Yidan Lin, Feng Seah, Hock Soon Zhang, Jie School of Computer Science and Engineering Engineering::Computer science and engineering Orthogonal Rectangles Treemap Tools for intuitive visualization of dynamic datasets are highly demanded for capturing information and revealing potential patterns, especially in understanding the trend of data changes. We propose a novel resolution-independent heuristic algorithm, termed Orthogonal Stable Treemap (OST), to implicitly display dynamic hierarchical data value changes. OST adopts a site-based method as the Voronoi treemap (VT), to preserve the layout stability for diversified data values. Meanwhile, OST partitions the whole canvas with horizontal or vertical lines, instead of the lines with arbitrary orientations in VT. Technical innovations are made in three parts: Initialization of site state to speed up the algorithm and preserve the layout; efficient computation of orthogonal rectangular diagram to partition the empty canvas; self-adaption of site state to quickly reach an equilibrium. The performance of OST is quantitatively evaluated in terms of computation complexity, computation time, convergence rate, visibility, and stability. Moreover, qualitative evaluations (use case and user study) are demonstrated on the dynamic work-in-process dataset in the wafer fab. Evaluation results show that OST combines the advantages of layout stability and tidiness, contributing to easier and faster plot understanding. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) This work was partially supported by the A*STAR Cyber-Physical Production System (CPPS)-Towards Contextual and Intelligent Response Research Program, under the RIE2020 IAF-PP Grant A19C1a0018, and Model Factory @SIMTech. This work is also partially supported by a Grant MOE 2017-T1-001-053-04 from Ministry of Education, Singapore. 2022-10-05T07:08:43Z 2022-10-05T07:08:43Z 2022 Journal Article Wang, Y. C., Xing, Y., Lin, F., Seah, H. S. & Zhang, J. (2022). OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization. Journal of Visualization, 25(4), 875-896. https://dx.doi.org/10.1007/s12650-022-00830-1 1343-8875 https://hdl.handle.net/10356/162143 10.1007/s12650-022-00830-1 2-s2.0-85125400824 4 25 875 896 en A19C1a0018 MOE 2017-T1-001-053-04 Journal of Visualization © 2022 The Visualization Society of Japan. All rights reserved. |
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Engineering::Computer science and engineering Orthogonal Rectangles Treemap Wang, Yan Chao Xing, Yidan Lin, Feng Seah, Hock Soon Zhang, Jie OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| description |
Tools for intuitive visualization of dynamic datasets are highly demanded for capturing information and revealing potential patterns, especially in understanding the trend of data changes. We propose a novel resolution-independent heuristic algorithm, termed Orthogonal Stable Treemap (OST), to implicitly display dynamic hierarchical data value changes. OST adopts a site-based method as the Voronoi treemap (VT), to preserve the layout stability for diversified data values. Meanwhile, OST partitions the whole canvas with horizontal or vertical lines, instead of the lines with arbitrary orientations in VT. Technical innovations are made in three parts: Initialization of site state to speed up the algorithm and preserve the layout; efficient computation of orthogonal rectangular diagram to partition the empty canvas; self-adaption of site state to quickly reach an equilibrium. The performance of OST is quantitatively evaluated in terms of computation complexity, computation time, convergence rate, visibility, and stability. Moreover, qualitative evaluations (use case and user study) are demonstrated on the dynamic work-in-process dataset in the wafer fab. Evaluation results show that OST combines the advantages of layout stability and tidiness, contributing to easier and faster plot understanding. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Wang, Yan Chao Xing, Yidan Lin, Feng Seah, Hock Soon Zhang, Jie |
| format |
Article |
| author |
Wang, Yan Chao Xing, Yidan Lin, Feng Seah, Hock Soon Zhang, Jie |
| author_sort |
Wang, Yan Chao |
| title |
OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| title_short |
OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| title_full |
OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| title_fullStr |
OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| title_full_unstemmed |
OST: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| title_sort |
ost: a heuristic-based orthogonal partitioning algorithm for dynamic hierarchical data visualization |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162143 |
| _version_ |
1746219681884143616 |